Клеточные механизмы нейрорегенерации спинного мозга при трансплантации генетически модифицированных клеток мезенхимного происхождения тема диссертации и автореферата по ВАК РФ 03.03.04, доктор наук Мухамедшина Яна Олеговна

ВВЕДЕНИЕ

Актуальность исследования

Травма спинного мозга (ТСМ) приводит к стойким нарушениям чувствительной и двигательной функции нервной системы и как следствие этого к глубокой инвалидизации пострадавших. Несмотря на определенные достижения в раскрытии патогенеза нейротравмы, до сих пор существует насущная потребность в новых подходах к лечению таких пациентов, основанных на понимании молекулярных и клеточных механизмов, протекающих при ТСМ. Возможность стимулирования нейрорегенерации спинного мозга связывают с применением биологически активных молекул, особенно нейротрофических факторов (НТФ), которые поддерживают жизнеспособность нейронов и глиальных клеток, а также стимулируют нейрогенез и рост аксонов (Lu & Tuszynski, 2008; Hollis & Tuszynski, 2011). При локальном введении действие НТФ не является стойким вследствие быстрого расщепления протеазами. Системная доставка в свою очередь приводит к неприемлемым побочным реакциям и обладает низкой эффективностью (Apfel et al., 2002). В этой связи наиболее актуальным является клеточно-опосредованный вариант доставки НТФ в область повреждения.

Клеточная терапия рассматривается в качестве одного из перспективных

методов поддержания регенерации нервных волокон, уменьшения

выраженности или преодоления последствий нейротравм (Assinck et al., 2017;

Gazdic et al., 2018; Gao et al., 2020). Тем не менее, среди исследователей до сих

пор нет единства по выбору типа клеток, при трансплантации которых будет

происходить наиболее эффективное стимулирование нейрорегенерации

спинного мозга. Эффекты экспериментальной трансплантации

мононуклеарных клеток крови пуповины (МККП) человека, обладающих

противовоспалительной активностью и нейропротективным воздействием,

давно исследуют в рамках проблемы ТСМ (Hernandez et al., 2011; Park et al.,

2011; Sun, Ma, 2012; Ryabov et al., 2020). Однако, трансплантация МККП не

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приводит к значительному улучшению структурных показателей и достаточному восстановлению функций после ТСМ, что отражается в прекращении части клинических исследований с использованием данных клеток (Hu et al., 2021). В этой связи особое внимание и большие надежды возлагают на генетически модифицированные МККП, сверхэкс-прессирующие гены, кодирующие НТФ. Наиболее перспективными в этом отношении представляются гены сосудистого эндотелиального фактора роста (VEGF) и глиального нейротрофического фактора (GDNF). Помимо ангиогенных свойств VEGF обладает нейротрофическими эффектами, заключающимися в стимулировании нейрогенеза и роста аксонов (Facchiano et al., 2002; Mackenzie & MacRuhrberg, 2012). В свою очередь GDNF является мощным стимулятором выживания нейронов, роста нервных волокон и миелинизации (Cheng et al., 2002; Zhang L. et al., 2009). Совместное применение указанных нейротрофических и ангиогенных факторов при ТСМ ранее не исследовано, однако представляет не только фундаментальный, но и практический интерес.

Одним из важных звеньев посттравматических реакций в центральной нервной системе (ЦНС) является активация клеток микроглии, которые первыми реагируют на ТСМ. Активированная микроглия способна синтезировать не только потенциально нейротоксичные молекулы, такие как оксид азота и провоспалительные цитокины, но и также нейропротективные факторы - нейротрофины, транспортеры глутамата и антиоксиданты (Hellwig et al., 2013; Chen & Trapp, 2016; Stratoulias et al., 2019). Предполагается, что усиление акцепторных и фагоцитарных свойств микроглии приводит к раннему разрешению начальных посттравматических реакций, что в последующем может улучшить сохранность нервной ткани и восстановление ее функции (Redondo-Castro et al., 2013). С целью подтверждения данной гипотезы и оценки перспективности применения микроглии для клеточной терапии при ТСМ особую актуальность представляет исследование

эффективности трансплантации генетически модифицированной микроглии, проявляющей усиленную или ослабленную фагоцитарную активность.

Мезенхимные стволовые клетки (МСК) рассматривают как наиболее перспективный материал для стимулирования нейрорегенерации, что связано с их высокой биобезопасностью, иммуномодулирующими свойствами, способностью синтезировать нейротрофические и проангиогенные факторы (КИап Б. е! а1., 2018; С^апо е! а1., 2019). Терапевтический эффект данных клеток обусловлен паракринным механизмом их действия ^пессЫ et а1., 2016; Маа^а et а1., 2020), поэтому отдельное внимание уделяется такому важному аспекту, как сохранение жизнеспособности МСК и оптимальной доставке секретируемых ими терапевтических молекул. Тем не менее, до сих пор существует необходимость раскрытия клеточных и молекулярных механизмов, посредством которых МСК улучшают исход ТСМ (Cofano et а1., 2019; Ыаи е! а1., 2020).

Несмотря на пристальный интерес к регенеративной медицине и проведённые исследования по применению генно-клеточной и клеточной терапии при ТСМ, многие вопросы как поведения самих трансплантируемых клеток, так и характера их влияния на микроокружение требуют углубленного исследования. Представляется важным оценить эффективность терапии не только с применением общепринятых критериев, таких как степень восстановления двигательной функции и сохранность нервной ткани, но и определить изменения реактивности глиальных клеток, а также уровень экспрессии мРНК генов, кодирующих синтез специфических белков нейроглии, НТФ и других регуляторных молекул в области ТСМ.

Следует отметить, что доклинические исследования эффективности

клеточной терапии чаще всего проводят на мелких лабораторных животных

(крысы, мыши). Такие исследования достаточно часто показывают

позитивные и вдохновляющие результаты по восстановлению структуры и

функций травмированной ткани. Тем не менее, далеко не всегда возможно

успешно экстраполировать накопленный опыт в клинику, что связано с (1)

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очевидными различиями организмов человека и мелких лабораторных животных как на уровне анатомо-физиологических характеристик, механизма развития (патогенеза) заболевания, так и фенотипических проявлений, (2) ошибок дизайна экспериментального исследования и (3) невозможности проведения аутологичных трансплантаций (Уа^атте, 2014). В этой связи выполнение исследований на крупных животных (свиньи), имеющих много анатомических, физиологических и других функциональных сходств с человеком, позволит объективно подойти к клиническим исследованиям, минимизируя экономические потери в случае отсутствия эффективности клеточной терапии на доклиническом этапе.

Цель исследования - на основании структурных и функциональных изменений оценить эффективность мононуклеарных клеток крови пуповины, микроглии и мезенхимных стволовых клеток, трансдуцированных аденовирусными или лентивирусными векторами Ad5-VEGF, Ad5-GDNF и LV-EGFP, для преодоления последствий контузионной травмы спинного мозга крысы и свиньи в условиях их однократной трансплантации в область повреждения.

Для достижения цели были поставлены следующие задачи:

1. Изучить сроки выживания и миграционный потенциал трансплантированных мононуклеарных клеток крови пуповины, микроглии и мезенхимных стволовых клеток при моделировании травмы спинного мозга крысы и свиньи.

2. Оценить эффективность посттравматической регенерации спинного мозга крысы на фоне проведения интраспинальной инъекции мононуклеарных клеток крови пуповины человека, трансдуцированных аденовирусными векторами Ad5-VEGF и Ad5-GDNF, на основании структурных и функциональных изменений.

3. Установить изменения фагоцитарной активности клеток микроглии крысы на фоне трансдукции аденовирусным вектором Ad5-GDNF.

4. Определить влияние интраспинальной аллогенной трансплантации клеток микроглии, трансдуцированных аденовирусным вектором Ad5-GDNF, на восстановление функции и посттравматические процессы спинного мозга крысы.

5. Установить влияние трансдукции лентивирусным вектором LV-EGFP на фенотип, жизнеспособность, дифференцировочный потенциал и экспрессию цитокинов мезенхимными стволовыми клетками жировой ткани свиньи.

6. Провести сравнительную оценку эффективности посттравматической регенерации спинного мозга крысы при аллогенной аппликации на область повреждения мезенхимных стволовых клеток, полученных из жировой ткани, костного мозга или пульпы зуба.

7. Определить влияние аутологичной аппликации на область повреждения мезенхимных стволовых клеток жировой ткани на структуру и функции травмированного спинного мозга свиньи.

8. Выявить изменения цитокинового профиля в области повреждения и сыворотке крови при травме спинного мозга крысы и аллогенной аппликации мезенхимных стволовых клеток жировой ткани.

Научная новизна

Впервые показано стимулирующее влияние на процессы

нейрорегенерации спинного мозга трансплантации в область повреждения

МККП человека, трансдуцированных аденовирусными векторами Ad5-VEGF

и Ad5-GDNF, заключающееся в улучшении восстановления двигательной

функции и сохранности нервной ткани, увеличения количества миелиновых

волокон в кортикоспинальном тракте (CST), усилении роста аксонов и

экспрессии маркерных белков Шванновских клеток (ШК).

Несомненной новизной обладают данные, свидетельствующие о

возможности ауторегуляции функций микроглии путём их генетической

модификации аденовирусным вектором Ad5-GDNF. Получены новые данные,

свидетельствующие о том, что клетки микроглии интраспинально

трансплантированные в острый период ТСМ крысы сохраняют свою

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жизнеспособность до 30 суток. В ходе экспериментальных исследований впервые установлено, что увеличение количества активно фагоцитирующей микроглии в области ТСМ в острый период может способствовать улучшению сохранности нервной ткани без значимого влияния на восстановление двигательной функции.

Принципиально новыми являются данные о тропности МСК к серому веществу и возможности их миграции через задние корешки спинного мозга с сохранением жизнеспособности до 60 суток при аппликации на область ТСМ. Впервые проведена сравнительная оценка эффективности посттравматической регенерации спинного мозга крыс при аллогенной аппликации на область повреждения МСК, полученных из жировой ткани (МСК-ЖТ), костного мозга (МСК-КМ) или пульпы зуба (МСК-ПЗ). Новыми следует считать данные о влиянии генетической модификации МСК свиней при помощи лентивирусного вектора LV-EGFP на фенотип, жизнеспособность, дифференцировочный потенциал и экспрессию цитокинов данными клетками. Приоритетными являются данные о возможности частичного экстраполирования полученных на крысах результатов при моделировании аналогичной ТСМ у свиней, проявляющейся в виде восстановления соматосенсорных путей спинного мозга, улучшения сохранности нервной ткани и модуляции активности астроцитов в области вхождения задних корешков Обладают новизной данные,

показывающие значительные изменения в концентрации 13 цитокинов/хемокинов с различной воспалительной и иммунологической активностью в сыворотке крови и ткани спинного мозга в острый и ранний периоды ТСМ крысы.

Положения, выносимые на защиту:

1. Трансплантация в область контузионной травмы спинного мозга

крысы мононуклеарных клеток крови пуповины человека,

трансдуцированных аденовирусными векторами Ad5-VEGF и Ad5-GDNF,

более эффективно стимулирует нейрорегенерацию, чем аналогичная инъекция

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мононуклеарных клеток крови пуповины человека, трансдуцированных аденовирусным вектором, кодирующим репортерный ген в^р.

2. Аллогенная аппликация мезенхимных стволовых клеток жировой ткани в подострый период контузионной травмы спинного мозга крысы более эффективно стимулирует нейрорегенерацию по сравнению с аналогичным применением мезенхимных стволовых клеток, полученных из костного мозга или пульпы зуба. Экстраполяция разработанного способа терапии аутологичными мезенхимными стволовыми клетками жировой ткани на модели контузионной травмы спинного мозга свиньи демонстрирует частичное повторение результатов, наблюдаемых на крысах, в отношении стимулирования нейрорегенерации.

Теоретическая и практическая значимость работы

Предложено технологическое решение, подтвержденное теоретическими положениями и экспериментальными данными, модификации МККП и клеток микроглии генами НТФ с целью усиления их терапевтического потенциала и/или ауторегуляции функций при ТСМ. Решена крупная научная проблема выбора источника МСК для терапии ТСМ. Изложено фундаментальное и экспериментальное обоснование выбора источника МСК и вариабельности донорского клеточного материала, обуславливающие дальнейшую эффективность клеточной терапии. Предложено научно обоснованное технологическое решение эффективного и безопасного способа аппликационного применения МСК при ТСМ. Впервые проведены сравнительные исследования на моделях как мелких, так и крупных лабораторных животных, позволивших экспериментально обосновать предложенный способ применения биомедицинских клеточных технологий.

Связь работы с базовыми научными программами

Работа поддерживалась грантами: РФФИ №16-34-60101-мол_а_дк «Исследование молекулярных и клеточных механизмов посттравматических

процессов при повреждении спинного мозга крыс и свиней, в том числе на фоне генно-клеточной терапии» (2016-2018 гг.), Президента Российской Федерации для государственной поддержки молодых российских ученых -кандидатов наук «Молекулярные и клеточные механизмы регенерации при травматических повреждениях спинного мозга на фоне генно-клеточной терапии» (2015-2016), РФФИ №14-04-31246-мол_а «Фенотипическая характеристика и поведение эндоген-ных шванновских клеток в области травмы спинного мозга в условиях прямой и клеточно-опосредованной генной терапии» (2014-2015 гг.).

Апробация работы

Основные положения и результаты работы доложены на: 18ом международном симпозиуме студентов-биологов Европы (Александруполис, 2015); V молодежной конференции по молекулярной и клеточной биологии (Санкт-Петербург, 2016); Международной конференции «Трансляционная медицина 2016» (Казань, 2016); III Национальном конгрессе по регенеративной медицине (Москва, 2017); VI международной научно-практической конференции «Новые концепции механизмов воспаления, аутоиммунного ответа и развития опу-холи» (Казань, 2017); 26ом ежегодном конгрессе Европейского общества генных и клеточных технологий (Швейцария, 2018).

Публикации. По теме диссертации опубликовано 24 печатные работы, из них 15 статей в изданиях, рецензируемых в международных базах данных Scopus/Web of Science, получен 1 патент Российской Федерации на изобретение.

Место выполнения работы. Экспериментальные данные получены автором за время работы в НИЛ OpenLab «Генные и клеточные технологии» Института фундаментальной медицины и биологии Казанского (Приволжского) федерального университета (2014-2021 годы) под руководством д.б.н., профессора Ризванова А.А.

Структура и объем работы

Диссертация изложена на 365 страницах машинописного текста, состоит из введения, обзора литературы, описания материалов и методов исследования, главы результатов собственных исследований и их обсуждения, заключения, выводов, списка литературы. Работа иллюстрирована 14 таблицами и 66 рисунками, которые включают микрофотографии световой, конфокальной и электронной микроскопии, схемы. Библиографический список содержит 704 источника, из них 689 иностранных.

5. ВЫВОДЫ

1. Генетически модифицированные аденовирусными векторами Ad5-VEGF и Ad5-GDNF мононуклеарные клетки крови пуповины человека, интраспинально трансплантированные в острый период травмы спинного мозга крысы, сохраняют жизнеспособность и возможность экспрессии продуктов рекомбинантных генов до 30 суток, располагаются преимущественно в сохранной ткани и вдоль нервных волокон на расстоянии до 10 мм в обоих направлениях от эпицентра повреждения.

2. Трансдуцированные аденовирусным вектором Ad5-EGFP клетки микроглии, интраспинально трансплантированные в острый период травмы спинного мозга крысы, сохраняют жизнеспособность до 30 суток, располагаясь преимущественно вокруг небольших полостей на расстоянии до 4 мм в обоих направлениях от эпицентра повреждения.

3. Генетически модифицированные лентивирусным вектором LV-EGFP мезенхимные стволовые клетки, полученные из жировой ткани, костного мозга или пульпы зуба, при их аллогенной аппликации в подострый период на область травмы спинного мозга крыс сохраняют жизнеспособность до 60 суток, демонстрируют тропность к серому веществу и преимущественную миграцию через задние корешки спинного мозга, располагаясь в сером и белом веществе на расстоянии до 5 мм в обоих направлениях от эпицентра повреждения. Аналогичный вариант аутологичной трансплантации мезенхимных стволовых клеток жировой ткани при травме спинного мозга свиней подтверждает полученные результаты на крысах по тропности к серому веществу и распределению клеток в нервной ткани, а также свидетельствует об их преобладающей миграции в ростральном направлении от эпицентра повреждения.

4. Интраспинальная инъекция в острый период травмы спинного мозга

крысы мононуклеарных клеток крови пуповины человека,

трансдуцированных аденовирусными векторами Ad5-VEGF и Ad5-GDNF,

стимулирует нейрорегенерацию, что подтверждается улучшением

277

двигательной функции и сохранности нервной ткани, стабилизацией уровня рефлекторной возбудимости спинальных мотонейронов, снижением реактивности астроцитов, усилением роста аксонов и экспрессии маркерных белков Шванновских клеток.

5. Трансдукция аденовирусным вектором Ad5-GDNF первичной культуры клеток микроглии способствует уменьшению их фагоцитарной активности.

6. Интраспинальная трансплантация в острый период травмы спинного мозга крысы клеток микроглии, трансдуцированных аденовирусным вектором Ad5-GDNF, способствует восстановлению двигательной функции, но не приводит к улучшению сохранности нервной ткани.

7. Трансдукция лентивирусным вектором LV-EGFP мезенхимных стволовых клеток жировой ткани свиньи не оказывает значимого влияния на их фенотип и экспрессию цитокинов, не приводит к существенным сдвигам дифференцировки в остеогенном, хондрогенном и адипогенном направлениях и незначительно снижает жизнеспособность клеток до 93±1% на 3 день после генетической модификации.

8. При проведении аппликации на область контузионного повреждения спинного мозга крысы мезенхимных стволовых клеток, полученных из жировой ткани (МСК-ЖТ), костного мозга (МСК-КМ) и пульпы зуба (МСК-ПЗ) эффективность нейрорегенерации воз-растает в следующем ряду, учитывая критерии восстановления двигательной функции и проводимости по нервным волокнам, уменьшения посттравматической кавитации и увеличения сохранности нервной ткани, снижения активации астроцитов и микроглии, увеличе-ния экспрессии мРНК гена, ассоциированного с ростом аксонов: МСК-КМ ^ МСК-ПЗ ^ МСК-ЖТ.

9. Аппликация аутологичных мезенхимных стволовых клеток жировой

ткани в подострый период контузионной травмы спинного мозга свиньи

стимулирует восстановление соматосенсорных путей спинного мозга,

улучшает сохранность нервной ткани и снижает активацию астроцитов в

278

области вхождения задних корешков.

10. Травма спинного мозга крысы приводит к развитию воспалительных реакций и иммунологического ответа, не ограничивающихся центральной нервной системой. Значительные локальные изменения (в области повреждения) обнаружены в экспрессии ГЬ-1а, ГЬ-2, 1Ь-5, 1Ь-18, GM-CSF, 1Ь-17а, IL-10, 1Ь-13, МСР-1 и GRO КС на 3, 7 и 14 сутки после травмы

спинного мозга. В этот же период установлено значительное изменение концентраций ГЬ-1р, 1Ь-2, МСР-1, RANTES, 1Ь-5 и ГЬ-1а на системном уровне (в сыворотке крови). Аллогенная аппликация мезенхимных стволовых клеток жировой ткани в подострый период контузионной травмы спинного мозга крысы способствует локальным изменениям в виде снижения экспрессии ГЬ-1а и ГЬ-6, повышения уровня ГЬ-17а и ГЬ-1р, а также системным изменениям - снижению экспрессии ГЬ-13, GRO КС и IL-lp.

6. СПИСОК ЛИТЕРАТУРЫ

1. Владимирская, Е. Б. Мезенхимальные стволовые клетки (МСК) в клеточной терапии / Е. Б. Владимирская // Онкогематология. - 2007. - №2 1. - С. 4-16.

2. Волков, С. Г. Представления о патогенезе травматического повреждения спинного мозга и возможных путях терапевтического воздействия: обзор литературы / С. Г. Волков, Е. И. Верещагин // Хирургия позвоночника. -2015. - Т. 12, № 2. - С. 8-15.

3. Воловец, С. А. Протокол ведения больных с последствиями травм спинного мозга в восстановительном и позднем периодах / С. А. Воловец, И. Н. Новоселова, А. А. Гринь, Г. В. Васина, Л. Н. Зима, Р. И. Самохвалов // Москва - 2007. - 77с.

4. Иванова, Г. Е. Ведение больных с последствиями позвоночно-спинномозговой травмы на втором и третьем этапах медицинской и медико-социальной реабилитации / Г. Е. Иванова, С. А. Воловец, И. Н. Новоселова, И. Н. Морозов, А. Н. Бойко, А. А. Гринь // Москва - 2017. - Т. 11. - 59с.

5. Кожевникова, М. Н. Молекулярно-генетический и иммунофенотипический анализ антигенного профиля, остеогенных и адипогенных потенций мезенхимных стромальных клеток из печени зародышей и костного мозга половозрелых крыс / М. Н. Кожевникова, А. С. Микаелян, В. И. Старостин // Цитология - 2009. - Т. 51, № 6. - С. 526538.

6. Масгутова, Г .А. Миграция и выживание в области гемисекции спинного мозга мыши аллотрансплантированных микроглия-подобных клеток, трансфицированных геном ЭТ-3 / Г.А. Масгутова, Р.Ф. Масгутов, Ю.А. Челышев // Морфологические ведомости - 2009. - № 3-4. - С. 42-46.

7. Масгутова, Г. А. Посттравматическая регенерация спинного мозга

грызунов при трансплантации клеток обонятельной выстилки, микроглия-

подобных клеток и реконструкции тканевого матрикса биосовместимыми

280

карбомерами: Автореф. дис. к-та биол. наук: 03.03.04. / Масгутова Галина Андреевна // ФГБОУ ВПО Мордовский государственный университет имени Н.П. Огарёва - 2010. - С. 19.

8. Морозов, И. Н. Эпидемиология позвоночно-спинномозговой травмы (обзор) / И. Н. Морозов, С. Г. Млявых // Медицинский альманах - 2011. -№ 4. - С. 157-159.

9. Перльмуттер, О. А. Компрессия спинного мозга и его корешков (диагностика, хирургическая тактика): Автореф. дис. докт. мед. наук: 14.00.28 / Перльмуттер Ольга Александровна // - М., 2000. - С. 46.

10. Петухова, Е. О. Стимулирование нейрогенеза в гиппокампе при болезни Альцгеймера / Е. О. Петухова, Я. О. Мухамедшина, О. Ю. Васильева, Л. Ю. Аксенова, В. В. Соловьева, Е. Е. Гаранина, А. А. Ризванов, А. Л. Зефиров, Р. Р. Исламов, М. А. Мухамедьяров // Гены и клетки - 2015. - Т. 10, № 4. -С. 54-59.

11. Сагитов, И. И. Получение популяции эктомезенхимных клеток со свойствами стволовых и прогениторных клеток из пульпы постоянных зубов / И. И. Сагитов, А. К. Шафигуллина, Г. Т. Салеева, М. О. Гомзикова, А. А. Ризванов, А. П. Киясов // Гены и клетки - 2014. - Т. 9, № 3. - С. 112117.

12. Соловьева, В. В. Влияние сверхэкспрессии тескалцина на остеогенную дифференцировку мультипотентных мезенхимальных стромальных клеток человека / В. В. Соловьева, К. Г. Колобынина, М. О. Гомзикова, Л. Г. Тазетдинова, М. Н. Журавлева, В. З. Слепак, А. А. Ризванов // Гены и клетки - 2015. - Т. 10, № 4. - С. 90-93.

13. Филатов, Е. В. Значение осложнений травматической болезни спинного мозга в двигательной реабилитации пациентов / Е. В. Филатов, П. П. Палаткин, С. Ю. Фроленко, А. А. Баранников, В. Ю. Урюпин // Медицина в Кузбассе - 2016. - Т. 15, № 2. - С. 41-47.

14. Челышев, Ю. А. Глиальные барьеры при травме спинного мозга как

мишень генно-клеточной терапии / Ю. А. Челышев, Г. Ф. Шаймарданова,

281

Я. О. Мухамедшина, М. В. Нигметзянова // Неврологический вестник. Журнал им. ВМ Бехтерева - 2013. - Т. 45, № 1. - С. 87-93.

15. Челышев, Ю. А. Молекулярная патология внеклеточного матрикса / Ю.А. Челышев // Казань - Учебное пособие - 2019. - 93с.

16. Abbaszadeh, H.-A. Human ciliary neurotrophic factor-overexpressing stable bone marrow stromal cells in the treatment of a rat model of traumatic spinal cord injury / H.-A. Abbaszadeh, T. Tiraihi, A. Noori-Zadeh, A. R. Delshad, M. Sadeghizade, T. Taheri // Cytotherapy - 2015. - V. 17, № 7. - P. 912-921.

17. Abdellatif, A. A. Gene delivery to the spinal cord: comparison between lentiviral, adenoviral, and retroviral vector delivery systems / A. A. Abdellatif, J. L. Pelt, R. L. Benton, R. M. Howard, P. Tsoulfas, P. Ping, X. Xu, S. R. Whittemore // J. Neurosci. Res. - 2006. - V. 84, № 3. - P. 553-567.

18. Abematsu, M. Mechanisms of neural stem cell fate determination: extracellular cues and intracellular programs / M. Abematsu, I. Smith, K. Nakashima // Curr. Stem Cell Res. Ther. - 2006. - V. 1, № 2. - P. 267-277.

19. Abematsu, M. Neurons derived from transplanted neural stem cells restore disrupted neuronal circuitry in a mouse model of spinal cord injury / M. Abematsu, K. Tsujimura, M. Yamano, M. Saito, K. Kohno, J. Kohyama, M. Namihira, S. Komiya, K. Nakashima // J. Clin. Invest. - 2010. - V. 120, № 9. -P. 3255-3266.

20. Adams, K. L. The diversity and disparity of the glial scar / K. L. Adams, V. Gallo // Nat. Neurosci. - 2018. - V. 21, № 1. - P. 9-15.

21. Adler, A. F. Comprehensive monosynaptic rabies virus mapping of host connectivity with neural progenitor grafts after spinal cord injury / A. F. Adler, C. Lee-Kubli, H. Kumamaru, K. Kadoya, M. H. Tuszynski // Stem cell reports -2017. - V. 8, № 6. - P. 1525-1533.

22. Alberts, B. Helper T cells and lymphocyte activation / B. Alberts, A. Johnson, J. Lewis, M. Raff, K. Roberts, P. Walter // Molecular Biology of the Cell. 4th edition. - Garland Science, 2002.

23. All, A. H. Early intervention for spinal cord injury with human induced

282

pluripotent stem cells oligodendrocyte progenitors / A. H. All, P. Gharibani, S. Gupta, F. A. Bazley, N. Pashai, B.-K. Chou, S. Shah, L. M. Resar, L. Cheng, J. D. Gearhart // PLoS One - 2015. - V. 10, № 1. - P. e0116933.

24. Allen, A. R. Surgery of experimental lesion of spinal cord equivalent to crush injury of fracture dislocation of spinal column: a preliminary report / A. R. Allen // J. Am. Med. Assoc. - 1911. - V. 57, № 11. - P. 878-880.

25. Allen, A. R. Remarks on the histopathological changes in the spinal cord due to impact. An experimental study / A. R. Allen // J. Nerv. Ment. Dis. - 1914. - V. 41, № 3. - P. 141-147.

26. Anderson, K. D. Safety of autologous human Schwann cell transplantation in subacute thoracic spinal cord injury / K. D. Anderson, J. D. Guest, W. D. Dietrich, M. Bartlett Bunge, R. Curiel, M. Dididze, B. A. Green, A. Khan, D. D. Pearse, E. Saraf-Lavi // J. Neurotrauma - 2017. - V. 34, № 21. - P. 2950-2963.

27. Anderson, M. A. Astrocyte scar formation aids central nervous system axon regeneration / M. A. Anderson, J. E. Burda, Y. Ren, Y. Ao, T. M. O'Shea, R. Kawaguchi, G. Coppola, B. S. Khakh, T. J. Deming, M. V Sofroniew // Nature -2016. - V. 532, № 7598. - P. 195.

28. Andre, F. DNA electrotransfer: its principles and an updated review of its therapeutic applications / F. Andre, L. M. Mir // Gene Ther. - 2004. - V. 11, № 1. - P. S33-S42.

29. Anokye-Danso, F. Highly efficient miRNA-mediated reprogramming of mouse and human somatic cells to pluripotency / F. Anokye-Danso, C. M. Trivedi, D. Juhr, M. Gupta, Z. Cui, Y. Tian, Y. Zhang, W. Yang, P. J. Gruber, J. A. Epstein // Cell Stem Cell - 2011. - V. 8, № 4. - P. 376-388.

30. Anton, E. S. Nerve growth factor and its low-affinity receptor promote Schwann cell migration / E. S. Anton, G. Weskamp, L. F. Reichardt, W. D. Matthew // Proc. Natl. Acad. Sci. - 1994. - V. 91, № 7. - P. 2795-2799.

31. Antonellis, A. A rare myelin protein zero (MPZ) variant alters enhancer activity

in vitro and in vivo / A. Antonellis, M. Y. Dennis, G. Burzynski, J. Huynh, V.

Maduro, C. J. Hodonsky, M. Khajavi, K. Szigeti, S. Mukkamala, S. L. Bessling

283

// PLoS One - 2010. - V. 5, № 12. - P. e14346.

32. Antonic, A. Stem cell transplantation in traumatic spinal cord injury: a systematic review and meta-analysis of animal studies / A. Antonic, E. S. Sena, J. S. Lees, T. E. Wills, P. Skeers, P. E. Batchelor, M. R. Macleod, D. W. Howells // PLoS Biol - 2013. - V. 11, № 12. - P. e1001738.

33. Apfel, S. C. Nerve growth factor for the treatment of diabetic neuropathy: what went wrong, what went right, and what does the future hold? / S. C. Apfel // Int Rev Neurobiol. - 2002. - V. 50. - P. 393-413.

34. Arakawa, Y. Survival effect of ciliary neurotrophic factor (CNTF) on chick embryonic motoneurons in culture: comparison with other neurotrophic factors and cytokines / Y. Arakawa, M. Sendtner, H. Thoenen // J. Neurosci. - 1990. -V. 10, № 11. - P. 3507-3515.

35. Arakelyan, A. Serum levels of the MCP-1 chemokine in patients with ischemic stroke and myocardial infarction / A. Arakelyan, J. Petrkova, Z. Hermanova, A. Boyajyan, J. Lukl, M. Petrek // Mediators Inflamm. - 2005. - V. 2005, № 3. - P. 175-179.

36. Arango Duque, G. Macrophage cytokines: involvement in immunity and infectious diseases / G. Arango Duque, A. Descoteaux // Front. Immunol. - 2014.

- V. 5. - P. 491.

37. Arpinati, M. Granulocyte-colony stimulating factor mobilizes T helper 2-inducing dendritic cells / M. Arpinati, C. L. Green, S. Heimfeld, J. E. Heuser, C. Anasetti // Blood, J. Am. Soc. Hematol. - 2000. - V. 95, № 8. - P. 2484-2490.

38. Assinck, P. Cell transplantation therapy for spinal cord injury / P. Assinck, G. J. Duncan, B. J. Hilton, J. R. Plemel, W. Tetzlaff // Nat. Neurosci. - 2017. - V. 20, № 5. - P. 637-647.

39. Au, P. Differential in vivo potential of endothelial progenitor cells from human umbilical cord blood and adult peripheral blood to form functional long-lasting vessels / P. Au, L. M. Daheron, D. G. Duda, K. S. Cohen, J. A. Tyrrell, R. M. Lanning, D. Fukumura, D. T. Scadden, R. K. Jain // Blood, J. Am. Soc. Hematol.

- 2008. - V. 111, № 3. - P. 1302-1305.

40. Awad, B. I. Potential role of growth factors in the management of spinal cord injury / B. I. Awad, M. A. Carmody, M. P. Steinmetz // World Neurosurg. - 2015. - V. 83, № 1. - P. 120-131.

41. Badner, A. Spinal cord injuries: how could cell therapy help? / A. Badner, A. M. Siddiqui, M. G. Fehlings // Expert Opin. Biol. Ther. - 2017. - V. 17, № 5. -P. 529-541.

42. Bakhshandeh, B. Effective combination of aligned nanocomposite nanofibers and human unrestricted somatic stem cells for bone tissue engineering / B. Bakhshandeh, M. Soleimani, N. Ghaemi, I. Shabani // Acta Pharmacol. Sin. -2011. - V. 32, № 5. - P. 626-636.

43. Baklaushev, V. P. Development of a motor and somatosensory evoked potentials-guided spinal cord Injury model in non-human primates / V. P. Baklaushev, O. V. Durov, S. V. Kim, E. V. Gulaev, I. L. Gubskiy, M. A. Konoplyannikov, F. G. Zabozlaev, C. Zhang, V. Z. Agrba, S. V. Orlov, B. A. Lapin, A. V. Troitskiy, A. V. Averyanov, J. E. Ahlfors // J Neurosci Methods. -2019. - V. 311. - P. 200-214.

44. Baklaushev, V. P. Disease modifying treatment of spinal cord injury with directly reprogrammed neural precursor cells in non-human primates / V. P. Baklaushev, O. V. Durov, V. A. Kalsin, E. V. Gulaev, S. V. Kim, I. L. Gubskiy, V. A. Revkova, E. M. Samoilova, P. A. Melnikov, D. D. Karal-Ogly, S. V. Orlov, A. V. Troitskiy, V. P. Chekhonin, A. V. Averyanov, J. E. Ahlfors // World J Stem Cells. - 2021. - V. 26, № 13(5). - P. 452-469.

45. Balentine, J. D. Pathology of experimental spinal cord trauma. I. The necrotic lesion as a function of vascular injury. / J. D. Balentine // Lab. Invest. - 1978. -V. 39, № 3. - P. 236-253.

46. Banik, N. L. Degradation of cytoskeletal proteins in experimental spinal cord injury / N. L. Banik, E. L. Hogan, J. M. Powers, L. J. Whetstine // Neurochem. Res. - 1982. - V. 7, № 12. - P. 1465-1475.

47. Banovac, K. Prevention of heterotopic ossification after spinal cord injury with

COX-2 selective inhibitor (rofecoxib) / K. Banovac, J. M. Williams, L. D.

285

Patrick, A. Levi // Spinal Cord - 2004. - V. 42, № 12. - P. 707-710.

48. Bardehle, S. Live imaging of astrocyte responses to acute injury reveals selective juxtavascular proliferation / S. Bardehle, M. Krüger, F. Buggenthin, J. Schwausch, J. Ninkovic, H. Clevers, H. J. Snippert, F. J. Theis, M. Meyer-Luehmann, I. Bechmann // Nat. Neurosci. - 2013. - V. 16, № 5. - P. 580-586.

49. Barkholt, L. Risk of tumorigenicity in mesenchymal stromal cell-based therapies—bridging scientific observations and regulatory viewpoints / L. Barkholt, E. Flory, V. Jekerle, S. Lucas-Samuel, P. Ahnert, L. Bisset, D. Büscher, W. Fibbe, A. Foussat, M. Kwa // Cytotherapy - 2013. - V. 15, № 7. - P. 753759.

50. Barna, B. P. Regulation of monocyte chemoattractant protein-1 expression in adult human non-neoplastic astrocytes is sensitive to tumor necrosis factor (TNF) or antibody to the 55-kDa TNF receptor / B. P. Barna, J. Pettay, G. H. Barnett, P. Zhou, K. Iwasaki, M. L. Estes // J. Neuroimmunol. - 1994. - V. 50, № 1. - P. 101-107.

51. Barnabe-Heider, F. Origin of new glial cells in intact and injured adult spinal cord / F. Barnabe-Heider, C. Göritz, H. Sabelström, H. Takebayashi, F. W. Pfrieger, K. Meletis, J. Frisen // Cell Stem Cell - 2010. - V. 7, № 4. - P. 470482.

52. Barres, B. A. A crucial role for neurotrophin-3 in oligodendrocyte development / B. A. Barres, M. C. Raff, F. Gaese, I. Bartke, G. Dechant, Y.-A. Barde // Nature - 1994. - V. 367, № 6461. - P. 371-375.

53. Bartolini, A. G-CSF administration to adult mice stimulates the proliferation of microglia but does not modify the outcome of ischemic injury / A. Bartolini, M.-C. Vigliani, L. Magrassi, A. Vercelli, F. Rossi // Neurobiol. Dis. - 2011. - V. 41, № 3. - P. 640-649.

54. Barton, W. A. Structure and axon outgrowth inhibitor binding of the Nogo-66 receptor and related proteins / W. A. Barton, B. P. Liu, D. Tzvetkova, P. D. Jeffrey, A. E. Fournier, D. Sah, R. Cate, S. M. Strittmatter, D. B. Nikolov // EMBO J. - 2003. - V. 22, № 13. - P. 3291-3302.

55. Bartus, K. Neuregulin-1 controls an endogenous repair mechanism after spinal cord injury / K. Bartus, J. Galino, N. D. James, L. R. Hernandez-Miranda, J. M. Dawes, F. R. Fricker, A. N. Garratt, S. B. McMahon, M. S. Ramer, C. Birchmeier // Brain - 2016. - V. 139, № 5. - P. 1394-1416.

56. Basso, D. M. A sensitive and reliable locomotor rating scale for open field testing in rats / D. M. Basso, M. S. Beattie, J. C. Bresnahan // J. Neurotrauma -1995. - V. 12, № 1. - P. 1-21.

57. Beattie, M. S. Review of current evidence for apoptosis after spinal cord injury / M. S. Beattie, A. A. Farooqui, J. C. Bresnahan // J. Neurotrauma - 2000. - V. 17, № 10. - P. 915-925.

58. Beck, K. D. Quantitative analysis of cellular inflammation after traumatic spinal cord injury: evidence for a multiphasic inflammatory response in the acute to chronic environment / K. D. Beck, H. X. Nguyen, M. D. Galvan, D. L. Salazar, T. M. Woodruff, A. J. Anderson // Brain - 2010. - V. 133, № 2. - P. 433-447.

59. Becker, A. Homing and migration of mesenchymal stromal cells: how to improve the efficacy of cell therapy? / A. De Becker, I. Van Riet // World J. Stem Cells - 2016. - V. 8, № 3. - P. 73.

60. Beem, E. Evaluation of stability and sensitivity of cell fluorescent labels when used for cell migration / E. Beem, M. S. Segal // J. Fluoresc. - 2013. - V. 23, № 5. - P. 975-987.

61. Berg, M. E. L. Survival after spinal cord injury: a systematic review / M. E. L. Van den Berg, J. M. Castellote, J. de Pedro-Cuesta, I. Mahillo-Fernandez // J. Neurotrauma - 2010. - V. 27, № 8. - P. 1517-1528.

62. Bertani, N. Neurogenic potential of human mesenchymal stem cells revisited: analysis by immunostaining, time-lapse video and microarray / N. Bertani, P. Malatesta, G. Volpi, P. Sonego, R. Perris // J. Cell Sci. - 2005. - V. 118, № 17. - P. 3925-3936.

63. Betsholtz, C. Role of pericytes in vascular morphogenesis / C. Betsholtz, P. Lindblom, H. Gerhardt // Mech. Angiogenes. - 2005. - P. 115-125.

64. Biazar, E. Use of umbilical cord and cord blood-derived stem cells for tissue

287

repair and regeneration / E. Biazar // Expert Opin. Biol. Ther. - 2014. - V. 14, № 3. - P. 301-310.

65. Biju, K. C. Macrophage-mediated GDNF delivery protects against dopaminergic neurodegeneration: a therapeutic strategy for Parkinson's disease / K. C. Biju, Q. Zhou, G. Li, S. Z. Imam, J. L. Roberts, W. W. Morgan, R. A. Clark, S. Li // Mol. Ther. - 2010. - V. 18, № 8. - P. 1536-1544.

66. Blechingberg, J. Identification and characterization of GFAPkappa, a novel glial fibrillary acidic protein isoform / J. Blechingberg, I.E. Holm, K.B. Nielsen, T.H. Jensen, A.L. Jorgensen, A.L. Nielsen // Glia - 2007. - V. 55. - P. 497-507.

67. Blesch, A. Transient growth factor delivery sustains regenerated axons after spinal cord injury / A. Blesch, M. H. Tuszynski // J. Neurosci. - 2007. - V. 27, № 39. - P. 10535-10545.

68. Blight, A. R. Cellular morphology of chronic spinal cord injury in the cat: analysis of myelinated axons by line-sampling / A. R. Blight // Neuroscience -1983. - V. 10, № 2. - P. 521-543.

69. Boregowda, S. V A clinical indications prediction scale based on TWIST1 for human mesenchymal stem cells / S. V Boregowda, V. Krishnappa, C. L. Haga, L. A. Ortiz, D. G. Phinney // EBioMedicine - 2016. - V. 4. - P. 62-73.

70. Bose, S. Role of chemokine CCL2 and its receptor CCR2 in neurodegenerative diseases / S. Bose, J. Cho // Arch. Pharm. Res. - 2013. - V. 36, № 9. - P. 10391050.

71. Boxall, S. A. Markers for characterization of bone marrow multipotential stromal cells / S. A. Boxall, E. Jones // Stem Cells Int. - 2012. - V. 2012.

72. Boyd, J. G. Neurotrophic factors and their receptors in axonal regeneration and functional recovery after peripheral nerve injury / J. G. Boyd, T. Gordon // Mol. Neurobiol. - 2003. - V. 27, № 3. - P. 277-323.

73. Bradbury, E. J. Chondroitinase ABC promotes functional recovery after spinal cord injury / E. J. Bradbury, L. D. F. Moon, R. J. Popat, V. R. King, G. S. Bennett, P. N. Patel, J. W. Fawcett, S. B. McMahon // Nature - 2002. - V. 416, № 6881. - P. 636-640.

74. Bregman, B. S. Regeneration in the spinal cord / B. S. Bregman // Curr. Opin. Neurobiol. - 1998. - V. 8, № 6. - P. 800-807.

75. Brouwer, B. Changes in corticospinal facilitation of lower limb spinal motor neurons after spinal cord lesions. / B. Brouwer, J. Bugaresti, P. Ashby // J. Neurol. Neurosurg. Psychiatry - 1992. - V. 55, № 1. - P. 20-24.

76. Brown, J. M. A sulfated carbohydrate epitope inhibits axon regeneration after injury / J. M. Brown, J. Xia, B. Zhuang, K.-S. Cho, C. J. Rogers, C. I. Gama, M. Rawat, S. E. Tully, N. Uetani, D. E. Mason // Proc. Natl. Acad. Sci. - 2012. - V. 109, № 13. - P. 4768-4773.

77. Broxmeyer, H. E. Human umbilical cord blood as a potential source of transplantable hematopoietic stem/progenitor cells / H. E. Broxmeyer, G. W. Douglas, G. Hangoc, S. Cooper, J. Bard, D. English, M. Arny, L. Thomas, E. A. Boyse // Proc. Natl. Acad. Sci. - 1989. - V. 86, № 10. - P. 3828-3832.

78. Bundesen, L. Q. Ephrin-B2 and EphB2 regulation of astrocyte-meningeal fibroblast interactions in response to spinal cord lesions in adult rats / L. Q. Bundesen, T. A. Scheel, B. S. Bregman, L. F. Kromer // J. Neurosci. - 2003. -V. 23, № 21. - P. 7789-7800.

79. Bunge, M. B. Efficacy of Schwann cell transplantation for spinal cord repair is improved with combinatorial strategies / M. B. Bunge // J. Physiol. - 2016. - V. 594, № 13. - P. 3533-3538.

80. Busch, S. A. Adult NG2+ cells are permissive to neurite outgrowth and stabilize sensory axons during macrophage-induced axonal dieback after spinal cord injury / S. A. Busch, K. P. Horn, F. X. Cuascut, A. L. Hawthorne, L. Bai, R. H. Miller, J. Silver // J. Neurosci. - 2010. - V. 30, № 1. - P. 255-265.

81. Bush, T. G. Leukocyte infiltration, neuronal degeneration, and neurite outgrowth after ablation of scar-forming, reactive astrocytes in adult transgenic mice / T. G. Bush, N. Puvanachandra, C. H. Horner, A. Polito, T. Ostenfeld, C. N. Svendsen, L. Mucke, M. H. Johnson, M. V Sofroniew // Neuron - 1999. - V. 23, № 2. - P. 297-308.

82. Buzanska, L. Human Neural Stem Cells: From Generation to Differentiation

289

and Application / L. Buzanska - Springer - 2018. - V.66.

83. Cabezas, R. Growth factors and neuroglobin in astrocyte protection against neurodegeneration and oxidative stress / R. Cabezas, E. Baez-Jurado, O. Hidalgo-Lanussa, V. Echeverria, G. M. Ashrad, A. Sahebkar, G. E. Barreto // Mol. Neurobiol. - 2019. - V. 56, № 4. - P. 2339-2351.

84. Cafferty, W. B. J. MAG and OMgp synergize with Nogo-A to restrict axonal growth and neurological recovery after spinal cord trauma / W. B. J. Cafferty, P. Duffy, E. Huebner, S. M. Strittmatter // J. Neurosci. - 2010. - V. 30, № 20. - P. 6825-6837.

85. Campbell, I. L. Trans-signaling is a dominant mechanism for the pathogenic actions of interleukin-6 in the brain / I. L. Campbell, M. Erta, S. L. Lim, R. Frausto, U. May, S. Rose-John, J. Scheller, J. Hidalgo // J. Neurosci. - 2014. -V. 34, № 7. - P. 2503-2513.

86. Cao, Q. Functional recovery in traumatic spinal cord injury after transplantation of multineurotrophin-expressing glial-restricted precursor cells / Q. Cao, X.-M. Xu, W. H. DeVries, G. U. Enzmann, P. Ping, P. Tsoulfas, P. M. Wood, M. B. Bunge, S. R. Whittemore // J. Neurosci. - 2005. - V. 25, № 30. - P. 6947-6957.

87. Capper, D. Characterization of R132H mutation-specific IDH1 antibody binding in brain tumors / D. Capper, S. Weißert, J. Balss, A. Habel, J. Meyer, D. Jäger, U. Ackermann, C. Tessmer, A. Korshunov, H. Zentgraf // Brain Pathol. -2010. - V. 20, № 1. - P. 245-254.

88. Carbonell, A. L. Ultrastructural study on meningeal regeneration and meningo-glial relationships after cerebral stab wound in the adult rat / A. L. Carbonell, J. Boya // Brain Res. - 1988. - V. 439, № 1-2. - P. 337-344.

89. Carbonetto, S. Nerve fiber growth in culture on tissue substrata from central and peripheral nervous systems / S. Carbonetto, D. Evans, P. Cochard // J. Neurosci. - 1987. - V. 7, № 2. - P. 610-620.

90. Caron, I. A new three dimensional biomimetic hydrogel to deliver factors secreted by human mesenchymal stem cells in spinal cord injury / I. Caron, F.

Rossi, S. Papa, R. Aloe, M. Sculco, E. Mauri, A. Sacchetti, E. Erba, N. Panini,

290

V. Parazzi // Biomaterials - 2016. - V. 75. - P. 135-147.

91. Carrion, B. Bone marrow-derived mesenchymal stem cells enhance angiogenesis via their a6ß1 integrin receptor / B. Carrion, Y. P. Kong, D. Kaigler, A. J. Putnam // Exp. Cell Res. - 2013. - V. 319, № 19. - P. 2964-2976.

92. Carter, J. G. Effect of spinal cord transection on neuromuscular function in the rat / J. G. Carter, M. D. Sokoll, S. D. Gergis // J. Am. Soc. Anesthesiol. - 1981.

- V. 55, № 5. - P. 542-546.

93. Carter, L. M. The yellow fluorescent protein (YFP-H) mouse reveals neuroprotection as a novel mechanism underlying chondroitinase ABC-mediated repair after spinal cord injury / L. M. Carter, M. L. Starkey, S. F. Akrimi, M. Davies, S. B. McMahon, E. J. Bradbury // J. Neurosci. - 2008. - V. 28, № 52. -P. 14107-14120.

94. Casella, G. T. B. Endothelial cell loss is not a major cause of neuronal and glial cell death following contusion injury of the spinal cord / G. T. B. Casella, M. B. Bunge, P. M. Wood // Exp. Neurol. - 2006. - V. 202, № 1. - P. 8-20.

95. Chaubey, S. Early gestational mesenchymal stem cell secretome attenuates experimental bronchopulmonary dysplasia in part via exosome-associated factor TSG-6 / S. Chaubey, S. Thueson, D. Ponnalagu, M. A. Alam, C. P. Gheorghe, Z. Aghai, H. Singh, V. Bhandari // Stem Cell Res. Ther. - 2018. - V. 9, № 1. - P. 1-26.

96. Chavez-Munoz, C. Transdifferentiation of adipose-derived stem cells into keratinocyte-like cells: engineering a stratified epidermis / C. Chavez-Munoz, K. T. Nguyen, W. Xu, S.-J. Hong, T. A. Mustoe, R. D. Galiano // PLoS One - 2013.

- V. 8, № 12. - P. e80587.

97. Chen, C.-T. Infusion of human umbilical cord blood cells ameliorates hind limb dysfunction in experimental spinal cord injury through anti-inflammatory, vasculogenic and neurotrophic mechanisms / C.-T. Chen, N.-H. Foo, W.-S. Liu, S.-H. Chen // Pediatr. Neonatol. - 2008. - V. 49, № 3. - P. 77-83.

98. Chen, C. Non-toxic HSC transplantation-based macrophage/microglia-

mediated GDNF delivery for Parkinson's disease / C. Chen, M. J. Guderyon, Y.

291

Li, G. Ge, A. Bhattacharjee, C. Ballard, Z. He, E. Masliah, R. A. Clark, J. C. O'Connor // Mol. Ther. Clin. Dev. - 2020. - V. 17. - P. 83-98.

99. Chen, K. Sequential therapy of anti-Nogo-A antibody treatment and treadmill training leads to cumulative improvements after spinal cord injury in rats / K. Chen, B. C. Marsh, M. Cowan, Y. D. Al'Joboori, S. Gigout, C. C. Smith, N. Messenger, N. Gamper, M. E. Schwab, R. M. Ichiyama // Exp. Neurol. - 2017. - V. 292. - P. 135-144.

100. Chen, N. Human umbilical cord blood progenitors: the potential of these hematopoietic cells to become neural / N. Chen, J. E. Hudson, P. Walczak, I. Misiuta, S. Garbuzova-Davis, L. Jiang, J. Sanchez-Ramos, P. R. Sanberg, T. Zigova, A. E. Willing // Stem Cells - 2005. - V. 23, № 10. - P. 1560-1570.

101. Chen, Y.-J. Isolation and differentiation of adipose-derived stem cells from porcine subcutaneous adipose tissues / Y.-J. Chen, H.-Y. Liu, Y.-T. Chang, Y.-H. Cheng, H. J. Mersmann, W.-H. Kuo, S.-T. Ding // J. Vis. Exp. JoVE - 2016. № 109. - P. e53886.

102. Chen, Z. Microglia and neuroprotection / Z. Chen, B. D. Trapp // J. Neurochem. - 2016. - V. 136. - P. 10-17.

103. Cheng, C.-H. Local delivery of high-dose chondroitinase ABC in the sub-acute stage promotes axonal outgrowth and functional recovery after complete spinal cord transection / C.-H. Cheng, C.-T. Lin, M.-J. Lee, M.-J. Tsai, W.-H. Huang, M.-C. Huang, Y.-L. Lin, C.-J. Chen, W.-C. Huang, H. Cheng // PLoS One - 2015. - V. 10, № 9. - P. e0138705.

104. Cheng, H. Neuroprotection of glial cell line-derived neurotrophic factor in damaged spinal cords following contusive injury / H. Cheng, J. Wu, S. Tzeng // J. Neurosci. Res. - 2002. - V. 69, № 3. - P. 397-405.

105. Cheng, I. Local versus distal transplantation of human neural stem cells following chronic spinal cord injury / I. Cheng, M. Githens, R. L. Smith, T. R. Johnston, D. Y. Park, M. P. Stauff, N. Salari, K. R. Tileston, A. I. Kharazi // Spine J. - 2016. - V. 16, № 6. - P. 764-769.

106. Cheng, I. Does timing of transplantation of neural stem cells following spinal

292

cord injury affect outcomes in an animal model? / I. Cheng, D. Y. Park, R. E. Mayle, M. Githens, R. L. Smith, H. Y. Park, S. S. Hu, T. F. Alamin, K. B. Wood, A. I. Kharazi // J. Spine Surg. - 2017. - V. 3, № 4. - P. 567.

107. Cheriyan, T. Spinal cord injury models: a review / T. Cheriyan, D. J. Ryan, J. H. Weinreb, J. Cheriyan, J. C. Paul, V. Lafage, T. Kirsch, T. J. Errico // Spinal Cord - 2014. - V. 52, № 8. - P. 588-595.

108. Cho, H.-J. Induction of pluripotent stem cells from adult somatic cells by protein-based reprogramming without genetic manipulation / H.-J. Cho, C.-S. Lee, Y.-W. Kwon, J. S. Paek, S.-H. Lee, J. Hur, E. J. Lee, T.-Y. Roh, I.-S. Chu, S.-H. Leem // Blood, J. Am. Soc. Hematol. - 2010. - V. 116, № 3. - P. 386-395.

109. Cho, M. Safety and efficacy evaluations of an adeno-associated virus variant for preparing IL 10-secreting human neural stem cell-based therapeutics / M. Cho, K. Jung, S.-H. Kim, I.-S. Kim, M. Kim, M. Shin, H. Lee, K. I. Park, J.-H. Jang // Gene Ther. - 2019. - V. 26, № 5. - P. 135-150.

110. Cho, S.-R. Neurally induced umbilical cord blood cells modestly repair injured spinal cords / S.-R. Cho, M. S. Yang, S. H. Yim, J. H. Park, J. E. Lee, Y. Eom, I. K. Jang, H. E. Kim, J. S. Park, H. O. Kim // Neuroreport - 2008. - V. 19, № 13. - P. 1259-1263.

111. Choi, H. Anti-inflammatory protein TSG-6 secreted by activated MSCs attenuates zymosan-induced mouse peritonitis by decreasing TLR2/NF-kB signaling in resident macrophages / H. Choi, R. H. Lee, N. Bazhanov, J. Y. Oh, D. J. Prockop // Blood - 2011. - V. 118, № 2. - P. 330-338.

112. Choi, S. S. Human astrocytes: secretome profiles of cytokines and chemokines / S. S. Choi, H. J. Lee, I. Lim, J. Satoh, S. U. Kim // PLoS One -2014. - V. 9, № 4. - P. e92325.

113. Chong, L. D. Fibroblast Growth Factor Receptor-Mediated Rescue of x-Ephrin B1-Induced Cell Dissociation in XenopusEmbryos / L. D. Chong, E. K. Park, E. Latimer, R. Friesel, I. O. Daar // Mol. Cell. Biol. - 2000. - V. 20, № 2. - P. 724-734.

114. Chua, S. J. The effect of umbilical cord blood cells on outcomes after

293

experimental traumatic spinal cord injury / S. J. Chua, R. Bielecki, N. Yamanaka, M. G. Fehlings, I. M. Rogers, R. F. Casper // Spine (Phila. Pa. 1976). - 2010. -V. 35, № 16. - P. 1520-1526.

115. Cizkova, D. Alterations of protein composition along the rostro-caudal axis after spinal cord injury: proteomic, in vitro and in vivo analyses / D. Cizkova, L. Marrec-Croq, J. Franck, L. Slovinska, I. Grulova, S. Devaux, C. Lefebvre, I. Fournier, M. Salzet // Front. Cell. Neurosci. - 2014. - V. 8. - P. 105.

116. Clarke, D. L. Generalized potential of adult neural stem cells / D. L. Clarke, C. B. Johansson, J. Wilbertz, B. Veress, E. Nilsson, H. Karlström, U. Lendahl, J. Frisen // Science (80-. ). - 2000. - V. 288, № 5471. - P. 1660-1663.

117. Clarke, W. T. Syncoilin modulates peripherin filament networks and is necessary for large-calibre motor neurons / W. T. Clarke, B. Edwards, K. J. A. McCullagh, M. W. Kemp, C. Moorwood, D. L. Sherman, M. Burgess, K. E. Davies // J. Cell Sci. - 2010. - V. 123, № 15. - P. 2543-2552.

118. Cloud, B. A. Hemisection spinal cord injury in rat: the value of intraoperative somatosensory evoked potential monitoring / B. A. Cloud, B. G. Ball, B. K. Chen, A. M. Knight, J. S. Hakim, A. M. Ortiz, A. J. Windebank // J. Neurosci. Methods - 2012. - V. 211, № 2. - P. 179-184.

119. Cofano, F. Mesenchymal stem cells for spinal cord injury: current options, limitations, and future of cell therapy / F. Cofano, M. Boido, M. Monticelli, F. Zenga, A. Ducati, A. Vercelli, D. Garbossa // Int. J. Mol. Sci. - 2019. - V. 20, № 11. - P. 2698.

120. Conductier, G. The role of monocyte chemoattractant protein MCP1/CCL2 in neuroinflammatory diseases / G. Conductier, N. Blondeau, A. Guyon, J.-L. Nahon, C. Rovere // J. Neuroimmunol. - 2010. - V. 224, № 1-2. - P. 93-100.

121. Connolly, D. T. Tumor vascular permeability factor stimulates endothelial cell growth and angiogenesis. / D. T. Connolly, D. M. Heuvelman, R. Nelson, J. V Olander, B. L. Eppley, J. J. Delfino, N. R. Siegel, R. M. Leimgruber, J. Feder // J. Clin. Invest. - 1989. - V. 84, № 5. - P. 1470-1478.

122. Constantinescu, C. S. Experimental autoimmune encephalomyelitis (EAE)

294

as a model for multiple sclerosis (MS) / C. S. Constantinescu, N. Farooqi, K. O'Brien, B. Gran // Br. J. Pharmacol. - 2011. - V. 164, № 4. - P. 1079-1106.

123. Cua, D. J. Innate IL-17-producing cells: the sentinels of the immune system / D. J. Cua, C. M. Tato // Nat. Rev. Immunol. - 2010. - V. 10, № 7. - P. 479489.

124. Cucchiarini, M. Selective gene expression in brain microglia mediated via adeno-associated virus type 2 and type 5 vectors / M. Cucchiarini, X. L. Ren, G. Perides, E. F. Terwilliger // Gene Ther. - 2003. - V. 10, № 8. - P. 657-667.

125. Cunningham, C. L. Microglia regulate the number of neural precursor cells in the developing cerebral cortex / C. L. Cunningham, V. Martinez-Cerdeno, S. C. Noctor // J. Neurosci. - 2013. - V. 33, № 10. - P. 4216-4233.

126. Dalamagkas, K. Translational regenerative therapies for chronic spinal cord injury / K. Dalamagkas, M. Tsintou, A. Seifalian, A. M. Seifalian // Int. J. Mol. Sci. - 2018. - V. 19, № 6. - P. 1776.

127. Dalous, J. Transplantation of umbilical cord-derived mesenchymal stem cells as a novel strategy to protect the central nervous system: technical aspects, preclinical studies, and clinical perspectives / J. Dalous, J. Larghero, O. Baud // Pediatr. Res. - 2012. - V. 71, № 2. - P. 482-490.

128. Danby, R. Improving engraftment and immune reconstitution in umbilical cord blood transplantation / R. Danby, V. Rocha // Front. Immunol. - 2014. - V. 5. - P. 68.

129. Dasari, V. R. Umbilical cord blood stem cell mediated downregulation of fas improves functional recovery of rats after spinal cord injury / V. R. Dasari, D. G. Spomar, L. Li, M. Gujrati, J. S. Rao, D. H. Dinh // Neurochem. Res. - 2008. - V. 33, № 1. - P. 134-149.

130. Dasari, V. R. Mesenchymal stem cells in the treatment of spinal cord injuries: A review / V. R. Dasari, K. K. Veeravalli, D. H. Dinh // World J. Stem Cells -2014. - V. 6, № 2. - P. 120.

131. Davies, S. J. A. Robust regeneration of adult sensory axons in degenerating

white matter of the adult rat spinal cord / S. J. A. Davies, D. R. Goucher, C.

295

Doller, J. Silver // J. Neurosci. - 1999. - V. 19, № 14. - P. 5810-5822.

132. De, S. The ontogeny of Krox-20 expression in brainstem and cerebellar neurons / S. De, C. F. Shuler, J. E. Turman Jr // J. Chem. Neuroanat. - 2003. -V. 25, № 3. - P. 213-226.

133. Deng, L.-X. A novel growth-promoting pathway formed by GDNF-overexpressing Schwann cells promotes propriospinal axonal regeneration, synapse formation, and partial recovery of function after spinal cord injury / L.-X. Deng, P. Deng, Y. Ruan, Z. C. Xu, N.-K. Liu, X. Wen, G. M. Smith, X.-M. Xu // J. Neurosci. - 2013. - V. 33, № 13. - P. 5655-5667.

134. Deng, L.-X. GDNF modifies reactive astrogliosis allowing robust axonal regeneration through Schwann cell-seeded guidance channels after spinal cord injury / L.-X. Deng, J. Hu, N. Liu, X. Wang, G. M. Smith, X. Wen, X.-M. Xu // Exp. Neurol. - 2011. - V. 229, № 2. - P. 238-250.

135. Deng, Y. B. Implantation of BM mesenchymal stem cells into injured spinal cord elicits de novo neurogenesis and functional recovery: evidence from a study in rhesus monkeys / Y. B. Deng, X. G. Liu, Z. G. Liu, X. L. Liu, Y. Liu, G. Q. Zhou // Cytotherapy - 2006. - V. 8, № 3. - P. 210-214.

136. Deo, S. S. Role played by Th2 type cytokines in IgE mediated allergy and asthma / S. S. Deo, K. J. Mistry, A. M. Kakade, P. V Niphadkar // Lung India Off. Organ Indian Chest Soc. - 2010. - V. 27, № 2. - P. 66.

137. Deumens, R. Motor outcome and allodynia are largely unaffected by novel olfactory ensheathing cell grafts to repair low-thoracic lesion gaps in the adult rat spinal cord / R. Deumens, S. F. J. Van Gorp, A. Bozkurt, C. Beckmann, T. Führmann, K. Montzka, R. Tolba, E. Kobayashi, I. Heschel, J. Weis // Behav. Brain Res. - 2013. - V. 237. - P. 185-189.

138. Deumens, R. Regeneration of descending axon tracts after spinal cord injury / R. Deumens, G. C. Koopmans, E. A. J. Joosten // Prog. Neurobiol. - 2005. - V. 77, № 1-2. - P. 57-89.

139. Dezawa, M. Role of Schwann cells in retinal ganglion cell axon regeneration

/ M. Dezawa, E. Adachi-Usami // Prog. Retin. Eye Res. - 2000. - V. 19, № 2. -

296

P. 171-204.

140. Dhanasekaran, M. A comprehensive study on optimization of proliferation and differentiation potency of bone marrow derived mesenchymal stem cells under prolonged culture condition / M. Dhanasekaran, S. Indumathi, R. P. Lissa, R. Harikrishnan, J. S. Rajkumar, D. Sudarsanam // Cytotechnology - 2013. - V. 65, № 2. - P. 187-197.

141. Dickensheets, H. L. IFN-gamma and IL-10 inhibit induction of IL-1 receptor type I and type II gene expression by IL-4 and IL-13 in human monocytes. / H. L. Dickensheets, R. P. Donnelly // J. Immunol. - 1997. - V. 159, № 12. - P. 6226-6233.

142. Ding, P. Transplantation of bone marrow stromal cells enhances infiltration and survival of CNP and Schwann cells to promote axonal sprouting following complete transection of spinal cord in adult rats / P. Ding, Z. Yang, W. Wang, J. Wang, L. Xue // Am. J. Transl. Res. - 2014. - V. 6, № 3. - P. 224.

143. Dmitriev, P. Dux4 controls migration of mesenchymal stem cells through the Cxcr4-Sdf1 axis / P. Dmitriev, E. Kiseleva, O. Kharchenko, E. Ivashkin, A. Pichugin, P. Dessen, T. Robert, F. Coppee, A. Belayew, G. Carnac // Oncotarget

- 2016. - V. 7, № 40. - P. 65090.

144. Dobrogowska, D. H. Increased blood-brain barrier permeability and endothelial abnormalities induced by vascular endothelial growth factor / D. H. Dobrogowska, A. S. Lossinsky, M. Tarnawski, A. W. Vorbrodt // J. Neurocytol.

- 1998. - V. 27, № 3. - P. 163-173.

145. Dominici, M. Minimal criteria for defining multipotent mesenchymal stromal cells. The International Society for Cellular Therapy position statement / M. Dominici, K. Le Blanc, I. Mueller, I. Slaper-Cortenbach, F. C. Marini, D. S. Krause, R. J. Deans, A. Keating, D. J. Prockop, E. M. Horwitz // Cytotherapy -2006. - V. 8, № 4. - P. 315-317.

146. Donnelly, D. J. Inflammation and its role in neuroprotection, axonal regeneration and functional recovery after spinal cord injury / D. J. Donnelly, P. G. Popovich // Exp. Neurol. - 2008. - V. 209, № 2. - P. 378-388.

147. Dore-Duffy, P. Pericyte migration from the vascular wall in response to traumatic brain injury / P. Dore-Duffy, C. Owen, R. Balabanov, S. Murphy, T. Beaumont, J. A. Rafols // Microvasc. Res. - 2000. - V. 60, № 1. - P. 55-69.

148. Dou, C.-L. Inhibition of neurite growth by the NG2 chondroitin sulfate proteoglycan / C.-L. Dou, J. M. Levine // J. Neurosci. - 1994. - V. 14, № 12. -P. 7616-7628.

149. Du, X. Advanced physical techniques for gene delivery based on membrane perforation / X. Du, J. Wang, Q. Zhou, L. Zhang, S. Wang, Z. Zhang, C. Yao // Drug Deliv. - 2018. - V. 25, № 1. - P. 1516-1525.

150. Dumpich, M. VEGF signaling regulates cofilin and the Arp2/3-complex within the axonal growth cone / M. Dumpich, H. Georg Mannherz, C. Theiss // Curr. Neurovasc. Res. - 2015. - V. 12, № 3. - P. 293-307.

151. Eckert, M. J. Trauma: spinal cord injury / M. J. Eckert, M. J. Martin // Surg. Clin. - 2017. - V. 97, № 5. - P. 1031-1045.

152. Eggenhofer, E. The life and fate of mesenchymal stem cells / E. Eggenhofer, F. Luk, M. H. Dahlke, M. J. Hoogduijn // Front. Immunol. - 2014. - V. 5. - P. 148.

153. Eglitis, M. A. Hematopoietic cells differentiate into both microglia and macroglia in the brains of adult mice / M. A. Eglitis, E. Mezey // Proc. Natl. Acad. Sci. - 1997. - V. 94, № 8. - P. 4080-4085.

154. Ehrhart, J. Biodistribution of infused human umbilical cord blood cells in Alzheimer's disease-like murine model / J. Ehrhart, D. Darlington, N. Kuzmin-Nichols, C. D. Sanberg, D. R. Sawmiller, P. R. Sanberg, J. Tan // Cell Transplant. - 2016. V. 25, № 1. - P. 195-199.

155. Eidelberg, E. A model of spinal cord injury. / E. Eidelberg, E. Staten, J. C. Watkins, D. McGraw, C. McFadden // Surg. Neurol. - 1976. - V. 6, № 1. - P. 35-38.

156. Eliane, G. Hematopoietic reconstitution in a patient with Fanconi''s anemia by means of umbilical-cord blood from an HLA-identical sibling (1989) / G.

Eliane, D. Agnes, E. Helene, T. Dominique, S. Gerard, L. Pierre, C. Scott, E.

298

Denis, K. Joanne, B. Judith // Cell. Ther. Transplant. - 2011. - V. 2. - № 3 (7).

157. Ende, M. Hematopoietic transplantation by means of fetal (cord) blood. A new method / M. Ende, N. Ende // Va. Med. Mon. (1918). - 1972. - V. 99, № 3. - P. 276-280.

158. Eng, L. F. An acidic protein isolated from fibrous astrocytes / L.F. Eng, J.J. Vanderhaeghen, A. Bignami, B. Gerstl // Brain Res. - 1971. - V. 28. - P. 351-354.

159. Eng, L. F. Glial fibrillary acidic protein: GFAP-thirtyone years (1969-2000) / L.F. Eng, R.S. Ghirnikar, Y.L. Lee // Neurochem. Res. - 2000. - V. 25. - P.

1439-1451.

160. Erices, A. Mesenchymal progenitor cells in human umbilical cord blood / A. Erices, P. Conget, J. J. Minguell // Br. J. Haematol. - 2000. - V. 109, № 1. - P. 235-242.

161. Erskine, L. VEGF-A and neuropilin 1 (NRP1) shape axon projections in the developing CNS via dual roles in neurons and blood vessels / L. Erskine, U. François, L. Denti, A. Joyce, M. Tillo, F. Bruce, N. Vargesson, C. Ruhrberg // Development - 2017. - V. 144, № 13. - P. 2504-2516.

162. Euler, M. Clip compression injury in the spinal cord: a correlative study of neurological and morphological alterations / M. von Euler, Â. Seiger, E. Sundström // Exp. Neurol. - 1997. - V. 145, № 2. - P. 502-510.

163. Facchiano, F. Promotion of regeneration of corticospinal tract axons in rats with recombinant vascular endothelial growth factor alone and combined with adenovirus coding for this factor / F. Facchiano, E. Fernandez, S. Mancarella, G. Maira, M. Miscusi, D. D'Arcangelo, G. Cimino-Reale, M. L. Falchetti, M. C. Capogrossi, R. Pallini // J. Neurosurg. - 2002. - V. 97, № 1. - P. 161-168.

164. Fahmy, G. H. Fgf-2 in astroglial cells during vertebrate spinal cord recovery / G. H. Fahmy, M. Z. Mofttah // Front. Cell. Neurosci. - 2010. - V. 4. - P. 129.

165. Fan, W. Transplantation of hypoxic preconditioned neural stem cells benefits functional recovery via enhancing neurotrophic secretion after spinal cord injury

in rats / W. Fan, P. Liu, G. Wang, J. Pu, X. Xue, J. Zhao // J. Cell. Biochem. -

299

2018. - V. 119, № 6. - P. 4339-4351.

166. Fassbender, J. M. Targeting microvasculature for neuroprotection after SCI / J. M. Fassbender, S. R. Whittemore, T. Hagg // Neurotherapeutics - 2011. - V. 8, № 2. - P. 240-251.

167. Faulkner, J. R. Reactive astrocytes protect tissue and preserve function after spinal cord injury / J. R. Faulkner, J. E. Herrmann, M. J. Woo, K. E. Tansey, N. B. Doan, M. V Sofroniew // J. Neurosci. - 2004. - V. 24, № 9. - P. 2143-2155.

168. Fawcett, J. W. Oligodendrocytes repel axons and cause axonal growth cone collapse / J. W. Fawcett, J. Rokos, I. Bakst // J. Cell Sci. - 1989. - V. 92, № 1. -P. 93-100.

169. Fawcett, J. W. Defeating inhibition of regeneration by scar and myelin components / J. W. Fawcett, M. E. Schwab, L. Montani, N. Brazda, H. W. Müller // Handb. Clin. Neurol. - 2012. - V. 109. - P. 503-522.

170. Felts, P. A. Conduction properties of central nerve fibers remyelinated by Schwann cells / P. A. Felts, K. J. Smith // Brain Res. - 1992. - V. 574, № 1-2. -P. 178-192.

171. Fernandez-Klett, F. The fibrotic scar in neurological disorders / F. Fernandez-Klett, J. Priller // Brain Pathol. - 2014. - V. 24, № 4. - P. 404-413.

172. Fidler, P. S. Comparing astrocytic cell lines that are inhibitory or permissive for axon growth: the major axon-inhibitory proteoglycan is NG2 / P. S. Fidler, K. Schuette, R. A. Asher, A. Dobbertin, S. R. Thornton, Y. Calle-Patino, E. Muir, J. M. Levine, H. M. Geller, J. H. Rogers // J. Neurosci. - 1999. - V. 19, № 20. -P. 8778-8788.

173. Finzsch, M. Sox10 is required for Schwann cell identity and progression beyond the immature Schwann cell stage / M. Finzsch, S. Schreiner, T. Kichko, P. Reeh, E. R. Tamm, M. R. Bösl, D. Meijer, M. Wegner // J Cell Biol. - 2010. - V. 189. - P. 701-712.

174. Földes, A. Mesenchymal stem cells of dental origin-their potential for antiinflammatory and regenerative actions in brain and gut damage / A. Földes,

K. Kadar, B. Keremi, K. Gyires, Z. S Zadori, G. V. Varga // Curr.

300

Neuropharmacol. - 2016. - V. 14, № 8. - P. 914-934.

175. Font-Nieves, M. Induction of COX-2 enzyme and down-regulation of COX-1 expression by lipopolysaccharide (LPS) control prostaglandin E2 production in astrocytes / M. Font-Nieves, M. G. Sans-Fons, R. Gorina, E. Bonfill-Teixidor, A. Salas-Perdomo, L. Marquez-Kisinousky, T. Santalucia, A. M. Planas // J. Biol. Chem. - 2012. - V. 287, № 9. - P. 6454-6468.

176. Fouad, K. Transplantation and repair: combined cell implantation and chondroitinase delivery prevents deterioration of bladder function in rats with complete spinal cord injury / K. Fouad, D. D. Pearse, W. Tetzlaff, R. Vavrek // Spinal Cord - 2009. - V. 47, № 10. - P. 727-732.

177. Fouad, K. Combining Schwann cell bridges and olfactory-ensheathing glia grafts with chondroitinase promotes locomotor recovery after complete transection of the spinal cord / K. Fouad, L. Schnell, M. B. Bunge, M. E. Schwab, T. Liebscher, D. D. Pearse // J. Neurosci. - 2005. - V. 25, № 5. - P. 1169-1178.

178. Fournier, A. E. Repulsive factors and axon regeneration in the CNS / A. E. Fournier, S. M. Strittmatter // Curr. Opin. Neurobiol. - 2001. - V. 11, № 1. - P. 89-94.

179. Franklin, R. J. M. Understanding CNS remyelination: clues from developmental and regeneration biology / R. J. M. Franklin, G. L. Hinks // J. Neurosci. Res. - 1999. - V. 58, № 2. - P. 207-213.

180. Franssen, E. H. P. Olfactory ensheathing glia: their contribution to primary olfactory nervous system regeneration and their regenerative potential following transplantation into the injured spinal cord / E. H. P. Franssen, F. M. de Bree, J. Verhaagen // Brain Res. Rev. - 2007. - V. 56, № 1. - P. 236-258.

181. Freeman, L. W. Experimental observations of concussion and contusion of the spinal cord / L. W. Freeman, T. W. Wright // Ann. Surg. - 1953. - V. 137, № 4. - P. 433.

182. Freund, P. Anti-Nogo-A antibody treatment enhances sprouting of

corticospinal axons rostral to a unilateral cervical spinal cord lesion in adult

macaque monkey / P. Freund, T. Wannier, E. Schmidlin, J. Bloch, A. Mir, M. E.

301

Schwab, E. M. Rouiller // J. Comp. Neurol. - 2007. - V. 502, № 4. - P. 644-659.

183. Friedman, S. L. Mechanisms of hepatic fibrogenesis / S. L. Friedman // Gastroenterology - 2008. - V. 134, № 6. - P. 1655-1669.

184. Fu, R. Phagocytosis of microglia in the central nervous system diseases / R. Fu, Q. Shen, P. Xu, J. J. Luo, Y. Tang // Mol. Neurobiol. - 2014. - V. 49, № 3.

- P. 1422-1434.

185. Fu, X. Challenges to the clinical application of pluripotent stem cells: towards genomic and functional stability / X. Fu, Y. Xu // Genome Med. - 2012. - V. 4, № 6. - P. 1-10.

186. Fu, Y.-S. Transformation of human umbilical mesenchymal cells into neurons in vitro / Y.-S. Fu, Y.-T. Shih, Y.-C. Cheng, M.-Y. Min // J. Biomed. Sci. - 2004.

- V. 11, № 5. - P. 652-660.

187. Furuya, T. Treatment of rat spinal cord injury with a Rho-kinase inhibitor and bone marrow stromal cell transplantation / T. Furuya, M. Hashimoto, M. Koda, A. Okawa, A. Murata, K. Takahashi, T. Yamashita, M. Yamazaki // Brain Res. - 2009. - V. 1295. - P. 192-202.

188. Gage, F. H. Neural stem cells: generating and regenerating the brain / F. H. Gage, S. Temple // Neuron - 2013. - V. 80, № 3. - P. 588-601.

189. Gao, L. Progress in Stem Cell Therapy for Spinal Cord Injury / L. Gao, Y. Peng, W. Xu, P. He, T. Li, X. Lu, G. Chen // Stem Cells Int. - 2020. - V. 2020.

190. Gazdic, M. Stem cells therapy for spinal cord injury / M. Gazdic, V. Volarevic, C. R. Harrell, C. Fellabaum, N. Jovicic, N. Arsenijevic, M. Stojkovic // Int. J. Mol. Sci. - 2018. - V. 19, № 4. - P. 1039.

191. Gensel, J. C. Macrophage activation and its role in repair and pathology after spinal cord injury / J. C. Gensel, B. Zhang // Brain Res. - 2015. - V. 1619. - P. 1-11.

192. Ghirnikar, R. S. Chemokine expression in rat stab wound brain injury / R. S. Ghirnikar, Y. L. Lee, T. R. He, L. F. Eng // J. Neurosci. Res. - 1996. - V. 46, № 6. - P. 727-733.

193. Giger, R. J. Guidance molecules in axon regeneration / R. J. Giger, E. R.

302

Hollis, M. H. Tuszynski // Cold Spring Harb. Perspect. Biol. - 2010. - V. 2, № 7. - P. a001867.

194. Gillespie, C. S. Distribution of myelin basic protein and P2 mRNAs in rabbit spinal cord oligodendrocytes / C. S. Gillespie, B. D. Trapp, D. R. Colman, P. J. Brophy // J. Neurochem. - 1990. - V. 54, № 5. - P. 1556-1561.

195. Glavaski-Joksimovic, A. Mesenchymal stem cells and neuroregeneration in Parkinson's disease / A. Glavaski-Joksimovic, M. C. Bohn // Exp. Neurol. -2013. - V. 247. - P. 25-38.

196. Gledhill, R. F. Demyelination and remyelination after acute spinal cord compression / R. F. Gledhill, B. M. Harrison, W. I. McDonald // Exp. Neurol. -1973. - V. 38, № 3. - P. 472-487.

197. Gluckman, E. Hematopoietic reconstitution in a patient with Fanconi's anemia by means of umbilical-cord blood from an HLA-identical sibling / E. Gluckman, H.A. Broxmeyer, A.D. Auerbach, H.S. Friedman, G.W. Douglas, A. Devergie, H. Esperou, D. Thierry, G. Socie, P. Lehn P // N Engl J Med. - 1989.

- V. 26, № 321(17). - P. 1174-1178.

198. Gluckman, E. History of the clinical use of umbilical cord blood hematopoietic cells / E. Gluckman, V. Rocha // Cytotherapy - 2005. - V. 7, № 3. - P. 219-227.

199. Gluckman, E. Outcome of cord-blood transplantation from related and unrelated donors / E. Gluckman, V. Rocha, A. Boyer-Chammard, F. Locatelli, W. Arcese, R. Pasquini, J. Ortega, G. Souillet, E. Ferreira, J.-P. Laporte // N. Engl. J. Med. - 1997. - V. 337, № 6. - P. 373-381.

200. Goldberg, J. L. The relationship between neuronal survival and regeneration / J. L. Goldberg, B. A. Barres // Annu. Rev. Neurosci. - 2000. - V. 23, № 1. - P. 579-612.

201. Goldstein, G. Transplantation and other uses of human umbilical cord blood and stem cells / G. Goldstein, A. Toren, A. Nagler // Curr. Pharm. Des. - 2007.

- V. 13, № 13. - P. 1363-1373.

202. Göritz, C. A pericyte origin of spinal cord scar tissue / C. Göritz, D. O. Dias,

303

N. Tomilin, M. Barbacid, O. Shupliakov, J. Frisen // Science (80-. ). - 2011. - V. 333, № 6039. - P. 238-242.

203. Goulao, M. iPS cell transplantation for traumatic spinal cord injury / M. Goulao, A. C Lepore // Curr. Stem Cell Res. Ther. - 2016. - V. 11, № 4. - P. 321-328.

204. GrandPre, T. Nogo-66 receptor antagonist peptide promotes axonal regeneration / T. GrandPre, S. Li, S. M. Strittmatter // Nature - 2002. - V. 417, № 6888. - P. 547-551.

205. Gratchev, A. Activation of a TGF-ß-specific multistep gene expression program in mature macrophages requires glucocorticoid-mediated surface expression of TGF-ß receptor II / A. Gratchev, J. Kzhyshkowska, S. Kannookadan, M. Ochsenreiter, A. Popova, X. Yu, S. Mamidi, E. Stonehouse-Usselmann, I. Muller-Molinet, L. Gooi // J. Immunol. - 2008. - V. 180, № 10. -P. 6553-6565.

206. Graumann, U. Necessity for re-vascularization after spinal cord injury and the search for potential therapeutic options / U. Graumann, M.-F. Ritz, O. Hausmann // Curr. Neurovasc. Res. - 2011. - V. 8, № 4. - P. 334-341.

207. Grimpe, B. A novel DNA enzyme reduces glycosaminoglycan chains in the glial scar and allows microtransplanted dorsal root ganglia axons to regenerate beyond lesions in the spinal cord / B. Grimpe, J. Silver // J. Neurosci. - 2004. -V. 24, № 6. - P. 1393-1397.

208. Gruner, J. A. A monitored contusion model of spinal cord injury in the rat / J. A. Gruner // J. Neurotrauma - 1992. - V. 9, № 2. - P. 123-128.

209. Gruol, D. L. Impact of increased astrocyte expression of IL-6, CCL2 or CXCL10 in transgenic mice on hippocampal synaptic function / D. L. Gruol // Brain Sci. - 2016. - V. 6, № 2. - P. 19.

210. Gu, M. Conditioned medium of olfactory ensheathing cells promotes the functional recovery and axonal regeneration after contusive spinal cord injury / M. Gu, Z. Gao, X. Li, L. Guo, T. Lu, Y. Li, X. He // Brain Res. - 2017. - V. 1654. - P. 43-54.

211. Guest, J. Clinical translation of autologous Schwann cell transplantation for the treatment of spinal cord injury / J. Guest, A. J. Santamaria, F. D. Benavides // Curr. Opin. Organ Transplant. - 2013. - V. 18, № 6. - P. 682.

212. Guest, J. D. Demyelination and Schwann cell responses adjacent to injury epicenter cavities following chronic human spinal cord injury / J. D. Guest, E. D. Hiester, R. P. Bunge // Exp. Neurol. - 2005. - V. 192, № 2. - P. 384-393.

213. Guo, X. The effect of growth factors and soluble Nogo-66 receptor protein on transplanted neural stem/progenitor survival and axonal regeneration after complete transection of rat spinal cord / X. Guo, T. Zahir, A. Mothe, M. S. Shoichet, C. M. Morshead, Y. Katayama, C. H. Tator // Cell Transplant. - 2012. - V. 21, № 6. - P. 1177-1197.

214. Guptarak, J. Inhibition of IL-6 signaling: a novel therapeutic approach to treating spinal cord injury pain / J. Guptarak, S. Wanchoo, J. Durham-Lee, Y. Wu, D. Zivadinovic, A. Paulucci-Holthauzen, O. Nesic // PAIN® - 2013. - V. 154, № 7. - P. 1115-1128.

215. Guseva, D. Over-expression of Oct4 and Sox2 transcription factors enhances differentiation of human umbilical cord blood cells in vivo / D. Guseva, A. A. Rizvanov, I. I. Salafutdinov, N. V Kudryashova, A. Palotas, R. R. Islamov // Biochem. Biophys. Res. Commun. - 2014. - V. 451, № 4. - P. 503-509.

216. Güzelkü^ük, Ü. Demographic and clinical characteristics of patients with traumatic cervical spinal cord injury: a Turkish hospital-based study / Ü. Güzelküfük, S. Kesikburun, Y. Demir, B. Aras, E. Özyörük, B. Yilmaz, A. K. Tan // Spinal Cord - 2015. - V. 53, № 6. - P. 441-445.

217. Hagg, T. Degenerative and spontaneous regenerative processes after spinal cord injury / T. Hagg, M. Oudega // J. Neurotrauma - 2006. - V. 23, №2 3-4. - P. 263-280.

218. Haidet-Phillips, A. M. Gene profiling of human induced pluripotent stem cell-derived astrocyte progenitors following spinal cord engraftment / A. M. Haidet-Phillips, L. Roybon, S. K. Gross, A. Tuteja, C. J. Donnelly, J.-P. Richard,

M. Ko, A. Sherman, K. Eggan, C. E. Henderson // Stem Cells Transl. Med. -

305

2014. - V. 3, № 5. - P. 575-585.

219. Hakan, T. Meloxicam exerts neuroprotection on spinal cord trauma in rats / T. Hakan, H. Z. Toklu, N. Biber, H. Celik, C. Erzik, A. V. Ogün?, §. Qetinel, G. §ener // Int. J. Neurosci. - 2011. - V. 121, № 3. - P. 142-148.

220. Hall, S. M. Schwann cells responding to primary demyelination in vivo express p75NTR and c-erbB receptors: a light and electron immunohistochemical study / S. M. Hall, H. Li, A. P. Kent // J. Neurocytol. - 1997. - V. 26, № 10. - P. 679-690.

221. Hamann, A. Nucleic acid delivery to mesenchymal stem cells: a review of nonviral methods and applications / A. Hamann, A. Nguyen, A. K. Pannier // J. Biol. Eng. - 2019. - V. 13, № 1. - P. 1-16.

222. Hamanoue, M. Functional recovery from chronic spinal cord injury by the reactivation of endogenous microglia / M. Hamanoue, K. Morioka, K. Hayakawa, K. Nakajima, T. Ogata, K. Takamatsu - 2015.

223. Han, S.-W. High-efficiency DNA injection into a single human mesenchymal stem cell using a nanoneedle and atomic force microscopy / S.-W. Han, C. Nakamura, N. Kotobuki, I. Obataya, H. Ohgushi, T. Nagamune, J. Miyake // Nanomedicine Nanotechnology, Biol. Med. - 2008. - V. 4, № 3. - P. 215-225.

224. Handschel, J. Comparison of ectopic bone formation of embryonic stem cells and cord blood stem cells in vivo / J. Handschel, C. Naujoks, F. Langenbach, K. Berr, R. A. Depprich, M. A. Ommerborn, N. R. Kübler, M. Brinkmann, G. Kögler, U. Meyer // Tissue Eng. Part A - 2010. - V. 16, № 8. - P. 2475-2483.

225. Happel, R. D. Ca2+-accumulation in experimental spinal cord trauma / R. D. Happel, K. P. Smith, L. N. Banik, M. J. Powers, E. L. Hogan, J. D. Balentine // Brain Res. - 1981. - V. 211, № 2. - P. 476-479.

226. Hara, M. Interaction of reactive astrocytes with type I collagen induces astrocytic scar formation through the integrin-N-cadherin pathway after spinal cord injury / M. Hara, K. Kobayakawa, Y. Ohkawa, H. Kumamaru, K. Yokota, T. Saito, K. Kijima, S. Yoshizaki, K. Harimaya, Y. Nakashima // Nat. Med. -2017. - V. 23, № 7. - P. 818-828.

227. Harting, M. T. Immunophenotype characterization of rat mesenchymal stromal cells / M. T. Harting, F. Jimenez, S. Pati, J. Baumgartner, C. Cox Jr // Cytotherapy - 2008. - V. 10, № 3. - P. 243-253.

228. Hatami, M. Human embryonic stem cell-derived neural precursor transplants in collagen scaffolds promote recovery in injured rat spinal cord / M. Hatami, N. Z. Mehrjardi, S. Kiani, K. Hemmesi, H. Azizi, A. Shahverdi, H. Baharvand // Cytotherapy - 2009. - V. 11, № 5. - P. 618-630.

229. Hayashi, K. Increase of sensitivity to mechanical stimulus after transplantation of murine induced pluripotent stem cell-derived astrocytes in a rat spinal cord injury model / K. Hayashi, M. Hashimoto, M. Koda, A. T. Naito, A. Murata, A. Okawa, K. Takahashi, M. Yamazaki // J. Neurosurg. Spine - 2011. - V. 15, № 6. - P. 582-593.

230. Hedtjärn, M. Interleukin-18 involvement in hypoxic-ischemic brain injury / M. Hedtjärn, A.-L. Leverin, K. Eriksson, K. Blomgren, C. Mallard, H. Hagberg // J. Neurosci. - 2002. - V. 22, № 14. - P. 5910-5919.

231. Hei, W. Adenovirus vector-mediated ex vivo gene transfer of brain-derived neurotrophic factor (BDNF) tohuman umbilical cord blood-derived mesenchymal stem cells (UCB-MSCs) promotescrush-injured rat sciatic nerve regeneration / W. Hei, A. A. Almansoori, M.-A. Sung, K.-W. Ju, N. Seo, S.-H. Lee, B.-J. Kim, S.-M. Kim, J. W. Jahng, H. He // Neurosci. Lett. - 2017. - V. 643. - P. 111-120.

232. Hollis, E. R. Neurotrophins: potential therapeutic tools for the treatment of spinal cord injury / E.R. Hollis, M.H. Tuszynski // Neurotherapeutics. - 2011. -V. 8, № 4. - P. 694-703.

233. Hellwig, S. The brain's best friend: microglial neurotoxicity revisited / S. Hellwig, A. Heinrich, K. Biber // Front. Cell. Neurosci. - 2013. - V. 7. - P. 71.

234. Heo, J. S. Comparison of molecular profiles of human mesenchymal stem cells derived from bone marrow, umbilical cord blood, placenta and adipose tissue / J. S. Heo, Y. Choi, H.-S. Kim, H. O. Kim // Int. J. Mol. Med. - 2016. -V. 37, № 1. - P. 115-125.

235. Herdegen, T. The KROX-20 transcription factor in the rat central and peripheral nervous systems: novel expression pattern of an immediate early gene-encoded protein / T. Herdegen, M. Kiessling, S. Bele, R. Bravo, M. Zimmermann, P. Gass // Neuroscience - 1993. - V. 57, № 1. - P. 41-52.

236. Hermann, A. Efficient generation of neural stem cell-like cells from adult human bone marrow stromal cells / A. Hermann, R. Gastl, S. Liebau, M. O. Popa, J. Fiedler, B. O. Boehm, M. Maisel, H. Lerche, J. Schwarz, R. Brenner // J. Cell Sci. - 2004. - V. 117, № 19. - P. 4411-4422.

237. Hernandez, J. Adult stem cell transplants for spinal cord injury repair: current state in preclinical research / J. Hernandez, A. Torres-Espin, X. Navarro // Curr. Stem Cell Res. Ther. - 2011. - V. 6, № 3. - P. 273-287.

238. Herrmann, J. E. STAT3 is a critical regulator of astrogliosis and scar formation after spinal cord injury / J. E. Herrmann, T. Imura, B. Song, J. Qi, Y. Ao, T. K. Nguyen, R. A. Korsak, K. Takeda, S. Akira, M. V Sofroniew // J. Neurosci. - 2008. - V. 28, № 28. - P. 7231-7243.

239. Hesp, Z. C. Chronic oligodendrogenesis and remyelination after spinal cord injury in mice and rats / Z. C. Hesp, E. A. Goldstein, C. J. Miranda, B. K. Kaspar, D. M. McTigue // J. Neurosci. - 2015. - V. 35, № 3. - P. 1274-1290.

240. Higuera, G. A. Patterns of amino acid metabolism by proliferating human mesenchymal stem cells / G. A. Higuera, D. Schop, T. W. G. M. Spitters, R. van Dijkhuizen-Radersma, M. Bracke, J. D. de Bruijn, D. Martens, M. Karperien, A. van Boxtel, C. A. van Blitterswijk // Tissue Eng. Part A - 2012. - V. 18, № 5-6. - P. 654-664.

241. Hirst, W. D. Expression of COX-2 by normal and reactive astrocytes in the adult rat central nervous system / W. D. Hirst, K. A. Young, R. Newton, V. C. Allport, D. R. Marriott, G. P. Wilkin // Mol. Cell. Neurosci. - 1999. - V. 13, № 1. - P. 57-68.

242. Hobson, M. I. VEGF enhances intraneural angiogenesis and improves nerve regeneration after axotomy / M. I. Hobson, C. J. Green, G. Terenghi // J. Anat. -2000. - V. 197, № 4. - P. 591-605.

243. Hol, E. M. Type III intermediate filaments desmin, glial fibrillary acidic protein (GFAP), vimentin, and peripherin / E. M. Hol, Y. Capetanaki // Cold Spring Harb. Perspect. Biol. - 2017. - V. 9, № 12. - P. a021642.

244. Höltje, M. Clostridial C3 proteins: recent approaches to improve neuronal growth and regeneration / M. Höltje, I. Just, G. Ahnert-Hilger // Ann. Anatomy-Anatomischer Anzeiger - 2011. - V. 193, № 4. - P. 314-320.

245. Honmou, O. Restoration of normal conduction properties in demyelinated spinal cord axons in the adult rat by transplantation of exogenous Schwann cells / O. Honmou, P. A. Felts, S. G. Waxman, J. D. Kocsis // J. Neurosci. - 1996. -V. 16, № 10. - P. 3199-3208.

246. Hopperton, K. Markers of microglia in post-mortem brain samples from patients with Alzheimer's disease: a systematic review / K. Hopperton, D. Mohammad, M. Trepanier, V. Giuliano, R. P. Bazinet // Mol Psychiatry - 2018.

- P. 177-198.

247. Horssen, J. Clusters of activated microglia in normal-appearing white matter show signs of innate immune activation / J. van Horssen, S. Singh, S. van der Pol, M. Kipp, J. L. Lim, L. Peferoen, W. Gerritsen, E.-J. Kooi, M. E. Witte, J. J. G. Geurts // J. Neuroinflammation - 2012. - V. 9, № 1. - P. 1-9.

248. Hosseini, M. The efficacy of Schwann cell transplantation on motor function recovery after spinal cord injuries in animal models: a systematic review and meta-analysis / M. Hosseini, M. Yousefifard, M. Baikpour, V. Rahimi-Movaghar, F. Nasirinezhad, S. Younesian, S. Safari, P. Ghelichkhani, A. M. Jafari // J. Chem. Neuroanat. - 2016. - V. 78. - P. 102-111.

249. Hosseini, S. Regenerative medicine applications of mesenchymal stem cells / S. Hosseini, L. Taghiyar, F. Safari, M. B. Eslaminejad // Cell Biol. Transl. Med.

- 2018. - V. 2. - P. 115-141.

250. Hou, P. Pluripotent stem cells induced from mouse somatic cells by small-molecule compounds / P. Hou, Y. Li, X. Zhang, C. Liu, J. Guan, H. Li, T. Zhao, J. Ye, W. Yang, K. Liu // Science (80-. ). - 2013. - V. 341, № 6146. - P. 651654.

251. Hou, X. Combination of fasudil and celecoxib promotes the recovery of injured spinal cord in rats better than celecoxib or fasudil alone / X. Hou, Y. Chen, H. Yin, W. Duan // Neural Regen. Res. - 2015. - V. 10, № 11. - P. 1836.

252. Hou, Y. IL-8 enhances the angiogenic potential of human bone marrow mesenchymal stem cells by increasing vascular endothelial growth factor / Y. Hou, C. H. Ryu, J. A. Jun, S. M. Kim, C. H. Jeong, S. Jeun // Cell Biol. Int. -2014. - V. 38, № 9. - P. 1050-1059.

253. Hu, C. Porcine adipose-derived mesenchymal stem cells retain their stem cell characteristics and cell activities while enhancing the expression of liver-specific genes after acute liver failure / C. Hu, N. Zhou, J. Li, D. Shi, H. Cao, J. Li, L. Li // Int. J. Mol. Sci. - 2016. - V. 17, № 1. - P. 62.

254. Hu, X.-C. Progress in clinical trials of cell transplantation for the treatment of spinal cord injury: how many questions remain unanswered? / X.-C. Hu, Y.-B. Lu, Y.-N. Yang, X.-W. Kang, Y.-G. Wang, B. Ma, S. Xing // Neural Regen. Res. - 2021. - V. 16, № 3. - P. 405.

255. Huang, J.-H. Systemic administration of exosomes released from mesenchymal stromal cells attenuates apoptosis, inflammation, and promotes angiogenesis after spinal cord injury in rats / J.-H. Huang, X.-M. Yin, Y. Xu, C.-C. Xu, X. Lin, F.-B. Ye, Y. Cao, F.-Y. Lin // J. Neurotrauma - 2017. - V. 34, № 24. - P. 3388-3396.

256. Ikeda, Y. Development of angiogenic cell and gene therapy by transplantation of umbilical cord blood with vascular endothelial growth factor gene / Y. Ikeda, N. Fukuda, M. Wada, T. Matsumoto, A. Satomi, S.-I. Yokoyama, S. Saito, K. Matsumoto, K. Kanmatsuse, H. Mugishima // Hypertens. Res. - 2004. - V. 27, № 2. - P. 119-128.

257. Imaizumi, T. Anoxie Injury in the Rat Spinal Cord: Pharmacological Evidence for Multiple Steps in Ca2+-Dependent Injury of the Dorsal Columns / T. Imaizumi, J. D. Kocsis, S. G. Waxman // J. Neurotrauma - 1997. - V. 14, № 5. - P. 299-311.

258. Iskander, A. Intravenous administration of human umbilical cord blood-

310

derived AC133+ endothelial progenitor cells in rat stroke model reduces infarct volume: magnetic resonance imaging and histological findings / A. Iskander, R.

A. Knight, Z. G. Zhang, J. R. Ewing, A. Shankar, N. R. S. Varma, H. Bagher-Ebadian, M. M. Ali, A. S. Arbab, B. Janic // Stem Cells Transl. Med. - 2013. -V. 2, № 9. - P. 703-714.

259. Islamov, R. R. Induction of VEGF and its Flt-1 receptor after sciatic nerve crush injury / R. R. Islamov, V. Chintalgattu, E. S. Pak, L. C. Katwa, A. K. Murashov // Neuroreport - 2004. - V. 15, № 13. - P. 2117-2121.

260. Islamov, R. R. Evaluation of direct and cell-mediated triple-gene therapy in spinal cord injury in rats / R. R. Islamov, A. A. Izmailov, M. E. Sokolov, P. O. Fadeev, F. V. Bashirov, A. A. Eremeev, G. F. Shaymardanova, M. M. Shmarov,

B. S. Naroditskiy, Y. A. Chelyshev // Brain Res. Bull. - 2017. - V. 132. - P. 4452.

261. Islamov, R. R. A pilot study of cell-mediated gene therapy for spinal cord injury in mini pigs / R. R. Islamov, M. E. Sokolov, F. V. Bashirov, F. O. Fadeev, M. M. Shmarov, B. S. Naroditskiy, T. V. Povysheva, G. F. Shaymardanova, R. A. Yakupov, Y. A. Chelyshev // Neurosci. Lett. - 2017. - V. 644. - P. 67-75.

262. Itosaka, H. Fibrin matrix provides a suitable scaffold for bone marrow stromal cells transplanted into injured spinal cord: a novel material for CNS tissue engineering / H. Itosaka, S. Kuroda, H. Shichinohe, H. Yasuda, S. Yano, S. Kamei, R. Kawamura, K. Hida, Y. Iwasaki // Neuropathology - 2009. - V. 29, № 3. - P. 248-257.

263. Iwase, T. Glial cell line-derived neurotrophic factor-induced signaling in Schwann cells / T. Iwase, C. G. Jung, H. Bae, M. Zhang, B. Soliven // J. Neurochem. - 2005. - V. 94, № 6. - P. 1488-1499.

264. Izmailov, A. A. Spinal cord molecular and cellular changes induced by adenoviral vector-and cell-mediated triple gene therapy after severe contusion / A. A. Izmailov, T. V Povysheva, F. V Bashirov, M. E. Sokolov, F. O. Fadeev, R. R. Garifulin, B. S. Naroditsky, D. Y. Logunov, I. I. Salafutdinov, Y. A. Chelyshev // Front. Pharmacol. - 2017. - V. 8. - P. 813.

265. Jain, N. B. Traumatic spinal cord injury in the United States, 1993-2012 / N. B. Jain, G. D. Ayers, E. N. Peterson, M. B. Harris, L. Morse, K. C. O'Connor, E. Garshick // Jama - 2015. - V. 313, № 22. - P. 2236-2243.

266. Jang, Y. K. Retinoic acid-mediated induction of neurons and glial cells from human umbilical cord-derived hematopoietic stem cells / Y. K. Jang, J. J. Park, M. C. Lee, B. H. Yoon, Y. S. Yang, S. E. Yang, S. U. Kim // J. Neurosci. Res. -2004. - V. 75, № 4. - P. 573-584.

267. Jasmin, L. Schwann cells are removed from the spinal cord after effecting recovery from paraplegia / L. Jasmin, G. Janni, T. M. Moallem, D. A. Lappi, P. T. Ohara // J. Neurosci. - 2000. - V. 20, № 24. - P. 9215-9223.

268. Jean, I. Neurotrophin-3 specifically increases mature oligodendrocyte population and enhances remyelination after chemical demyelination of adult rat CNS / I. Jean, C. Lavialle, A. Barthelaix-Pouplard, C. Fressinaud // Brain Res. -2003. - V. 972, № 1-2. - P. 110-118.

269. Jensen, M. S. Temporal changes in PH within the phagocytic vacuole of the polymorphonuclear neutrophilic leukocyte / M. S. Kent, D. F. Bainton // The Journal of cell biology. - 1973. - V. 56. - P. 379-388.

270. Jessen, K. R. The Schwann cell precursor and its fate: a study of cell death and differentiation during gliogenesis in rat embryonic nerves / K.R. Jessen, A. Brennan, L. Morgan, R. Mirsky, A. Kent, Y. Hashimoto, J. Gavrilovic // Neuron - 1994. - V. 12. - P. 509-527.

271. Jessen, K. R. The origin and development of glial cells in peripheral nerves / K. R. Jessen, R. Mirsky // Nat. Rev. Neurosci. - 2005. - V. 6, № 9. - P. 671-682.

272. Jessen, K. R. Schwann cells: development and role in nerve repair / K. R. Jessen, R. Mirsky, A. C. Lloyd // Cold Spring Harb. Perspect. Biol. - 2015. - V. 7, - № 7 - P. a020487.

273. Ji, J. Elevated coding mutation rate during the reprogramming of human somatic cells into induced pluripotent stem cells / J. Ji, S. H. Ng, V. Sharma, D. Neculai, S. Hussein, M. Sam, Q. Trinh, G. M. Church, J. D. Mcpherson, A. Nagy // Stem Cells - 2012. - V. 30, № 3. - P. 435-440.

274. Jiang, X. CCR2 overexpression promotes the efficient recruitment of retinal microglia in vitro / X. Jiang, Y. Ni, T. Liu, M. Zhang, H. Ren, R. Jiang, X. Huang, G. Xu // Mol. Vis. - 2012. - V. 18. - P. 2982.

275. Jiao, F. Human mesenchymal stem cells derived from limb bud can differentiate into all three embryonic germ layers lineages / F. Jiao, J. Wang, Z. Dong, M. Wu, T. Zhao, D. Li, X. Wang // Cell. Reprogramming (Formerly" Cloning Stem Cells") - 2012. - V. 14, № 4. - P. 324-333.

276. Jin, H. J. Comparative analysis of human mesenchymal stem cells from bone marrow, adipose tissue, and umbilical cord blood as sources of cell therapy / H. J. Jin, Y. K. Bae, M. Kim, S.-J. Kwon, H. B. Jeon, S. J. Choi, S. W. Kim, Y. S. Yang, W. Oh, J. W. Chang // Int. J. Mol. Sci. - 2013. - V. 14, № 9. - P. 1798618001.

277. Johansson, C. B. Identification of a neural stem cell in the adult mammalian central nervous system / C. B. Johansson, S. Momma, D. L. Clarke, M. Risling, U. Lendahl, J. Frisen // Cell - 1999. - V. 96, № 1. - P. 25-34.

278. John, G. R. IL-1-regulated responses in astrocytes: Relevance to injury and recovery / G. R. John, S. C. Lee, X. Song, M. Rivieccio, C. F. Brosnan // Glia -2005. - V. 49, № 2. - P. 161-176.

279. Johnston, J. B. Diminished adenosine A1 receptor expression on macrophages in brain and blood of patients with multiple sclerosis / J.B. Johnston, C. Silva, G. Gonzalez, J. Holden, K.G. Warren, L.M. Metz, C. Power // Ann Neurol. - 2001. - V. 49, № 5. - P. 650-658.

280. Joosten, E. A. J. Biodegradable biomatrices and bridging the injured spinal cord: the corticospinal tract as a proof of principle / E. A. J. Joosten // Cell Tissue Res. - 2012. - V. 349, № 1. - P. 375-395.

281. Joset, A. Pincher-generated Nogo-A endosomes mediate growth cone collapse and retrograde signaling / A. Joset, D. A. Dodd, S. Halegoua, M. E. Schwab // J. Cell Biol. - 2010. - V. 188, № 2. - P. 271-285.

282. Jung, S. Ex vivo expansion of human mesenchymal stem cells in defined

serum-free media / S. Jung, K. M. Panchalingam, L. Rosenberg, L. A. Behie //

313

Stem Cells Int. - 2012. - V. 2012.

283. Kaibuchi, N. Cytological character of mini pig mesenchymal stromal cells from various tissues and the attempt of cell sheet formation / N. Kaibuchi, T. Iwata, S. Onizuka, K. Yano, M. Yamato, T. Okano, T. Ando // Regen. Ther. -2017. - V. 6. - P. 83-89.

284. Kaji, K. Virus-free induction of pluripotency and subsequent excision of reprogramming factors / K. Kaji, K. Norrby, A. Paca, M. Mileikovsky, P. Mohseni, K. Woltjen // Nature - 2009. - V. 458, № 7239. - P. 771-775.

285. Kang, J. Reactive oxygen species mediate Ap (25-35)-induced activation of BV-2 microglia / J. Kang, E. J. Park, I. Jou, J.-H. Kim, E. Joe // Neuroreport -2001. - V. 12, № 7. - P. 1449-1452.

286. Kang, S.-K. Autologous adipose tissue-derived stromal cells for treatment of spinal cord injury / S.-K. Kang, M.-J. Shin, J. S. Jung, Y. G. Kim, C.-H. Kim // Stem Cells Dev. - 2006. - V. 15, № 4. - P. 583-594.

287. Kanno, H. Spinal cord injury induces upregulation of Beclin 1 and promotes autophagic cell death / H. Kanno, H. Ozawa, A. Sekiguchi, E. Itoi // Neurobiol. Dis. - 2009. - V. 33, № 2. - P. 143-148.

288. Karahuseyinoglu, S. Biology of stem cells in human umbilical cord stroma: in situ and in vitro surveys / S. Karahuseyinoglu, O. Cinar, E. Kilic, F. Kara, G. G. Akay, D. O. Demiralp, A. Tukun, D. Uckan, A. Can // Stem Cells - 2007. -V. 25, № 2. - P. 319-331.

289. Katoh-Semba, R. Chondroitin sulphate proteoglycans in the rat brain: candidates for axon barriers of sensory neurons and the possible modification by laminin of their actions / R. Katoh-Semba, M. Matsuda, K. Kato, A. Oohira // Eur. J. Neurosci. - 1995. - V. 7, № 4. - P. 613-621.

290. Kawabata, S. Grafted human iPS cell-derived oligodendrocyte precursor cells contribute to robust remyelination of demyelinated axons after spinal cord injury / S. Kawabata, M. Takano, Y. Numasawa-Kuroiwa, G. Itakura, Y. Kobayashi, Y. Nishiyama, K. Sugai, S. Nishimura, H. Iwai, M. Isoda // Stem cell reports - 2016. - V. 6, № 1. - P. 1-8.

291. Keirstead, H. S. Suppression of the onset of myelination extends the permissive period for the functional repair of embryonic spinal cord / H. S. Keirstead, S. J. Hasan, G. D. Muir, J. D. Steeves // Proc. Natl. Acad. Sci. - 1992.

- V. 89, № 24. - P. 11664-11668.

292. Kelly, C. M. Derivation of Neural Stem Cells from the Developing and Adult Human Brain / C. M. Kelly, M. A. Caldwell // Human Neural Stem Cells. - 2018.

- P. 3-20.

293. Kent, K. D. Bovine pituitary extract provides remarkable protection against oxidative stress in human prostate epithelial cells / K. D. Kent, J. A. Bomser // Vitr. Cell. Dev. Biol. - 2003. - V. 39, № 8-9. - P. 388-394.

294. Khan, I. U. Improved healing after the co-transplantation of HO-1 and BDNF overexpressed mesenchymal stem cells in the subacute spinal cord injury of dogs / I. U. Khan, Y. Yoon, A. Kim, K. R. Jo, K. U. Choi, T. Jung, N. Kim, Y. Son, W. H. Kim, O.-K. Kweon // Cell Transplant. - 2018. - V. 27, № 7. - P. 11401153.

295. Khan, S. A systematic review of mesenchymal stem cells in spinal cord injury, intervertebral disc repair and spinal fusion / S. Khan, P. Mafi, R. Mafi, W. Khan // Curr. Stem Cell Res. Ther. - 2018. - V. 13, № 4. - P. 316-323.

296. Khankan, R. R. Olfactory ensheathing cell transplantation after a complete spinal cord transection mediates neuroprotective and immunomodulatory mechanisms to facilitate regeneration / R. R. Khankan, K. G. Griffis, J. R. Haggerty-Skeans, H. Zhong, R. R. Roy, V. R. Edgerton, P. E. Phelps // J. Neurosci. - 2016. - V. 36, № 23. - P. 6269-6286.

297. Kigerl, K. A. Identification of two distinct macrophage subsets with divergent effects causing either neurotoxicity or regeneration in the injured mouse spinal cord / K. A. Kigerl, J. C. Gensel, D. P. Ankeny, J. K. Alexander, D. J. Donnelly, P. G. Popovich // J. Neurosci. - 2009. - V. 29, № 43. - P. 13435-13444.

298. Kigerl, K. A. Comparative analysis of lesion development and intraspinal

inflammation in four strains of mice following spinal contusion injury / K. A.

Kigerl, V. M. McGaughy, P. G. Popovich // J. Comp. Neurol. - 2006. - V. 494,

315

№ 4. - P. 578-594.

299. Kim, E.-J. The potential use of mesenchymal stem cells in hematopoietic stem cell transplantation / E.-J. Kim, N. Kim, S.-G. Cho // Exp. Mol. Med. -2013. - V. 45, № 1. - P. e2-e2.

300. Kim, H. Multimodal sensor-based weight drop spinal cord impact system for large animals / H. Kim, J.-W. Kim, J. K. Hyun, I. Park // Spine J. - 2017. - V. 17, № 12. - P. 1947-1955.

301. Kim, H. J. Stereotactic brain injection of human umbilical cord blood mesenchymal stem cells in patients with Alzheimer's disease dementia: a phase 1 clinical trial / H. J. Kim, S. W. Seo, J. W. Chang, J. Il Lee, C. H. Kim, J. Chin, S. J. Choi, H. Kwon, H. J. Yun, J. M. Lee // Alzheimer's Dement. Transl. Res. Clin. Interv. - 2015. - V. 1, № 2. - P. 95-102.

302. Kim, J. Mesenchymal stem cell-educated macrophages: A novel type of alternatively activated macrophages / J. Kim, P. Hematti // Exp. Hematol. - 2009. - V. 37, № 12. - P. 1445-1453.

303. Kim, K.-T. Review of the UBC porcine model of traumatic spinal cord injury / K.-T. Kim, F. Streijger, N. Manouchehri, K. So, K. Shortt, E. B. Okon, S. Tigchelaar, P. Cripton, B. K. Kwon // J. Korean Neurosurg. Soc. - 2018. - V. 61, № 5. - P. 539.

304. Kim, Y. Antioxidant and anti-inflammatory effects of intravenously injected adipose derived mesenchymal stem cells in dogs with acute spinal cord injury / Y. Kim, S. Jo, W. H. Kim, O.-K. Kweon // Stem Cell Res. Ther. - 2015. - V. 6, № 1. - P. 1-10.

305. Kimura-Kuroda, J. An in vitro model of the inhibition of axon growth in the lesion scar formed after central nervous system injury / J. Kimura-Kuroda, X. Teng, Y. Komuta, N. Yoshioka, K. Sango, K. Kawamura, G. Raisman, H. Kawano // Mol. Cell. Neurosci. - 2010. - V. 43, № 2. - P. 177-187.

306. Klimaschewski, L. Localization and regulation of basic fibroblast growth factor (FGF-2) and FGF receptor-1 in rat superior cervical ganglion after

axotomy / L. Klimaschewski, C. Meisinger, C. Grothe // J. Neurobiol. - 1999. -

316

V. 38, № 4. - P. 499-506.

307. Kobashi, S. Transplantation of M2-deviated microglia promotes recovery of motor function after spinal cord injury in mice / S. Kobashi, T. Terashima, M. Katagi, Y. Nakae, J. Okano, Y. Suzuki, M. Urushitani, H. Kojima // Mol. Ther.

- 2020. - V. 28, № 1. - P. 254-265.

308. Kobayashi, Y. Pre-evaluated safe human iPSC-derived neural stem cells promote functional recovery after spinal cord injury in common marmoset without tumorigenicity / Y. Kobayashi, Y. Okada, G. Itakura, H. Iwai, S. Nishimura, A. Yasuda, S. Nori, K. Hikishima, T. Konomi, K. Fujiyoshi // PLoS One - 2012. - V. 7, № 12. - P. e52787.

309. Kocan, B. Trophic activity and phenotype of adipose tissue-derived mesenchymal stem cells as a background of their regenerative potential / B. Kocan, A. Maziarz, J. Tabarkiewicz, T. Ochiya, A. Banas-Z^bczyk // Stem Cells Int. - 2017. - V. 2017.

310. Koenigsknecht-Talboo, J. Microglial phagocytosis induced by fibrillar ß-amyloid and IgGs are differentially regulated by proinflammatory cytokines / J. Koenigsknecht-Talboo, G. E. Landreth // J. Neurosci. - 2005. - V. 25, № 36. -P. 8240-8249.

311. Kögler, G. A new human somatic stem cell from placental cord blood with intrinsic pluripotent differentiation potential / G. Kögler, S. Sensken, J. A. Airey, T. Trapp, M. Müschen, N. Feldhahn, S. Liedtke, R. V Sorg, J. Fischer, C. Rosenbaum // J. Exp. Med. - 2004. - V. 200, № 2. - P. 123-135.

312. Kojima, K. Selective ablation of tumorigenic cells following human induced pluripotent stem cell-derived neural stem/progenitor cell transplantation in spinal cord injury / K. Kojima, H. Miyoshi, N. Nagoshi, J. Kohyama, G. Itakura, S. Kawabata, M. Ozaki, T. Iida, K. Sugai, S. Ito // Stem Cells Transl. Med. - 2019.

- V. 8, № 3. - P. 260-270.

313. Komitova, M. NG2 cells are not a major source of reactive astrocytes after neocortical stab wound injury / M. Komitova, D. R. Serwanski, Q. Richard Lu, A. Nishiyama // Glia - 2011. - V. 59, № 5. - P. 800-809.

314. Komiyama, Y. IL-17 plays an important role in the development of experimental autoimmune encephalomyelitis / Y. Komiyama, S. Nakae, T. Matsuki, A. Nambu, H. Ishigame, S. Kakuta, K. Sudo, Y. Iwakura // J. Immunol. - 2006. - V. 177, № 1. - P. 566-573.

315. Konyuchenko, E. A. Comparative analysis of neurospecific proteins and cytokines in the acute and early period of traumatic disease in the spinal cord / E. A. Konyuchenko, U. V Yu, D. M. Puchinyan, I. A. Norkin, G. A. Drozdova // Fundam Res - 2014. - V. 7. - P. 974-979.

316. Kothur, K. CSF cytokines/chemokines as biomarkers in neuroinflammatory CNS disorders: a systematic review / K. Kothur, L. Wienholt, F. Brilot, R. C. Dale // Cytokine - 2016. - V. 77. - P. 227-237.

317. Kou, D. Transplantation of rat-derived microglial cells promotes functional recovery in a rat model of spinal cord injury / D. Kou, T. Li, H. Liu, C. Liu, Y. Yin, X. Wu, T. Yu // Brazilian J. Med. Biol. Res. - 2018. - V. 51. - № 10.

318. Krupa, P. The effect of human mesenchymal stem cells derived from Wharton's jelly in spinal cord injury treatment is dose-dependent and can be facilitated by repeated application / P. Krupa, I. Vackova, J. Ruzicka, K. Zaviskova, J. Dubisova, Z. Koci, K. Turnovcova, L. M. Urdzikova, S. Kubinova, S. Rehak // Int. J. Mol. Sci. - 2018. - V. 19, № 5. - P. 1503.

319. Kucharova, K. NG2-proteoglycan-dependent contributions of oligodendrocyte progenitors and myeloid cells to myelin damage and repair / K. Kucharova, W. B. Stallcup // J. Neuroinflammation - 2015. - V. 12, № 1. - P. 117.

320. Kucher, K. First-in-man intrathecal application of neurite growth-promoting anti-Nogo-A antibodies in acute spinal cord injury / K. Kucher, D. Johns, D. Maier, R. Abel, A. Badke, H. Baron, R. Thietje, S. Casha, R. Meindl, B. Gomez-Mancilla // Neurorehabil. Neural Repair - 2018. - V. 32, № 6-7. - P. 578-589.

321. Kumagai, G. Genetically modified mesenchymal stem cells (MSCs) promote

axonal regeneration and prevent hypersensitivity after spinal cord injury / G.

Kumagai, P. Tsoulfas, S. Toh, I. McNiece, H. M. Bramlett, W. D. Dietrich // Exp.

318

Neurol. - 2013. - V. 248. - P. 369-380.

322. Kuno, R. The role of TNF-alpha and its receptors in the production of NGF and GDNF by astrocytes / R. Kuno, Y. Yoshida, A. Nitta, T. Nabeshima, J. Wang, Y. Sonobe, J. Kawanokuchi, H. Takeuchi, T. Mizuno, A. Suzumura // Brain Res.

- 2006. - V. 1116, № 1. - P. 12-18.

323. Kuzhandaivel, A. Kainate-mediated excitotoxicity induces neuronal death in the rat spinal cord in vitro via a PARP-1 dependent cell death pathway (Parthanatos) / A. Kuzhandaivel, A. Nistri, M. Mladinic // Cell. Mol. Neurobiol.

- 2010. - V. 30, № 7. - P. 1001-1012.

324. Lai, A. Y. Microglia in cerebral ischemia: molecular actions and interactions / A. Y. Lai, K. G. Todd // Can. J. Physiol. Pharmacol. - 2006. - V. 84, № 1. - P. 49-59.

325. Lampron, A. Inefficient clearance of myelin debris by microglia impairs remyelinating processes / A. Lampron, A. Larochelle, N. Laflamme, P. Préfontaine, M.-M. Plante, M. G. Sánchez, V. W. Yong, P. K. Stys, M.-É. Tremblay, S. Rivest // J. Exp. Med. - 2015. - V. 212, № 4. - P. 481-495.

326. Langenbach, F. Generation and differentiation of microtissues from multipotent precursor cells for use in tissue engineering / F. Langenbach, K. Berr, C. Naujoks, A. Hassel, M. Hentschel, R. Depprich, N. R. Kubler, U. Meyer, H.-P. Wiesmann, G. Kögler // Nat. Protoc. - 2011. - V. 6, № 11. - P. 1726-1735.

327. Laroni, A. Mesenchymal stem cells for the treatment of neurological diseases: Immunoregulation beyond neuroprotection / A. Laroni, N. K. de Rosbo, A. Uccelli // Immunol. Lett. - 2015. - V. 168, № 2. - P. 183-190.

328. Lawrence, T. Transcriptional regulation of macrophage polarization: enabling diversity with identity / T. Lawrence, G. Natoli // Nat. Rev. Immunol. -2011. - V. 11, № 11. - P. 750-761.

329. Lee, Y. B. Cytokines, chemokines, and cytokine receptors in human microglia / Y.B. Lee, A. Nagai, S.U. Kim // J Neurosci Res. - 2002. - V. 69. - P. 94-103.

330. Lee, B. B. The global map for traumatic spinal cord injury epidemiology:

update 2011, global incidence rate / B. B. Lee, R. A. Cripps, M. Fitzharris, P. C.

319

Wing // Spinal Cord - 2014. - V. 52, № 2. - P. 110-116.

331. Lee, C. S. Adenovirus-mediated gene delivery: potential applications for gene and cell-based therapies in the new era of personalized medicine / C. S. Lee, E. S. Bishop, R. Zhang, X. Yu, E. M. Farina, S. Yan, C. Zhao, Z. Zeng, Y. Shu, X. Wu // Genes Dis. - 2017. - V. 4, № 2. - P. 43-63.

332. Lee, J.-K. Microglia isolation from adult mouse brain / J. K. Lee, M. G. Tansey // Methods Mol Biol. - 2013. - V. 1041. - P. 17-23.

333. Lee, J. H. T. A novel porcine model of traumatic thoracic spinal cord injury / J. H. T. Lee, C. F. Jones, E. B. Okon, L. Anderson, S. Tigchelaar, P. Kooner, T. Godbey, B. Chua, G. Gray, R. Hildebrandt // J. Neurotrauma - 2013. - V. 30, № 3. - P. 142-159.

334. Lee, K.-Z. Intraspinal transplantation and modulation of donor neuron electrophysiological activity / K.-Z. Lee, M. A. Lane, B. J. Dougherty, L. M. Mercier, M. S. Sandhu, J. C. Sanchez, P. J. Reier, D. D. Fuller // Exp. Neurol. -2014. - V. 251. - P. 47-57.

335. Lee, M. J. Effect of subcutaneous treatment with human umbilical cord blood-derived multipotent stem cells on peripheral neuropathic pain in rats / M. J. Lee, T. G. Yoon, M. Kang, H. J. Kim, K. S. Kang // Korean J. Physiol. Pharmacol. Off. J. Korean Physiol. Soc. Korean Soc. Pharmacol. - 2017. - V. 21, № 2. - P. 153.

336. Lemke, G. Isolation and sequence of a cDNA encoding the major structural protein of peripheral myelin / G. Lemke, R. Axel // Cell - 1985. - V. 40, № 3. -P. 501-508.

337. Levine, J. The reactions and role of NG2 glia in spinal cord injury / J. Levine // Brain Res. - 2016. - V. 1638. - P. 199-208.

338. Li, C. Effects of Wharton's jelly cells of the human umbilical cord on acute spinal cord injury in rats, and expression of interleukin-1p and nerve growth factor in spinal cord tissues / C. Li, X. Chen, S. Qiao, X. Liu, C. Liu, D. Zhu, J. Su, Z. Wang // Artif. cells, nanomedicine, Biotechnol. - 2016. - V. 44, № 5. - P. 1254-1258.

339. Li, J. The PMP22 gene and its related diseases / J. Li, B. Parker, C. Martyn, C. Natarajan, J. Guo // Mol. Neurobiol. - 2013. - V. 47, № 2. - P. 673-698.

340. Li, K. Human iPS cell-derived astrocyte transplants preserve respiratory function after spinal cord injury / K. Li, E. Javed, D. Scura, T. J. Hala, S. Seetharam, A. Falnikar, J.-P. Richard, A. Chorath, N. J. Maragakis, M. C. Wright // Exp. Neurol. - 2015. - V. 271. - P. 479-492.

341. Li, P. Insulin promotes the proliferation of human umbilical cord matrix-derived mesenchymal stem cells by activating the Akt-cyclin D1 axis / P. Li, J. Wei, X. Gao, B. Wei, H. Lin, R. Huang, Y. Niu, K. Lim, K. Jing, J. Chu // Stem Cells Int. - 2017. - V. 2017.

342. Li, Q. MSCs guide neurite directional extension and promote oligodendrogenesis in NSCs / Q. Li, Y. Fu, Z. Shan, J. Shen, X. Zhang, L. Lei, L. Jin // Biochem. Biophys. Res. Commun. - 2009. - V. 384, № 3. - P. 372-377.

343. Li, S. Transgenic inhibition of Nogo-66 receptor function allows axonal sprouting and improved locomotion after spinal injury / S. Li, J.-E. Kim, S. Budel, T. G. Hampton, S. M. Strittmatter // Mol. Cell. Neurosci. - 2005. - V. 29, № 1. - P. 26-39.

344. Lian, H. NFKB-activated astroglial release of complement C3 compromises neuronal morphology and function associated with Alzheimer's disease / H. Lian, L. Yang, A. Cole, L. Sun, A. C.-A. Chiang, S. W. Fowler, D. J. Shim, J. Rodriguez-Rivera, G. Taglialatela, J. L. Jankowsky // Neuron - 2015. - V. 85, № 1. - P. 101-115.

345. Liddelow, S. A. Reactive astrocytes: production, function, and therapeutic potential / S. A. Liddelow, B. A. Barres // Immunity - 2017. - V. 46, № 6. - P. 957-967.

346. Liddelow, S. A. Neurotoxic reactive astrocytes are induced by activated microglia / S. A. Liddelow, K. A. Guttenplan, L. E. Clarke, F. C. Bennett, C. J. Bohlen, L. Schirmer, M. L. Bennett, A. E. Münch, W.-S. Chung, T. C. Peterson // Nature - 2017. - V. 541, № 7638. - P. 481-487.

347. Liebscher, T. Nogo-A antibody improves regeneration and locomotion of

321

spinal cord-injured rats / T. Liebscher, L. Schnell, D. Schnell, J. Scholl, R. Schneider, M. Gullo, K. Fouad, A. Mir, M. Rausch, D. Kindler // Ann. Neurol. Off. J. Am. Neurol. Assoc. Child Neurol. Soc. - 2005. - V. 58, № 5. - P. 706719.

348. Liesz, A. Intracerebral interleukin-10 injection modulates post-ischemic neuroinflammation: an experimental microarray study / A. Liesz, A. Bauer, J. D. Hoheisel, R. Veltkamp // Neurosci. Lett. - 2014. - V. 579. - P. 18-23.

349. Lim, J.-H. Development of a model of sacrocaudal spinal cord injury in cloned Yucatan minipigs for cellular transplantation research / J.-H. Lim, J. A. Piedrahita, L. Jackson, T. Ghashghaei, N. J. Olby // Cell. Reprogramming (Formerly" Cloning Stem Cells") - 2010. - V. 12, № 6. - P. 689-697.

350. Lim, S. T. Viral vectors for neurotrophic factor delivery: a gene therapy approach for neurodegenerative diseases of the CNS / S. T. Lim, M. Airavaara,

B. K. Harvey // Pharmacol. Res. - 2010. - V. 61, № 1. - P. 14-26.

351. Lin, L. Bone marrow mesenchymal stem cells (BMSCs) improved functional recovery of spinal cord injury partly by promoting axonal regeneration / L. Lin, H. Lin, S. Bai, L. Zheng, X. Zhang // Neurochem. Int. - 2018. - V. 115. - P. 8084.

352. Lindsay, S. L. Comparative miRNA-based fingerprinting reveals biological differences in human olfactory mucosa-and bone-marrow-derived mesenchymal stromal cells / S. L. Lindsay, S. A. Johnstone, M. A. McGrath, D. Mallinson, S.

C. Barnett // Stem cell reports - 2016. - V. 6, № 5. - P. 729-742.

353. Liu, G. Knockdown of Nogo gene by short hairpin RNA interference promotes functional recovery of spinal cord injury in a rat model / G. Liu, Y. Luo, J. Li, K. Xu // Mol. Med. Rep. - 2016. - V. 13, № 5. - P. 4431-4436.

354. Liu, S. Biomaterial-supported cell transplantation treatments for spinal cord injury: challenges and perspectives / S. Liu, T. Schackel, N. Weidner, R. Puttagunta // Front. Cell. Neurosci. - 2018. - V. 11. - P. 430.

355. Liu, W. Exosomes derived from bone mesenchymal stem cells repair

traumatic spinal cord injury by suppressing the activation of A1 neurotoxic

322

reactive astrocytes / W. Liu, Y. Wang, F. Gong, Y. Rong, Y. Luo, P. Tang, Z. Zhou, Z. Zhou, T. Xu, T. Jiang // J. Neurotrauma - 2019. - V. 36, № 3. - P. 469484.

356. Liu, X. SDF-1/CXCR4 axis modulates bone marrow mesenchymal stem cell apoptosis, migration and cytokine secretion / X. Liu, B. Duan, Z. Cheng, X. Jia, L. Mao, H. Fu, Y. Che, L. Ou, L. Liu, D. Kong // Protein Cell - 2011. - V. 2, № 10. - P. 845-854.

357. Liu, X. Z. Neuronal and glial apoptosis after traumatic spinal cord injury / X. Z. Liu, X. M. Xu, R. Hu, C. Du, S. X. Zhang, J. W. McDonald, H. X. Dong, Y. J. Wu, G. S. Fan, M. F. Jacquin // J. Neurosci. - 1997. - V. 17, № 14. - P. 53955406.

358. Liu, Z. Specific Marker Expression and Cell State of Schwann Cells during Culture In Vitro / Z. Liu, Y-Q. Jin, L. Chen, Y. Wang, X. Yang, J. Cheng, W. Wu, Z. Qi, Z. Shen // PLoS One - 2015. - V. 10, № 4. - P. e0123278.

359. Liuzzi, F. J. Astrocytes block axonal regeneration in mammals by activating the physiological stop pathway / F. J. Liuzzi, R. J. Lasek // Science (80-. ). -1987. - V. 237, № 4815. - P. 642-645.

360. Lobo-Silva, D. Balancing the immune response in the brain: IL-10 and its regulation / D. Lobo-Silva, G. M. Carriche, A. G. Castro, S. Roque, M. Saraiva // J. Neuroinflammation - 2016. - V. 13, № 1. - P. 1-10.

361. Lopez-Vales, R. Chronic transplantation of olfactory ensheathing cells promotes partial recovery after complete spinal cord transection in the rat / R. Lopez-Vales, J. Forés, X. Navarro, E. Verdü // Glia - 2007. - V. 55, № 3. - P. 303-311.

362. Lu, P. Growth factors and combinatorial therapies for CNS regeneration / P. Lu, M. H. Tuszynski // Experimental neurology. - 2008. - V. 209, №. 2. - P. 313-320.

363. Lu, P. Stem cell transplantation for spinal cord injury repair / P. Lu // Prog. Brain Res. - 2017. - V. 231. - P.1-32.

364. Lu, P. Long-distance axonal growth from human induced pluripotent stem

323

cells after spinal cord injury / P. Lu, G. Woodruff, Y. Wang, L. Graham, M. Hunt, D. Wu, E. Boehle, R. Ahmad, G. Poplawski, J. Brock // Neuron - 2014. - V. 83, № 4. - P. 789-796.

365. Lumpkins, K. Plasma levels of the beta chemokine regulated upon activation, normal T cell expressed, and secreted (RANTES) correlate with severe brain injury / K. Lumpkins, G. V Bochicchio, B. Zagol, K. Ulloa, J. M. Simard, S. Schaub, W. Meyer, T. Scalea // J. Trauma Acute Care Surg. - 2008. - V. 64, № 2. - P. 358-361.

366. Lutton, C. Combined VEGF and PDGF treatment reduces secondary degeneration after spinal cord injury / C. Lutton, Y. W. Young, R. Williams, A. C. B. Meedeniya, A. Mackay-Sim, B. Goss // J. Neurotrauma - 2012. - V. 29, № 5. - P. 957-970.

367. Mackenzie, F. Diverse roles for VEGF-A in the nervous system / F. Mackenzie, C. Ruhrberg // Development - 2012. - V. 139, № 8. - P. 1371-1380.

368. Madri, J. A. Modeling the neurovascular niche: implications for recovery from CNS injury / J. A. Madri // J Physiol Pharmacol - 2009. - V. 60, № Suppl 4. - P. 95-104.

369. Maes, M. E. Targeting microglia with lentivirus and AAV: recent advances and remaining challenges / M. E. Maes, G. Colombo, R. Schulz, S. Siegert // Neurosci. Lett. - 2019. - V. 707. - P. 134310.

370. Marco, S. Excitatory amino acids differentially regulate the expression of GDNF, neurturin, and their receptors in the adult rat striatum / S. Marco, A. M. Canudas, J. M. Canals, N. Gavaldá, E. Pérez-Navarro, J. Alberch // Exp. Neurol. - 2002. - V. 174, № 2. - P. 243-252.

371. Marcol, W. Extended magnetic resonance imaging studies on the effect of classically activated microglia transplantation on white matter regeneration following spinal cord focal injury in adult rats / W. Marcol, W. Slusarczyk, M. Larysz-Brysz, K. Labuzek, B. Kapustka, R. Staszkiewicz, P. Rosicka, K. Kalita, W. W?glarz, J. Lewin-Kowalik // Exp. Ther. Med. - 2017. - V. 14, № 5. - P. 4869-4877.

372. Marconi, S. Human adipose-derived mesenchymal stem cells systemically injected promote peripheral nerve regeneration in the mouse model of sciatic crush / S. Marconi, G. Castiglione, E. Turano, G. Bissolotti, S. Angiari, A. Farinazzo, G. Constantin, G. Bedogni, A. Bedogni, B. Bonetti // Tissue Eng. Part A - 2012. - V. 18, № 11-12. - P. 1264-1272.

373. Martin, D. Experimental acute traumatic injury of the adult rat spinal cord by a subdural inflatable balloon: methodology, behavioral analysis, and histopathology / D. Martin, J. Schoenen, P. Delree, V. Gilson, B. Rogister, P. Leprince, A. Stevenaert, G. Moonen // J. Neurosci. Res. - 1992. - V. 32, № 4. -P. 539-550.

374. Maslinska, D. Expression of cyclooxygenase-2 in astrocytes of human brain after global ischemia. / D. Maslinska, R. Wozniak, A. Kaliszek, I. Modelska // Folia Neuropathol. - 1999. - V. 37, № 2. - P. 75-79.

375. Mason, J. L. Interleukin-1p promotes repair of the CNS / J. L. Mason, K. Suzuki, D. D. Chaplin, G. K. Matsushima // J. Neurosci. - 2001. - V. 21, № 18.

- P. 7046-7052.

376. Masu, Y. Disruption of the CNTF gene results in motor neuron degeneration / Y. Masu, E. Wolf, B. Holtmann, M. Sendtner, G. Brem, H. Thoenen // Nature

- 1993. - V. 365, № 6441. - P. 27-32.

377. Matsas, R. Schwann cell transplantation for CNS repair / R. Matsas, A. A. Lavdas, F. Papastefanaki, D. Thomaidou // Curr. Med. Chem. - 2008. - V. 15, № 2. - P. 151-160.

378. Matsuoka, Y. The number of CD34+ CD133+ hematopoietic stem cells residing in umbilical cord blood (UCB) units is not correlated with the numbers of total nucleated cells and CD34+ cells: a possible new indicator for quality evaluation of UCB units / Y. Matsuoka, F. Nakamura, K. Hatanaka, T. Fujioka, S. Otani, T. Kimura, Y. Fujimura, H. Asano, Y. Sonoda // Int. J. Hematol. - 2018.

- V. 108, № 6. - P. 571-579.

379. Matsushita, T. Diffuse and persistent blood-spinal cord barrier disruption

after contusive spinal cord injury rapidly recovers following intravenous infusion

325

of bone marrow mesenchymal stem cells / T. Matsushita, K. L. Lankford, E. J. Arroyo, M. Sasaki, M. Neyazi, C. Radtke, J. D. Kocsis // Exp. Neurol. - 2015. -V. 267. - P. 152-164.

380. Matute, C. Glutamate receptor-mediated toxicity in optic nerve oligodendrocytes / C. Matute, M. V. Sánchez-Gómez, L. Martínez-Millán, R. Miledi // Proc. Natl. Acad. Sci. - 1997. - V. 94, № 16. - P. 8830-8835.

381. Maurer, M. Macrophage inflammatory protein-1 / M. Maurer, E. Von Stebut // Int. J. Biochem. Cell Biol. - 2004. - V. 36, № 10. - P. 1882-1886.

382. Mautes, A. E. M. Vascular events after spinal cord injury: contribution to secondary pathogenesis / A. E. M. Mautes, M. R. Weinzierl, F. Donovan, L. J. Noble // Phys. Ther. - 2000. - V. 80, № 7. - P. 673-687.

383. Mayadas, T. N. The multifaceted functions of neutrophils / T. N. Mayadas, X. Cullere, C. A. Lowell // Annu. Rev. Pathol. Mech. Dis. - 2014. - V. 9. - P. 181-218.

384. Mayeur, A. Potential of olfactory ensheathing cells from different sources for spinal cord repair / A. Mayeur, C. Duclos, A. Honore, M. Gauberti, L. Drouot, J.-C. do Rego, N. Bon-Mardion, L. Jean, E. Vérin, E. Emery // PLoS One - 2013.

- V. 8, № 4. - P. e62860.

385. McDonald, J. W. Multiple classes of the oligodendrocyte lineage are highly vulnerable to excitotoxicity / J. W. McDonald, J. M. Levine, Y. Qu // Neuroreport

- 1998. - V. 9, № 12. - P. 2757-2762.

386. McDonald, J. W. Spinal-cord injury / J. W. McDonald, C. Sadowsky // Lancet - 2002. - V. 359, № 9304. - P. 417-425.

387. McGinley, L. Lentiviral vector mediated modification of mesenchymal stem cells & enhanced survival in an in vitro model of ischaemia / L. McGinley, J. McMahon, P. Strappe, F. Barry, M. Murphy, D. O'Toole, T. O'Brien // Stem Cell Res. Ther. - 2011. - V. 2, № 2. - P. 1-18.

388. McGuckin, C. P. Potential for access to embryonic-like cells from human umbilical cord blood / C. P. McGuckin, N. Forraz // Cell Prolif. - 2008. - V. 41.

- P. 31-40.

389. McKillop, W. M. Conditional Sox9 ablation reduces chondroitin sulfate proteoglycan levels and improves motor function following spinal cord injury / W. M. McKillop, M. Dragan, A. Schedl, A. Brown // Glia - 2013. - V. 61, № 2.

- P. 164-177.

390. McCall, M. A. Targeted deletion in astrocyte intermediate filament (Gfap) alters neuronal physiology / M.A. McCall, R.G. Gregg, R.R. Behringer, M. Brenner, C.L. Delaney, E.J. Galbreath, C.L. Zhang, R.A. Pearce, S.Y. Chiu, A. Messing // Proc Natl Acad Sci U S A - 1996. - V. 93, № 13. - P. 6361-6366.

391. McTigue, D. M. NG2 colocalizes with axons and is expressed by a mixed cell population in spinal cord lesions / D. M. McTigue, R. Tripathi, P. Wei // J. Neuropathol. Exp. Neurol. - 2006. - V. 65, № 4. - P. 406-420.

392. Meletis, K. Spinal cord injury reveals multilineage differentiation of ependymal cells / K. Meletis, F. Barnabe-Heider, M. Carlen, E. Evergren, N. Tomilin, O. Shupliakov, J. Frisen // PLoS Biol - 2008. - V. 6, № 7. - P. e182.

393. Messing, A. Fatal encephalopathy with astrocyte inclusions in GFAP transgenic mice / A. Messing, M.W. Head, K. Galles, E.J. Galbreath, J.E. Goldman, M. Brenner // Am. J. Pathol - 1998. - V. 152. - P. 391-398.

394. Middendorp, J. J. A clinical prediction rule for ambulation outcomes after traumatic spinal cord injury: a longitudinal cohort study / J. J. van Middendorp, A. J. F. Hosman, A. R. T. Donders, M. H. Pouw, J. F. Ditunno Jr, A. Curt, A. C. H. Geurts, H. Van de Meent, E.-S. S. Group // Lancet - 2011. - V. 377, № 9770.

- P. 1004-1010.

395. Middendorp, J. J. ASIA impairment scale conversion in traumatic SCI: is it related with the ability to walk? A descriptive comparison with functional ambulation outcome measures in 273 patients / J. J. Van Middendorp, A. J. F. Hosman, M. H. Pouw, H. Van de Meent // Spinal Cord - 2009. - V. 47, № 7. -P. 555-560.

396. Min, K.-J. Spatial and temporal correlation in progressive degeneration of neurons and astrocytes in contusion-induced spinal cord injury / K.-J. Min, H.K. Jeong, B. Kim, D. H. Hwang, H. Y. Shin, A. T. Nguyen, J. Kim, I. Jou, B. G.

327

Kim, E. Joe // J. Neuroinflammation - 2012. - V. 9, № 1. - P. 1-13.

397. Mitchell, S. W. Injuries of nerves and their consequences / S. W. Mitchell -JB Lippincott - 1872. - 377p.

398. Miura, K. Variation in the safety of induced pluripotent stem cell lines / K. Miura, Y. Okada, T. Aoi, A. Okada, K. Takahashi, K. Okita, M. Nakagawa, M. Koyanagi, K. Tanabe, M. Ohnuki // Nat. Biotechnol. - 2009. - V. 27, № 8. - P. 743-745.

399. Moghieb, A. Differential neuroproteomic and systems biology analysis of spinal cord injury / A. Moghieb, H. M. Bramlett, J. H. Das, Z. Yang, T. Selig, R. A. Yost, M. S. Wang, W. D. Dietrich, K. K. W. Wang // Mol. Cell. Proteomics -2016. - V. 15, № 7. - P. 2379-2395.

400. Montzka, K. Neural differentiation potential of human bone marrow-derived mesenchymal stromal cells: misleading marker gene expression / K. Montzka, N. Lassonczyk, B. Tschöke, S. Neuss, T. Führmann, R. Franzen, R. Smeets, G. A. Brook, M. Wöltje // BMC Neurosci. - 2009. - V. 10, № 1. - P. 1-12.

401. Mortazavi, M. M. The microanatomy of spinal cord injury: a review / M. M. Mortazavi, K. Verma, O. A. Harmon, C. J. Griessenauer, N. Adeeb, N. Theodore, R. S. Tubbs // Clin. Anat. - 2015. - V. 28, № 1. - P. 27-36.

402. Moshaverinia, A. Regulation of the Stem Cell-Host Immune System Interplay Using Hydrogel Coencapsulation System with an Anti-Inflammatory Drug / A. Moshaverinia, C. Chen, X. Xu, S. Ansari, H. H. Zadeh, S. R. Schricker, M. L. Paine, J. Moradian-Oldak, A. Khademhosseini, M. L. Snead // Adv. Funct. Mater. - 2015. - V. 25, № 15. - P. 2296-2307.

403. Mothe, A. J. Repair of the injured spinal cord by transplantation of neural stem cells in a hyaluronan-based hydrogel / A. J. Mothe, R. Y. Tam, T. Zahir, C. H. Tator, M. S. Shoichet // Biomaterials - 2013. - V. 34, № 15. - P. 3775-3783.

404. Mothe, A. J. Review of transplantation of neural stem/progenitor cells for spinal cord injury / A. J. Mothe, C. H. Tator // Int. J. Dev. Neurosci. - 2013. - V. 31, № 7. - P. 701-713.

405. Muir, E. Recent advances in the therapeutic uses of chondroitinase ABC / E.

328

Muir, F. De Winter, J. Verhaagen, J. Fawcett // Exp. Neurol. - 2019. - V. 321. -P. 113032.

406. Mukhamedshina, Y. O. Adenoviral vector carrying glial cell-derived neurotrophic factor for direct gene therapy in comparison with human umbilical cord blood cell-mediated therapy of spinal cord injury in rat / Y. O. Mukhamedshina, G. F. Shaymardanova, E. E. Garanina, I. I. Salafutdinov, A. A. Rizvanov, R. R. Islamov, Y. A. Chelyshev // Spinal Cord - 2016. - V. 54, № 5. - P. 347-359.

407. Mukhamedshina, Y. O. Survival and differentiation of endogenous Schwann cells migrating into spinal cord under the influence of neurotrophic factors. / Y. O. Mukhamedshina, G. F. Shaymardanova, A. R. Muhitov, I. I. Salafutdinov, V. N. Zarubina, A. A. Rizvanov, Y. A. Chelyshev // Cell. Transplant. Tissue Eng. -2012. - V. 7. - № 3.

408. Mukhamedyarov, M. A. Intravenous transplantation of human umbilical cord blood mononuclear cells overexpressing nerve growth factor improves spatial memory in APP/PS1 transgenic mice with a model of Alzheimer's disease / M. A. Mukhamedyarov, A. V Leushina, A. E. Tikhonova, E. O. Petukhova, E. E. Garanina, R. Ben Taleb, M. S. Kaligin, Y. O. Mukhamedshina, A. A. Rizvanov, A. L. Zefirov // Bionanoscience - 2018. - V. 8, № 1. - P. 473-480.

409. Mulcahey, M. J. Interrater reliability of the international standards for neurological classification of spinal cord injury in youths with chronic spinal cord injury / M. J. Mulcahey, J. P. Gaughan, R. S. Chafetz, L. C. Vogel, A. F. Samdani, R. R. Betz // Arch. Phys. Med. Rehabil. - 2011. - V. 92, № 8. - P. 1264-1269.

410. Muniswami, D. M. Functional recovery following the transplantation of olfactory ensheathing cells in rat spinal cord injury model / D. M. Muniswami, G. Tharion // Asian Spine J. - 2018. - V. 12, № 6. - P. 998.

411. Murohara, T. Therapeutic vasculogenesis using human cord blood-derived endothelial progenitors / T. Murohara // Trends Cardiovasc. Med. - 2001. - V. 11, № 8. - P. 303-307.

412. Nagoshi, N. Schwann cell plasticity after spinal cord injury shown by neural

329

crest lineage tracing / N. Nagoshi, S. Shibata, M. Hamanoue, Y. Mabuchi, Y. Matsuzaki, Y. Toyama, M. Nakamura, H. Okano // Glia - 2011. - V. 59, № 5. -P. 771-784.

413. Nakajima, H. Transplantation of mesenchymal stem cells promotes an alternative pathway of macrophage activation and functional recovery after spinal cord injury / H. Nakajima, K. Uchida, A. R. Guerrero, S. Watanabe, D. Sugita, N. Takeura, A. Yoshida, G. Long, K. T. Wright, W. E. B. Johnson // J. Neurotrauma - 2012. - V. 29, № 8. - P. 1614-1625.

414. Nakano, N. Effects of bone marrow stromal cell transplantation through CSF on the subacute and chronic spinal cord injury in rats / N. Nakano, Y. Nakai, T.B. Seo, T. Homma, Y. Yamada, M. Ohta, Y. Suzuki, T. Nakatani, M. Fukushima, M. Hayashibe // PLoS One - 2013. - V. 8, № 9. - P. e73494.

415. Namiki, J. Cell proliferation and nestin expression in the ependyma of the adult rat spinal cord after injury / J. Namiki, C. H. Tator // J. Neuropathol. Exp. Neurol. - 1999. - V. 58, № 5. - P. 489-498.

416. Nash, M. Central nervous system regeneration inhibitors and their intracellular substrates / M. Nash, H. Pribiag, A. E. Fournier, C. Jacobson // Mol. Neurobiol. - 2009. - V. 40, № 3. - P. 224-235.

417. Nashmi, R. Changes in axonal physiology and morphology after chronic compressive injury of the rat thoracic spinal cord / R. Nashmi, M. G. Fehlings // Neuroscience - 2001. - V. 104, № 1. - P. 235-251.

418. Navarro, R. Chronic spinal compression model in minipigs: a systematic behavioral, qualitative, and quantitative neuropathological study / R. Navarro, S. Juhas, S. Keshavarzi, J. Juhasova, J. Motlik, K. Johe, S. Marsala, M. Scadeng, P. Lazar, Z. Tomori // J. Neurotrauma - 2012. - V. 29, № 3. - P. 499-513.

419. Neirinckx, V. Adult bone marrow mesenchymal and neural crest stem cells are chemoattractive and accelerate motor recovery in a mouse model of spinal cord injury / V. Neirinckx, G. Agirman, C. Coste, A. Marquet, V. Dion, B. Rogister, R. Franzen, S. Wislet // Stem Cell Res. Ther. - 2015. - V. 6, № 1. - P. 1-15.

420. Nemeth, K. Bone marrow stromal cells attenuate sepsis via prostaglandin E 2-dependent reprogramming of host macrophages to increase their interleukin-10 production / K. Nemeth, A. Leelahavanichkul, P. S. T. Yuen, B. Mayer, A. Parmelee, K. Doi, P. G. Robey, K. Leelahavanichkul, B. H. Koller, J. M. Brown // Nat. Med. - 2009. - V. 15, № 1. - P. 42-49.

421. Neuhuber, B. Axon growth and recovery of function supported by human bone marrow stromal cells in the injured spinal cord exhibit donor variations / B. Neuhuber, B. T. Himes, J. S. Shumsky, G. Gallo, I. Fischer // Brain Res. - 2005.

- V. 1035, № 1. - P. 73-85.

422. Noble, L. J. Distribution and time course of protein extravasation in the rat spinal cord after contusive injury / L. J. Noble, J. R. Wrathall // Brain Res. -1989. - V. 482, № 1. - P. 57-66.

423. Noe, B. B. Survival after traumatic spinal cord injury in Denmark: a hospital-based study among patients injured in 1990-2012 / B. B. Noe, C. M. Stapelfeldt, E. T. Parner, E. M. Mikkelsen // Spinal Cord - 2017. - V. 55, № 4. - P. 373-377.

424. Noort, W. A. Human versus porcine mesenchymal stromal cells: phenotype, differentiation potential, immunomodulation and cardiac improvement after transplantation / W. A. Noort, M. Oerlemans, H. Rozemuller, D. Feyen, S. Jaksani, D. Stecher, B. Naaijkens, A. C. Martens, H. J. Bühring, P. A. Doevendans // J. Cell. Mol. Med. - 2012. - V. 16, № 8. - P. 1827-1839.

425. Norenberg, M. D. The pathology of human spinal cord injury: defining the problems / M. D. Norenberg, J. Smith, A. Marcillo // J. Neurotrauma - 2004. -V. 21, № 4. - P. 429-440.

426. Nori, S. Grafted human-induced pluripotent stem-cell-derived neurospheres promote motor functional recovery after spinal cord injury in mice / S. Nori, Y. Okada, A. Yasuda, O. Tsuji, Y. Takahashi, Y. Kobayashi, K. Fujiyoshi, M. Koike, Y. Uchiyama, E. Ikeda // Proc. Natl. Acad. Sci. - 2011. - V. 108, № 40.

- P. 16825-16830.

427. Nosrat, I. V. Dental pulp cells provide neurotrophic support for dopaminergic

neurons and differentiate into neurons in vitro; implications for tissue

331

engineering and repair in the nervous system / I. V. Nosrat, C. A. Smith, P. Mullally, L. Olson, C. A. Nosrat // Eur. J. Neurosci. - 2004. - V. 19, № 9. - P. 2388-2398.

428. Nowakowski, A. Genetic engineering of stem cells for enhanced therapy / A. Nowakowski, A. Andrzejewska, M. Janowski, P. Walczak, B. Lukomska // Acta Neurobiol Exp - 2013. - V. 73, № 1. - P. 1-18.

429. NSCISC National Spinal Cord Injury Statistical Center (Facts and Figures at a Glance) // - 2016.

430. Nyström, B. Methodological analysis of an experimental spinal cord compression model in the rat / B. Nyström, J. Berglund, E. Bergquist // Acta Neurol. Scand. - 1988. - V. 78, № 6. - P. 460-466.

431. Ogawa, Y. Transplantation of in vitro-expanded fetal neural progenitor cells results in neurogenesis and functional recovery after spinal cord contusion injury in adult rats / Y. Ogawa, K. Sawamoto, T. Miyata, S. Miyao, M. Watanabe, M. Nakamura, B. S. Bregman, M. Koike, Y. Uchiyama, Y. Toyama // J. Neurosci. Res. - 2002. - V. 69, № 6. - P. 925-933.

432. Oh, J. Y. Mesenchymal stem/stromal cells inhibit the NLRP3 inflammasome by decreasing mitochondrial reactive oxygen species / J. Y. Oh, J. H. Ko, H. J. Lee, J. M. Yu, H. Choi, M. K. Kim, W. R. Wee, D. J. Prockop // Stem Cells -2014. - V. 32, № 6. - P. 1553-1563.

433. Ohsawa, K. Involvement of Iba1 in membrane ruffling and phagocytosis of macrophages/microglia / K. Ohsawa, Y. Imai, H. Kanazawa, Y. Sasaki, S. Kohsaka // J. Cell Sci. - 2000. - V. 113, № 17. - P. 3073-3084.

434. Ohsawa, Y. Peripheral myelin protein 22 is expressed in human central nervous system / Y. Ohsawa, T. Murakami, Y. Miyazaki, T. Shirabe, Y. Sunada // Journal of the Neurological Sciences - 2006. - V. 247, № 1. - P. 11-15.

435. Okita, K. A more efficient method to generate integration-free human iPS cells / K. Okita, Y. Matsumura, Y. Sato, A. Okada, A. Morizane, S. Okamoto, H. Hong, M. Nakagawa, K. Tanabe, K. Tezuka // Nat. Methods - 2011. - V. 8, № 5. - P. 409-412.

436. Oliveri, R. S. Mesenchymal stem cells improve locomotor recovery in traumatic spinal cord injury: systematic review with meta-analyses of rat models / R. S. Oliveri, S. Bello, F. Biering-S0rensen // Neurobiol. Dis. - 2014. - V. 62. - P. 338-353.

437. Olson, H. E. Neural stem cell-and schwann cell-loaded biodegradable polymer scaffolds support axonal regeneration in the transected spinal cord / H. E. Olson, G. E. Rooney, L. Gross, J. J. Nesbitt, K. E. Galvin, A. Knight, B. Chen, M. J. Yaszemski, A. J. Windebank // Tissue Eng. Part A - 2009. - V. 15, № 7 -P. 1797-1805.

438. Omari, K. M. Neuroprotection and remyelination after autoimmune demyelination in mice that inducibly overexpress CXCL1 / K. M. Omari, S. E. Lutz, L. Santambrogio, S. A. Lira, C. S. Raine // Am. J. Pathol. - 2009. - V. 174, № 1. - P. 164-176.

439. Orihuela, R. Microglial M1/M2 polarization and metabolic states / R. Orihuela, C. A. McPherson, G. J. Harry // Br. J. Pharmacol. - 2016. - V. 173, № 4. - P. 649-665.

440. Osaka, M. Intravenous administration of mesenchymal stem cells derived from bone marrow after contusive spinal cord injury improves functional outcome / M. Osaka, O. Honmou, T. Murakami, T. Nonaka, K. Houkin, H. Hamada, J. D. Kocsis // Brain Res. - 2010. - V. 1343. - P. 226-235.

441. Oudega, M. Molecular and cellular mechanisms underlying the role of blood vessels in spinal cord injury and repair / M. Oudega // Cell Tissue Res. - 2012. -V. 349, № 1. - P. 269-288.

442. Oudega, M. Systemic administration of a deoxyribozyme to xylosyltransferase-1 mRNA promotes recovery after a spinal cord contusion injury / M. Oudega, O. Y. Chao, D. L. Avison, R. T. Bronson, W. J. Buchser, A. Hurtado, B. Grimpe // Exp. Neurol. - 2012. - V. 237, № 1. - P. 170-179.

443. Oudega, M. Schwann cell transplantation for repair of the adult spinal cord / M. Oudega, X.-M. Xu // J. Neurotrauma - 2006. - V. 23, № 3-4. - P. 453-467.

444. Oyinbo, C. A. Secondary injury mechanisms in traumatic spinal cord injury:

333

a nugget of this multiply cascade / C. A. Oyinbo // Acta Neurobiol Exp - 2011. - V. 71, № 2. - P. 281-299.

445. Pal, R. Phenotypic and functional comparison of optimum culture conditions for upscaling of bone marrow-derived mesenchymal stem cells / R. Pal, M. Hanwate, M. Jan, S. Totey // J. Tissue Eng. Regen. Med. - 2009. - V. 3, № 3. -P. 163-174.

446. Palmer, T. D. Fibroblast growth factor-2 activates a latent neurogenic program in neural stem cells from diverse regions of the adult CNS / T. D. Palmer, E. A. Markakis, A. R. Willhoite, F. Safar, F. H. Gage // J. Neurosci. -1999. - V. 19, № 19. - P. 8487-8497.

447. Palmer, T. D. The adult rat hippocampus contains primordial neural stem cells / T. D. Palmer, J. Takahashi, F. H. Gage // Mol. Cell. Neurosci. - 1997. -V. 8, № 6. - P. 389-404.

448. Pan, X. Microglial phagocytosis induced by fibrillar p-amyloid is attenuated by oligomeric p-amyloid: implications for Alzheimer's disease / X. Pan, Y. Zhu, N. Lin, J. Zhang, Q. Ye, H. Huang, X. Chen // Mol. Neurodegener. - 2011. - V. 6, № 1. - P. 1-18.

449. Pan, Y. Current state of the development of mesenchymal stem cells into clinically applicable Schwann cell transplants / Y. Pan, S. Cai // Mol. Cell. Biochem. - 2012. - V. 368, № 1. - P. 127-135.

450. Papa, S. Mesenchymal stem cells encapsulated into biomimetic hydrogel scaffold gradually release CCL2 chemokine in situ preserving cytoarchitecture and promoting functional recovery in spinal cord injury / S. Papa, I. Vismara, A. Mariani, M. Barilani, S. Rimondo, M. De Paola, N. Panini, E. Erba, E. Mauri, F. Rossi // J. Control. Release - 2018. - V. 278. - P. 49-56.

451. Park, D.-H. Transplantation of umbilical cord blood stem cells for treating spinal cord injury / D.-H. Park, J.-H. Lee, C. V Borlongan, P. R. Sanberg, Y.-G. Chung, T.-H. Cho // Stem Cell Rev. Reports - 2011. - V. 7, № 1. - P. 181-194.

452. Park, E. The role of excitotoxicity in secondary mechanisms of spinal cord

injury: a review with an emphasis on the implications for white matter

334

degeneration / E. Park, A. A. Velumian, M. G. Fehlings // J. Neurotrauma - 2004. - V. 21, № 6. - P. 754-774.

453. Park, H.-W. Olig2-expressing mesenchymal stem cells enhance functional recovery after contusive spinal cord injury / H.-W. Park, S. Oh, K. H. Lee, B. H. Lee, M.-S. Chang // Int. J. stem cells - 2018. - V. 11, № 2. - P. 177.

454. Park, S. E. Distribution of human umbilical cord blood-derived mesenchymal stem cells in the Alzheimer's disease transgenic mouse after a single intravenous injection / S. E. Park, N. K. Lee, J. Lee, J. W. Hwang, S. J. Choi, H. Hwang, B. Hyung, J. W. Chang, D. L. Na // Neuroreport - 2016. - V. 27, № 4. - P. 235-241.

455. Parker, A. M. Low serum and serum-free culture of multipotential human adipose stem cells / A. M. Parker, H. Shang, M. Khurgel, A. J. Katz // Cytotherapy - 2007. - V. 9, № 7. - P. 637-646.

456. Paul, A. Hypothalamic regulation of regionally distinct adult neural stem cells and neurogenesis / A. Paul, Z. Chaker, F. Doetsch // Science (80-. ). - 2017. - V. 356, № 6345. - P. 1383-1386.

457. Pearse, D. D. Transplantation of Schwann cells and/or olfactory ensheathing glia into the contused spinal cord: Survival, migration, axon association, and functional recovery / D. D. Pearse, A. R. Sanchez, F. C. Pereira, C. M. Andrade, R. Puzis, Y. Pressman, K. Golden, B. M. Kitay, B. Blits, P. M. Wood // Glia -2007. - V. 55, № 9. - P. 976-1000.

458. Pekny, M. Mice lacking glial fibrillary acidic protein display astrocytes devoid of intermediate filaments but develop and reproduce normally / M. Pekny, P. Leveen, M. Pekna, C. Eliasson, C.H. Berthold, B. Westermark, C. Betsholtz // EMBO J - 1995. - V. 14, № 1. - P. 1590-1598.

459. Pekny, M. Abnormal reaction to central nervous system injury in mice lacking glial fibrillary acidic protein and vimentin / M. Pekny, C. B. Johansson, C. Eliasson, J. Stakeberg, Ä. Wallen, T. Perlmann, U. Lendahl, C. Betsholtz, C.-H. Berthold, J. Frisen // J. Cell Biol. - 1999. - V. 145, № 3. - P. 503-514.

460. Persson, M. Lipopolysaccharide increases microglial GLT-1 expression and

glutamate uptake capacity in vitro by a mechanism dependent on TNF-a / M.

335

Persson, M. Brantefjord, E. Hansson, L. Rônnbâck // Glia - 2005. - V. 51, № 2.

- P. 111-120.

461. Peters, E. B. Umbilical cord blood-derived mononuclear cells exhibit pericyte-like phenotype and support network formation of endothelial progenitor cells in vitro / E. B. Peters, B. Liu, N. Christoforou, J. L. West, G. A. Truskey // Ann. Biomed. Eng. - 2015. - V. 43, № 10. - P. 2552-2568.

462. Petukhova, E. Stimulation of neurogenesis at hippocampus in Alzheimer's disease / E. Petukhova, Y. Mukhamedshina, O. Vasilyeva, L. Aksenova, V. Solovyova, E. Garanina // Gene Cells - 2015. - V. 10. - P. 54-59.

463. Pietilâ, M. CD200 positive human mesenchymal stem cells suppress TNF-alpha secretion from CD200 receptor positive macrophage-like cells / M. Pietilâ, S. Lehtonen, E. Tuovinen, K. Lâhteenmâki, S. Laitinen, H.-V. Leskelâ, A. Nâtynki, J. Pesâlâ, K. Nordstrôm, P. Lehenkari // PLoS One - 2012. - V. 7, № 2.

- P. e31671.

464. Pimentel-Coelho, P. M. Umbilical cord blood mononuclear cell transplantation for neonatal hypoxic-ischemic encephalopathy / P. M. Pimentel-Coelho, P. H. Rosado-de-Castro, L. M. B. da Fonseca, R. Mendez-Otero // Pediatr. Res. - 2012. - V. 71, № 2. - P. 464-473.

465. Pino, A. New neurons in adult brain: distribution, molecular mechanisms and therapies / A. Pino, G. Fumagalli, F. Bifari, I. Decimo // Biochem. Pharmacol. -2017. - V. 141. - P. 4-22.

466. Pinzani, M. Expression of platelet-derived growth factor and its receptors in normal human liver and during active hepatic fibrogenesis. / M. Pinzani, S. Milani, H. Herbst, R. DeFranco, C. Grappone, A. Gentilini, A. Caligiuri, G. Pellegrini, D. V. Ngo, R. G. Romanelli // Am. J. Pathol. - 1996. - V. 148, № 3.

- P. 785.

467. Pisati, F. Induction of neurotrophin expression via human adult mesenchymal stem cells: implication for cell therapy in neurodegenerative diseases / F. Pisati, P. Bossolasco, M. Meregalli, L. Cova, M. Belicchi, M. Gavina, C. Marchesi, C.

Calzarossa, D. Soligo, G. Lambertenghi-Deliliers // Cell Transplant. - 2007. - V.

336

16, № 1. - P. 41-55.

468. Pomeshchik, Y. Transplanted human induced pluripotent stem cell-derived neural progenitor cells do not promote functional recovery of pharmacologically immunosuppressed mice with contusion spinal cord injury / Y. Pomeshchik, K. A. Puttonen, I. Kidin, M. Ruponen, S. Lehtonen, T. Malm, E. Ákesson, O. Hovatta, J. Koistinaho // Cell Transplant. - 2015. - V. 24, № 9. - P. 1799-1812.

469. Ponte, A. L. The in vitro migration capacity of human bone marrow mesenchymal stem cells: comparison of chemokine and growth factor chemotactic activities / A. L. Ponte, E. Marais, N. Gallay, A. Langonné, B. Delorme, O. Hérault, P. Charbord, J. Domenech // Stem Cells - 2007. - V. 25, № 7. - P. 1737-1745.

470. Pontius, J. U. 21. UniGene: A unified view of the transcriptome / J. U. Pontius, L. Wagner, G. D. Schuler // NCBI Handbook. Bethesda, MD Natl. Libr. Med. (US), NCBI - 2003.

471. Potter, H. Enhancer-dependent expression of human kappa immunoglobulin genes introduced into mouse pre-B lymphocytes by electroporation / H. Potter, L. Weir, P. Leder // Proc. Natl. Acad. Sci. - 1984. - V. 81, № 22. - P. 7161-7165.

472. Povysheva, T. Post-spinal cord injury astrocyte-mediated functional recovery in rats after intraspinal injection of the recombinant adenoviral vectors Ad5-VEGF and Ad5-ANG / T. Povysheva, M. Shmarov, D. Logunov, B. Naroditsky, I. Shulman, S. Ogurcov, P. Kolesnikov, R. Islamov, Y. Chelyshev // J. Neurosurg. SPINE - 2017. - V. 27, № 1. - P. 105-115.

473. Powers, B. E. Axonal thinning and extensive remyelination without chronic demyelination in spinal injured rats / B. E. Powers, J. Lasiene, J. R. Plemel, L. Shupe, S. I. Perlmutter, W. Tetzlaff, P. J. Horner // J. Neurosci. - 2012. - V. 32, № 15. - P. 5120-5125.

474. Priestley, J. V. Limiting spinal cord injury by pharmacological intervention / J. V. Priestley, A. T. Michael-Titus, W. Tetzlaff // Handb. Clin. Neurol. - 2012. - V. 109. - P. 463-484.

475. Prockop, D. J. Mesenchymal stem/stromal cells (MSCs): role as guardians of

337

inflammation / D. J. Prockop, J. Y. Oh // Mol. Ther. - 2012. - V. 20, № 1. - P. 14-20.

476. Proulx, S. Optimization of culture conditions for porcine corneal endothelial cells / S. Proulx, J.-M. Bourget, N. Gagnon, S. Martel, A. Deschambeault, P. Carrier, C. J. Giasson, F. A. Auger, I. Brunette, L. Germain // Mol. Vis. - 2007. - V. 13. - P. 524.

477. Qi, Y. TSG-6 released from intradermally injected mesenchymal stem cells accelerates wound healing and reduces tissue fibrosis in murine full-thickness skin wounds / Y. Qi, D. Jiang, A. Sindrilaru, A. Stegemann, S. Schatz, N. Treiber, M. Rojewski, H. Schrezenmeier, S. Vander Beken, M. Wlaschek // J. Invest. Dermatol. - 2014. - V. 134, № 2. - P. 526-537.

478. Qian, X. FGF2 concentration regulates the generation of neurons and glia from multipotent cortical stem cells / X. Qian, A. A. Davis, S. K. Goderie, S. Temple // Neuron - 1997. - V. 18, № 1. - P. 81-93.

479. Qin, J. Concentrated growth factor promotes Schwann cell migration partly through the integrin ß1-mediated activation of the focal adhesion kinase pathway / J. Qin, L. Wang, L. Zheng, X. Zhou, Y. Zhang, T. Yang, Y. Zhou // Int. J. Mol. Med. - 2016. - V. 37, № 5. - P. 1363-1370.

480. Qu, J. Roles of mesenchymal stem cells in spinal cord injury / J. Qu, H. Zhang // Stem Cells Int. - 2017. - V. 2017.

481. Ra, J. C. Safety of intravenous infusion of human adipose tissue-derived mesenchymal stem cells in animals and humans / J. C. Ra, I. S. Shin, S. H. Kim, S. K. Kang, B. C. Kang, H. Y. Lee, Y. J. Kim, J. Y. Jo, E. J. Yoon, H. J. Choi // Stem Cells Dev. - 2011. - V. 20, № 8. - P. 1297-1308.

482. Rael, E. L. Interleukin-13 signaling and its role in asthma / E. L. Rael, R. F. Lockey // World Allergy Organ. J. - 2011. - V. 4, № 3. - P. 54-64.

483. Ramón y Cajal, S. Degeneration and regeneration of the nervous system. / S. Ramón y Cajal - 1928.

484. Rao, M. S. A tripotential glial precursor cell is present in the developing

spinal cord / M. S. Rao, M. Noble, M. Mayer-Pröschel // Proc. Natl. Acad. Sci. -

338

1998. - V. 95, № 7. - P. 3996-4001.

485. Redondo-Castro, E. Phagocytic microglial phenotype induced by glibenclamide improves functional recovery but worsens hyperalgesia after spinal cord injury in adult rats / E. Redondo-Castro, J. Hernández, N. Mahy, X. Navarro // Eur. J. Neurosci. - 2013. - V. 38, № 12. - P. 3786-3798.

486. Reh, T. Functional role of regrowing pyramidal tract fibers / T. Reh, K. Kalil // J. Comp. Neurol. - 1982. - V. 211, № 3. - P. 276-283.

487. Renault-Mihara, F. Beneficial compaction of spinal cord lesion by migrating astrocytes through glycogen synthase kinase-3 inhibition / F. Renault-Mihara, H. Katoh, T. Ikegami, A. Iwanami, M. Mukaino, A. Yasuda, S. Nori, Y. Mabuchi, H. Tada, S. Shibata // EMBO Mol. Med. - 2011. - V. 3, № 11. - P. 682-696.

488. Rengasamy, M. Preclinical safety & toxicity evaluation of pooled, allogeneic human bone marrow-derived mesenchymal stromal cells / M. Rengasamy, P. K. Gupta, U. Kolkundkar, G. Singh, S. Balasubramanian, S. SundarRaj, A. Chullikana, A. Sen Majumdar // Indian J. Med. Res. - 2016. - V. 144, № 6. - P. 852.

489. Revilla, A. Current advances in the generation of human iPS cells: implications in cell-based regenerative medicine / A. Revilla, C. González, A. Iriondo, B. Fernández, C. Prieto, C. Marín, I. Liste // J. Tissue Eng. Regen. Med. - 2016. - V. 10, № 11. - P. 893-907.

490. Revkova, V. A. Chitosan- g-oligo(L,L-lactide) Copolymer Hydrogel Potential for Neural Stem Cell Differentiation / V. A. Revkova, E. A. Grebenik, V. A. Kalsin, T. S. Demina, K. N. Bardakova, B. S. Shavkuta, P. A. Melnikov, E. M. Samoilova, M. A. Konoplyannikov, Y. M. Efremov, C. Zhang, T. A. Akopova, A. V. Troitsky, P. S. Timashev, V. P. Baklaushev // Tissue Eng Part A. - 2020. - V. 26, № 17-18. - P. 953-963.

491. Reyes, M. Turning marrow into brain: Generation of Glial and neuronal cells from adult bone marrow mesenchymal stem cells. Amer Soc Hematology. -

1999. - P. 377A-377A.

492. Reynolds, B. A. Generation of neurons and astrocytes from isolated cells of

339

the adult mammalian central nervous system / B. A. Reynolds, S. Weiss // Science (80-. ). - 1992. - V. 255, № 5052. - P. 1707-1710.

493. Ribeiro-Samy, S. Development and characterization of a PHB-HV-based 3 D scaffold for a tissue engineering and cell-therapy combinatorial approach for spinal cord injury regeneration / S. Ribeiro-Samy, N. A. Silva, V. M. Correlo, J. S. Fraga, L. Pinto, A. Teixeira-Castro, H. Leite-Almeida, A. Almeida, J. M. Gimble, N. Sousa // Macromol. Biosci. - 2013. - V. 13, № 11. - P. 1576-1592.

494. Ribeiro, T. B. Neuroprotection and immunomodulation by xenografted human mesenchymal stem cells following spinal cord ventral root avulsion / T. B. Ribeiro, A. S. S. Duarte, A. L. F. Longhini, F. Pradella, A. S. Farias, A. C. M. Luzo, A. L. R. Oliveira, S. T. O. Saad // Sci. Rep. - 2015. - V. 5, № 1. - P. 1-12.

495. Richardson, R. M. Neurogenesis after traumatic brain injury / R. M. Richardson, D. Sun, M. R. Bullock // Neurosurg. Clin. - 2007. - V. 18, № 1. -P. 169-181.

496. Richter, M. W. Olfactory ensheathing cell transplantation following spinal cord injury: hype or hope? / M. W. Richter, A. J. Roskams // Exp. Neurol. - 2008.

- V. 209, № 2. - P. 353-367.

497. Riddell, J. S. Olfactory ensheathing cell grafts have minimal influence on regeneration at the dorsal root entry zone following rhizotomy / J. S. Riddell, M. Enriquez-Denton, A. Toft, R. Fairless, S. C. Barnett // Glia - 2004. - V. 47, № 2. - P. 150-167.

498. Rivera, F. J. Mesenchymal stem cells instruct oligodendrogenic fate decision on adult neural stem cells / F. J. Rivera, S. Couillard-Despres, X. Pedre, S. Ploetz, M. Caioni, C. Lois, U. Bogdahn, L. Aigner // Stem Cells - 2006. - V. 24, № 10.

- P. 2209-2219.

499. Rizvanov, A. A. Genetically modified human umbilical cord blood cells

expressing vascular endothelial growth factor and fibroblast growth factor 2

differentiate into glial cells after transplantation into amyotrophic lateral sclerosis

transgenic mice / A. A. Rizvanov, D. S. Guseva, I. I. Salafutdinov, N. V

Kudryashova, F. V Bashirov, A. P. Kiyasov, M. E. Yalvac, I. M. Gazizov, M. S.

340

Kaligin, F. Sahin // Exp. Biol. Med. - 2011. - V. 236, № 1. - P. 91-98.

500. Robertovich Islamov, R. Symptomatic improvement, increased life-span and sustained cell homing in amyotrophic lateral sclerosis after transplantation of human umbilical cord blood cells genetically modified with adeno-viral vectors expressing a neuro-protective factor and a neur / R. Robertovich Islamov, A. Anatolyevich Rizvanov, M. Alexandrovich Mukhamedyarov, I. Ildusovich Salafutdinov, E. Evgenevna Garanina, V. Yuryevna Fedotova, V. Vladimirovna Solovyeva, Y. Olegovna Mukhamedshina, Z. Zufarovich Safiullov, A. Alexandrovich Izmailov // Curr. Gene Ther. - 2015. - V. 15, № 3. - P. 266-276.

501. Roberts, T. T. Classifications in brief: American spinal injury association (ASIA) impairment scale / T. T. Roberts, G. R. Leonard, D. J. Cepela // Clinical orthopaedics and related research. - 2017. - V. 475, №. 5. - P. 1499.

502. Rocha, S. M. Astrocyte-derived GDNF is a potent inhibitor of microglial activation / S. M. Rocha, A. C. Cristovao, F. L. Campos, C. P. Fonseca, G. Baltazar // Neurobiol. Dis. - 2012. - V. 47, № 3. - P. 407-415.

503. Rocha, V. Transplants of umbilical-cord blood or bone marrow from unrelated donors in adults with acute leukemia / V. Rocha, M. Labopin, G. Sanz, W. Arcese, R. Schwerdtfeger, A. Bosi, N. Jacobsen, T. Ruutu, M. De Lima, J. Finke // N. Engl. J. Med. - 2004. - V. 351, № 22. - P. 2276-2285.

504. Rodriguez, J. P. Abrogation of P-catenin signaling in oligodendrocyte precursor cells reduces glial scarring and promotes axon regeneration after CNS injury / J. P. Rodriguez, M. Coulter, J. Miotke, R. L. Meyer, K.-I. Takemaru, J. M. Levine // J. Neurosci. - 2014. - V. 34, № 31. - P. 10285-10297.

505. Roelofs, R. F. Adult human subventricular, subgranular, and subpial zones contain astrocytes with a specialized intermediate filament cytoskeleton / R.F. Roelofs, D.F. Fischer, S.H. Houtman, J.A. Sluijs, H.W. Van, F.W. Van Leeuwen, E.M. Hol // Glia - 2005. - V. 52. - P. 289-300.

506. Rogers, I. Umbilical cord blood stem cells / I. Rogers, R. F. Casper // Best Pract. Res. Clin. Obstet. Gynaecol. - 2004. - V. 18, № 6. - P. 893-908.

507. Romagnani, S. Cytokines and chemoattractants in allergic inflammation / S.

341

Romagnani // Mol. Immunol. - 2002. - V. 38, № 12-13. - P. 881-885.

508. Romanyuk, N. Beneficial effect of human induced pluripotent stem cell-derived neural precursors in spinal cord injury repair / N. Romanyuk, T. Amemori, K. Turnovcova, P. Prochazka, B. Onteniente, E. Sykova, P. Jendelova // Cell Transplant. - 2015. - V. 24, № 9. - P. 1781-1797.

509. Rood, J. J. Reexposure of cord blood to noninherited maternal HLA antigens improves transplant outcome in hematological malignancies / J. J. van Rood, C.

E. Stevens, J. Smits, C. Carrier, C. Carpenter, A. Scaradavou // Proc. Natl. Acad. Sci. - 2009. - V. 106, № 47. - P. 19952-19957.

510. Rosenstein, J. M. Patterns of brain angiogenesis after vascular endothelial growth factor administration in vitro and in vivo / J. M. Rosenstein, N. Mani, W.

F. Silverman, J. M. Krum // Proc. Natl. Acad. Sci. - 1998. - V. 95, № 12 - P. 7086-7091.

511. Rosich, K. The effects of glial cell line-derived neurotrophic factor after spinal cord injury / K. Rosich, B. F. Hanna, R. K. Ibrahim, D. J. Hellenbrand, A. Hanna // J. Neurotrauma - 2017. - V. 34, № 24. - P. 3311-3325.

512. Rosochacki, S. J. Green fluorescent protein as a molecular marker in microbiology. / S. J. Rosochacki, M. Matejczyk // Acta Microbiol. Pol. - 2002.

- V. 51, № 3. - P. 205-216.

513. Rossignol, S. Spinal cord injury: time to move? / S. Rossignol, M. Schwab, M. Schwartz, M. G. Fehlings // J. Neurosci. - 2007. - V. 27, № 44. - P. 1178211792.

514. Rostene, W. Chemokines as modulators of neuroendocrine functions / W. Rostene, J. C. Buckingham // J. Mol. Endocrinol. - 2007. - V. 38, № 3. - P. 351353.

515. Roy, A. Up-regulation of Microglial CD11b Expression by Nitric Oxide / A. Roy, Y. K. Fung, X. Liu, K. Pahan // J Biol Chem. - 2006. - V. 26, № 281(21).

- P. 14971-14980.

516. Rubinstein, P. Stored placental blood for unrelated bone marrow

reconstitution / P. Rubinstein, R. E. Rosenfield, J. W. Adamson, C. E. Stevens //

342

BLOOD-NEW YORK-. - 1993. - V. 81, P. 1679-1679.

517. Rudge, J. S. Inhibition of neurite outgrowth on astroglial scars in vitro / J. S. Rudge, J. Silver // J. Neurosci. - 1990. - V. 10, № 11. - P. 3594-3603.

518. Ruitenberg, M. J. NT-3 expression from engineered olfactory ensheathing glia promotes spinal sparing and regeneration / M. J. Ruitenberg, D. B. Levison, S. V. Lee, J. Verhaagen, A. R. Harvey, G. W. Plant // Brain - 2005. - V. 128, №

4. - P. 839-853.

519. Ruppert, K. A. Human mesenchymal stromal cell-derived extracellular vesicles modify microglial response and improve clinical outcomes in experimental spinal cord injury / K. A. Ruppert, T. T. Nguyen, K. S. Prabhakara, N. E. T. Furman, A. K. Srivastava, M. T. Harting, C. S. Cox, S. D. Olson // Sci. Rep. - 2018. - V. 8, № 1. - P. 1-12.

520. Ryabov, S. I. Comparison of the Efficiency of Systemic and Local Cell Therapy with Human Umbilical Cord Blood Mononuclear Cells in Rats with Severe Spinal Cord Injury / S. I. Ryabov, M. A. Zvyagintseva, M. Y. Yadgarov,

5. A. Bazanovich, V. A. Smirnov // Bulletin of Experimental Biology & Medicine. - 2020. - V. 168, №. 4. - P. 1-4.

521. Ryu, H.-H. Comparison of mesenchymal stem cells derived from fat, bone marrow, Wharton's jelly, and umbilical cord blood for treating spinal cord injuries in dogs / H.-H. Ryu, B.-J. Kang, S.-S. Park, Y. Kim, G.-J. Sung, H.-M. Woo, W. H. Kim, O.-K. Kweon // J. Vet. Med. Sci. - 2012. - P. 12-65.

522. Sabapathy, V. Cell therapy augments functional recovery subsequent to spinal cord injury under experimental conditions / V. Sabapathy, G. Tharion, S. Kumar // Stem Cells Int. - 2015. - V. 2015.

523. Saberi, H. Safety of intramedullary Schwann cell transplantation for postrehabilitation spinal cord injuries: 2-year follow-up of 33 cases / H. Saberi, M. Firouzi, Z. Habibi, P. Moshayedi, H. R. Aghayan, B. Arjmand, K. Hosseini, H. E. Razavi, M. S. Yekaninejad // J. Neurosurg. Spine - 2011. - V. 15, № 5. -P. 515-525.

524. Sabino, L. Engraftment, neuroglial transdifferentiation and behavioral

343

recovery after complete spinal cord transection in rats / L. Sabino, C. A. Maria, L. Luca, V. Valerio, F. Edda, R. Giacomo, I. Gloria, G. R. Juan, C. Antonio // Surg. Neurol. Int. - 2018. - V. 9.

525. Sadrzadeh, S. M. Hemoglobin-mediated oxidant damage to the central nervous system requires endogenous ascorbate. / S. M. Sadrzadeh, J. W. Eaton // J. Clin. Invest. - 1988. - V. 82, № 5. - P. 1510-1515.

526. Sakai, K. Human dental pulp-derived stem cells promote locomotor recovery after complete transection of the rat spinal cord by multiple neuro-regenerative mechanisms / K. Sakai, A. Yamamoto, K. Matsubara, S. Nakamura, M. Naruse, M. Yamagata, K. Sakamoto, R. Tauchi, N. Wakao, S. Imagama // J. Clin. Invest. - 2012. - V. 122, № 1. - P. 80-90.

527. Sakamoto, K. Mechanisms of axon regeneration: The significance of proteoglycans / K. Sakamoto, K. Kadomatsu // Biochim. Biophys. Acta (BBA)-General Subj. - 2017. - V. 1861, № 10. - P. 2435-2441.

528. Salazar, D. L. Human neural stem cells differentiate and promote locomotor recovery in an early chronic spinal cord injury NOD-scid mouse model / D. L. Salazar, N. Uchida, F. P. T. Hamers, B. J. Cummings, A. J. Anderson // PLoS One - 2010. - V. 5, № 8. - P. e12272.

529. Salewski, R. P. Transplantation of induced pluripotent stem cell-derived neural stem cells mediate functional recovery following thoracic spinal cord injury through remyelination of axons / R. P. Salewski, R. A. Mitchell, L. Li, C. Shen, M. Milekovskaia, A. Nagy, M. G. Fehlings // Stem Cells Transl. Med. -2015. - V. 4, № 7. - P. 743-754.

530. Salimi, K. GDNF and TGF-ß1 promote cell survival in serum-free cultures of primary rat microglia / K. Salimi, K. V Moser, J. Marksteiner, M. Reindl, C. Humpel // Cell Tissue Res. - 2003. - V. 312, № 1. - P. 135-139.

531. Samdani, A. The international standards for neurological classification of spinal cord injury: relationship between S4-5 dermatome testing and anorectal testing / A. Samdani, R. S. Chafetz, L. C. Vogel, R. R. Betz, J. P. Gaughan, M. J. Mulcahey // Spinal Cord - 2011. - V. 49, № 3. - P. 352-356.

532. Samsonraj, R. M. Concise review: multifaceted characterization of human mesenchymal stem cells for use in regenerative medicine / R. M. Samsonraj, M. Raghunath, V. Nurcombe, J. H. Hui, A. J. van Wijnen, S. M. Cool // Stem Cells Transl. Med. - 2017. - V. 6, № 12. - P. 2173-2185.

533. Sanai, N. Unique astrocyte ribbon in adult human brain contains neural stem cells but lacks chain migration / N. Sanai, A. D. Tramontin, A. Quinones-Hinojosa, N. M. Barbaro, N. Gupta, S. Kunwar, M. T. Lawton, M. W. McDermott, A. T. Parsa, J. M.-G. Verdugo // Nature - 2004. - V. 427, № 6976. - p. 740-744.

534. Sandberg, C. J. Transcriptional profiling of adult neural stem-like cells from the human brain / C. J. Sandberg, E. O. Vik-Mo, J. Behnan, E. Helseth, I. A. Langmoen // PLoS One - 2014. - V. 9, № 12. - P. e114739.

535. Sandvig, A. Myelin-, reactive glia-, and scar-derived CNS axon growth inhibitors: expression, receptor signaling, and correlation with axon regeneration / A. Sandvig, M. Berry, L. B. Barrett, A. Butt, A. Logan // Glia - 2004. - V. 46, № 3. - P. 225-251.

536. Santos-Silva, A. FGF/heparin differentially regulates Schwann cell and olfactory ensheathing cell interactions with astrocytes: a role in astrocytosis / A. Santos-Silva, R. Fairless, M. C. Frame, P. Montague, G. M. Smith, A. Toft, J. S. Riddell, S. C. Barnett // J. Neurosci. - 2007. - V. 27, № 27. - P. 7154-7167.

537. Santos Ramalho, B. Injection of bone marrow mesenchymal stem cells by intravenous or intraperitoneal routes is a viable alternative to spinal cord injury treatment in mice / B. dos Santos Ramalho, F. M. de Almeida, C. M. Sales, S. De Lima, A. M. B. Martinez // Neural Regen. Res. - 2018. - V. 13, № 6. - P. 1046.

538. Santourlidis, S. Unrestricted somatic stem cells (USSC) from human umbilical cord blood display uncommitted epigenetic signatures of the major stem cell pluripotency genes / S. Santourlidis, P. Wernet, F. Ghanjati, N. Graffmann, J. Springer, C. Kriegs, X. Zhao, J. Brands, M. J. Araúzo-Bravo, R. Neves // Stem Cell Res. - 2011. - V. 6, № 1. - P. 60-69.

539. Saporta, S. Human umbilical cord blood stem cells infusion in spinal cord

345

injury: engraftment and beneficial influence on behavior / S. Saporta, J.-J. Kim, A. E. Willing, E. S. Fu, C. D. Davis, P. R. Sanberg // J. Hematother. Stem Cell Res. - 2003. - V. 12, № 3. - P. 271-278.

540. Sareen, D. Human induced pluripotent stem cells are a novel source of neural progenitor cells (iNPCs) that migrate and integrate in the rodent spinal cord / D. Sareen, G. Gowing, A. Sahabian, K. Staggenborg, R. Paradis, P. Avalos, J. Latter, L. Ornelas, L. Garcia, C. N. Svendsen // J. Comp. Neurol. - 2014. - V. 522, № 12. - P. 2707-2728.

541. Sato, Y. Evidence for the presence of major peripheral myelin glycoprotein P0 in mammalian spinal cord and a change of its glycosylation state during aging / Y. Sato, M. Kimura, C. Yasuda, Y. Nakano, M. Tomita, A. Kobata, T. Endo // Glycobiology - 1999. - V. 9, № 7. - P. 655-660.

542. Schaal, S. M. Schwann cell transplantation improves reticulospinal axon growth and forelimb strength after severe cervical spinal cord contusion / S. M. Schaal, B. M. Kitay, K. S. Cho, T. P. Lo Jr, D. J. Barakat, A. E. Marcillo, A. R. Sanchez, C. M. Andrade, D. D. Pearse // Cell Transplant. - 2007. - V. 16, № 3. - P. 207-228.

543. Schaper, F. Interleukin-6: biology, signaling and strategies of blockade / F. Schaper, S. Rose-John // Cytokine Growth Factor Rev. - 2015. - V. 26, № 5. -P. 475-487.

544. Scheff, S. W. Experimental modeling of spinal cord injury: characterization of a force-defined injury device / S. W. Scheff, A. G. Rabchevsky, I. Fugaccia, J. A. Main, J. E. Lumpp Jr // J. Neurotrauma - 2003. - V. 20, № 2. - P. 179-193.

545. Scheller, J. Interleukin-6: from basic biology to selective blockade of proinflammatory activities / J. Scheller, C. Garbers, S. Rose-John // Seminars in immunology. - Academic Press, 2014. - V. 26, №. 1. - P. 2-12.

546. Schira, J. Significant clinical, neuropathological and behavioural recovery from acute spinal cord trauma by transplantation of a well-defined somatic stem cell from human umbilical cord blood / J. Schira, M. Gasis, V. Estrada, M.

Hendricks, C. Schmitz, T. Trapp, F. Kruse, G. Kögler, P. Wernet, H.-P. Hartung

346

// Brain - 2012. - V. 135, № 2. - P. 431-446.

547. Schneider, S. Adipose-derived mesenchymal stem cells from liposuction and resected fat are feasible sources for regenerative medicine / S. Schneider, M. Unger, M. van Griensven, E. R. Balmayor // Eur. J. Med. Res. - 2017. - V. 22, № 1. - P. 1-11.

548. Schumacher, P. A. Pretreatment with calpain inhibitor CEP-4143 inhibits calpain I activation and cytoskeletal degradation, improves neurological function, and enhances axonal survival after traumatic spinal cord injury / P. A. Schumacher, R. G. Siman, M. G. Fehlings // J. Neurochem. - 2000. - V. 74, № 4. - P. 1646-1655.

549. Schwab, M. E. Functions of Nogo proteins and their receptors in the nervous system / M. E. Schwab // Nat. Rev. Neurosci. - 2010. - V. 11, № 12. - P. 799811.

550. Schwab, M. E. Dissociated neurons regenerate into sciatic but not optic nerve explants in culture irrespective of neurotrophic factors / M. E. Schwab, H. Thoenen // J. Neurosci. - 1985. - V. 5, № 9. - P. 2415-2423.

551. Schwob, J. E. Stem and progenitor cells of the mammalian olfactory epithelium: Taking poietic license / J. E. Schwob, W. Jang, E. H. Holbrook, B. Lin, D. B. Herrick, J. N. Peterson, J. Hewitt Coleman // J. Comp. Neurol. - 2017. - V. 525, № 4. - P. 1034-1054.

552. Sedgwick, J. D. Central nervous system microglial cell activation and proliferation follows direct interaction with tissue-infiltrating T cell blasts / J.D. Sedgwick, A.L. Ford, E. Foulcher, R. Airriess // J Immunol. - 1998. - V. 160, №. 11. - P. 5320-5330.

553. Sendtner, M. Ciliary neurotrophic factor prevents the degeneration of motor neurons after axotomy / M. Sendtner, G. W. Kreutzberg, H. Thoenen // Nature -1990. - V. 345, № 6274. - P. 440-441.

554. Sendtner, M. Ciliary neurotrophic factor prevents degeneration of motor

neurons in mouse mutant progressive motor neuronopathy / M. Sendtner, H.

Schmalbruch, K. A. Stockli, P. Carroll, G. W. Kreutzberg, H. Thoenen // Nature

347

- 1992. - V. 358, № 6386. - P. 502-504.

555. Seo, D. K. Enhanced axonal regeneration by transplanted Wnt3a-secreting human mesenchymal stem cells in a rat model of spinal cord injury / D. K. Seo, J. H. Kim, J. Min, H. H. Yoon, E.-S. Shin, S. W. Kim, S. R. Jeon // Acta Neurochir. (Wien). - 2017. - V. 159, № 5. - P. 947-957.

556. Seo, J. H. Oligodendrocyte precursors induce early blood-brain barrier opening after white matter injury / J. H. Seo, N. Miyamoto, K. Hayakawa, L.-D. D. Pham, T. Maki, C. Ayata, K.-W. Kim, E. H. Lo, K. Arai // J. Clin. Invest. -2013. - V. 123, № 2. - P. 782-786.

557. Setoguchi, T. Treatment of spinal cord injury by transplantation of fetal neural precursor cells engineered to express BMP inhibitor / T. Setoguchi, K. Nakashima, T. Takizawa, M. Yanagisawa, W. Ochiai, M. Okabe, K. Yone, S. Komiya, T. Taga // Exp. Neurol. - 2004. - V. 189, № 1. - P. 33-44.

558. Shaimardanova, G. F. Effects of transplantation of human umbilical cord blood mononuclear cells, expressing VEGF and FGF2 genes, into the area of spinal cord traumatic lesion / G. F. Shaimardanova, M. IaO, I. I. Salafutdinov, C. IuA // Morfologiia - 2012. - V. 142, № 4. - P. 31-36.

559. Sharma, M. Role of coxsackievirus and adenovirus receptor (CAR) expression and viral load of adenovirus and enterovirus in patients with dilated cardiomyopathy / M. Sharma, B. Mishra, U. N. Saikia, A. Bahl, R. K. Ratho, K. K. Talwar // Arch. Virol. - 2016. - V. 161, № 1. - P. 87-94.

560. Shechter, R. Harnessing monocyte-derived macrophages to control central nervous system pathologies: no longer 'ifbut 'how' / R. Shechter, M. Schwartz // J. Pathol. - 2013. - V. 229, № 2. - P. 332-346.

561. Shi, J. A review on electroporation-based intracellular delivery / J. Shi, Y. Ma, J. Zhu, Y. Chen, Y. Sun, Y. Yao, Z. Yang, J. Xie // Molecules - 2018. - V. 23, № 11. - P. 3044.

562. Shin, T.-H. Human umbilical cord blood-stem cells direct macrophage

polarization and block inflammasome activation to alleviate rheumatoid arthritis

/ T.-H. Shin, H.-S. Kim, T.-W. Kang, B.-C. Lee, H.-Y. Lee, Y.-J. Kim, J.-H. Shin,

348

Y. Seo, S. W. Choi, S. Lee // Cell Death Dis. - 2016. - V. 7, № 12. - P. e2524-e2524.

563. Shrestha, B. Repair of injured spinal cord using biomaterial scaffolds and stem cells / B. Shrestha, K. Coykendall, Y. Li, A. Moon, P. Priyadarshani, L. Yao // Stem Cell Res. Ther. - 2014. - V. 5, № 4. - P. 91.

564. Silva Jr, W. A. The profile of gene expression of human marrow mesenchymal stem cells / W. A. Silva Jr, D. T. Covas, R. A. Panepucci, R. Proto-Siqueira, J. L. C. Siufi, D. L. Zanette, A. R. D. Santos, M. A. Zago // Stem Cells

- 2003. - V. 21, № 6. - P. 661-669.

565. Silver, J. Regeneration beyond the glial scar / J. Silver, J. H. Miller // Nat. Rev. Neurosci. - 2004. - V. 5, № 2. - P. 146-156.

566. Singh, A. Global prevalence and incidence of traumatic spinal cord injury /

A. Singh, L. Tetreault, S. Kalsi-Ryan, A. Nouri, M. G. Fehlings // Clin. Epidemiol. - 2014. - V. 6 - P. 309.

567. Skinner, S. A. Electromyography in the detection of mechanically induced spinal motor tract injury: observations in diverse porcine models / S. A. Skinner,

E. E. Transfeldt // J. Neurosurg. Spine - 2009. - V. 11, № 3. - P. 369-374.

568. Soderblom, C. Perivascular fibroblasts form the fibrotic scar after contusive spinal cord injury / C. Soderblom, X. Luo, E. Blumenthal, E. Bray, K. Lyapichev, J. Ramos, V. Krishnan, C. Lai-Hsu, K. K. Park, P. Tsoulfas // J. Neurosci. - 2013.

- V. 33, № 34. - P. 13882-13887.

569. Sofroniew, M. V. Astrocytes: biology and pathology / M. V. Sofroniew, H. V Vinters // Acta Neuropathol. - 2010. - V. 119, № 1. - P. 7-35.

570. Sohni, A. Mesenchymal stem cells migration homing and tracking / A. Sohni, C. M. Verfaillie // Stem Cells Int. - 2013. - V. 2013.

571. Sokolov, M. E. Triple-gene therapy for stroke: a proof-of-concept in vivo study in rats / M. E. Sokolov, F. V Bashirov, V. A. Markosyan, T. V Povysheva,

F. O. Fadeev, A. A. Izmailov, M. S. Kuztetsov, Z. Z. Safiullov, M. M. Shmarov,

B. S. Naroditskyi // Front. Pharmacol. - 2018. - V. 9. - P. 111.

572. Sondell, M. Vascular endothelial growth factor has neurotrophic activity and

349

stimulates axonal outgrowth, enhancing cell survival and Schwann cell proliferation in the peripheral nervous system / M. Sondell, G. Lundborg, M. Kanje // J. Neurosci. - 1999. - V. 19, № 14. - P. 5731-5740.

573. Song, J.-L. Lentivirus-mediated microRNA-124 gene-modified bone marrow mesenchymal stem cell transplantation promotes the repair of spinal cord injury in rats / J.-L. Song, W. Zheng, W. Chen, Y. Qian, Y.-M. Ouyang, C.-Y. Fan // Exp. Mol. Med. - 2017. - V. 49, № 5. - P. e332-e332.

574. Song, W.-J. TSG-6 secreted by human adipose tissue-derived mesenchymal stem cells ameliorates DSS-induced colitis by inducing M2 macrophage polarization in mice / W.-J. Song, Q. Li, M.-O. Ryu, J.-O. Ahn, D. H. Bhang, Y. C. Jung, H.-Y. Youn // Sci. Rep. - 2017. - V. 7, № 1. - P. 1-14.

575. Song, X.-Y. Suppression of p75NTR does not promote regeneration of injured spinal cord in mice / X.-Y. Song, J. Zhong, X. Wang, X.-F. Zhou // J. Neurosci. - 2004. - V. 24, № 2. - P. 542-546.

576. Sprague, A. H. Inflammatory cytokines in vascular dysfunction and vascular disease / A. H. Sprague, R. A. Khalil // Biochem. Pharmacol. - 2009. - V. 78, № 6. - P. 539-552.

577. Steffenhagen, C. Mesenchymal stem cells prime proliferating adult neural progenitors toward an oligodendrocyte fate / C. Steffenhagen, F.-X. Dechant, E. Oberbauer, T. Furtner, N. Weidner, P. Küry, L. Aigner, F. J. Rivera // Stem Cells Dev. - 2012. - V. 21, № 11. - P. 1838-1851.

578. Stein, S. C. Toxic substances in spinal cord injury / S. C. Stein, R. Q. Cracco, P. Farmer, C. A. Kiest // Neurosurgery - 1979. - V. 4, № 3. - P. 239-243.

579. Stenderup, K. Aging is associated with decreased maximal life span and accelerated senescence of bone marrow stromal cells / K. Stenderup, J. Justesen, C. Clausen, M. Kassem // Bone - 2003. - V. 33, № 6. - P. 919-926.

580. Stenudd, M. Role of endogenous neural stem cells in spinal cord injury and repair / M. Stenudd, H. Sabelström, J. Frisen // JAMA Neurol. - 2015. - V. 72, № 2. - P. 235-237.

581. Stratoulias, V. Microglial subtypes: diversity within the microglial

350

community / V. Stratoulias, J. L. Venero, M. Tremblay, B. Joseph // EMBO J. -2019. - V. 38, № 17. - P. e101997.

582. Sun, G. hucMSC derived exosomes promote functional recovery in spinal cord injury mice via attenuating inflammation / G. Sun, G. Li, D. Li, W. Huang, R. Zhang, H. Zhang, Y. Duan, B. Wang // Mater. Sci. Eng. C - 2018. - V. 89. -P. 194-204.

583. Sun, T. Repairing neural injuries using human umbilical cord blood / T. Sun, Q. Ma // Mol. Neurobiol. - 2013. - V. 47, № 3. - P. 938-945.

584. Sweis, R. Systemic complications of spinal cord injury / R. Sweis, J. Biller // Curr. Neurol. Neurosci. Rep. - 2017. - V. 17, № 1. - P. 1-8.

585. Swindle, M. M. Swine as models in biomedical research and toxicology testing / M. M. Swindle, A. Makin, A. J. Herron, F. J. Clubb Jr, K. S. Frazier // Vet. Pathol. - 2012. - V. 49, № 2. - P. 344-356.

586. Taguchi, A. Administration of CD34+ cells after stroke enhances neurogenesis via angiogenesisin a mouse model / A. Taguchi, T. Soma, H. Tanaka, T. Kanda, H. Nishimura, H. Yoshikawa, Y. Tsukamoto, H. Iso, Y. Fujimori, D. M. Stern // J. Clin. Invest. - 2004. - V. 114, № 3 - P. 330-338.

587. Takahashi, A. Comparison of mesenchymal stromal cells isolated from murine adipose tissue and bone marrow in the treatment of spinal cord injury / A. Takahashi, H. Nakajima, K. Uchida, N. Takeura, K. Honjoh, S. Watanabe, M. Kitade, Y. Kokubo, W. E. B. Johnson, A. Matsumine // Cell Transplant. - 2018. - V. 27, № 7. - P. 1126-1139.

588. Takahashi, J. L. Interleukin-1p promotes oligodendrocyte death through glutamate excitotoxicity / J. L. Takahashi, F. Giuliani, C. Power, Y. Imai, V. W. Yong // Ann. Neurol. Off. J. Am. Neurol. Assoc. Child Neurol. Soc. - 2003. - V. 53, № 5. - P. 588-595.

589. Takahashi, K. Induction of pluripotent stem cells from mouse embryonic and adult fibroblast cultures by defined factors / K. Takahashi, S. Yamanaka // Cell -2006. - V. 126, № 4. - P. 663-676.

590. Takahashi, S. Mesenchymal stem cell-based therapy improves lower limb

351

movement after spinal cord ischemia in rats / S. Takahashi, K. Nakagawa, M. Tomiyasu, A. Nakashima, K. Katayama, T. Imura, B. Herlambang, T. Okubo, K. Arihiro, Y. Kawahara // Ann. Thorac. Surg. - 2018. - V. 105, № 5. - P. 15231530.

591. Takata, K. Microglial transplantation increases amyloid-ß clearance in Alzheimer model rats / K. Takata, Y. Kitamura, D. Yanagisawa, S. Morikawa, M. Morita, T. Inubushi, D. Tsuchiya, S. Chishiro, M. Saeki, T. Taniguchi // FEBS Lett. - 2007. - V. 581, № 3. - P. 475-478.

592. Takeuchi, K. Chondroitin sulphate N-acetylgalactosaminyl-transferase-1 inhibits recovery from neural injury / K. Takeuchi, N. Yoshioka, S. H. Onaga, Y. Watanabe, S. Miyata, Y. Wada, C. Kudo, M. Okada, K. Ohko, K. Oda // Nat. Commun. - 2013. - V. 4, № 1. - P. 1-11.

593. Talbott, J. F. Schwann cell-like differentiation by adult oligodendrocyte precursor cells following engraftment into the demyelinated spinal cord is BMP-dependent / J. F. Talbott, Q. Cao, G. U. Enzmann, R. L. Benton, V. Achim, X. X. Cheng, M. D. Mills, M. S. Rao, S. R. Whittemore // Glia - 2006. - V. 54, № 3. - P. 147-159.

594. Tan, A. M. Antibodies against the NG2 proteoglycan promote the regeneration of sensory axons within the dorsal columns of the spinal cord / A. M. Tan, M. Colletti, A. T. Rorai, J. H. P. Skene, J. M. Levine // J. Neurosci. -2006. - V. 26, № 18. - P. 4729-4739.

595. Tang, L. Adipose-derived stem cells expressing the neurogenin-2 promote functional recovery after spinal cord injury in rat / L. Tang, X. Lu, R. Zhu, T. Qian, Y. Tao, K. Li, J. Zheng, P. Zhao, S. Li, X. Wang // Cell. Mol. Neurobiol. -2016. - V. 36, № 5. - P. 657-667.

596. Thiele, J. 25th anniversary article: designer hydrogels for cell cultures: a materials selection guide / J. Thiele, Y. Ma, S. M. C. Bruekers, S. Ma, W. T. S. Huck // Adv. Mater. - 2014. - V. 26, № 1. - P. 125-148.

597. Toft, A. Electrophysiological evidence that olfactory cell transplants improve

function after spinal cord injury / A. Toft, D. T. Scott, S. C. Barnett, J. S. Riddell

352

// Brain - 2007. - V. 130, № 4. - P. 970-984.

598. Totoiu, M. O. Spinal cord injury is accompanied by chronic progressive demyelination / M. O. Totoiu, H. S. Keirstead // J. Comp. Neurol. - 2005. - V. 486, № 4. - P. 373-383.

599. Tran, A. P. The biology of regeneration failure and success after spinal cord injury / A. P. Tran, P. M. Warren, J. Silver // Physiol. Rev. - 2018. - V. 98, № 2.

- P. 881-917.

600. Tsai, H.-H. The chemokine receptor CXCR2 controls positioning of oligodendrocyte precursors in developing spinal cord by arresting their migration / H.-H. Tsai, E. Frost, V. To, S. Robinson, R. Geertman, R. M. Ransohoff, R. H. Miller // Cell - 2002. - V. 110, № 3. - P. 373-383.

601. Urdzíková, L. M. Human mesenchymal stem cells modulate inflammatory cytokines after spinal cord injury in rat / L. M. Urdzíková, J. Rúzicka, M. LaBagnara, K. Kárová, S. Kubinová, K. Jiráková, R. Murali, E. Syková, M. Jhanwar-Uniyal, P. Jendelová // Int. J. Mol. Sci. - 2014. - V. 15, № 7. - P. 1127511293.

602. Vacanti, V. Phenotypic changes of adult porcine mesenchymal stem cells induced by prolonged passaging in culture / V. Vacanti, E. Kong, G. Suzuki, K. Sato, J. M. Canty, T. Lee // J. Cell. Physiol. - 2005. - V. 205, № 2. - P. 194-201.

603. Vandamme, T. F. Use of rodents as models of human diseases / T. F. Vandamme // J. Pharm. Bioallied Sci. - 2014. - V. 6, № 1. - P. 2.

604. Varnum, M. M. The classification of microglial activation phenotypes on neurodegeneration and regeneration in Alzheimer's disease brain / M. M. Varnum, T. Ikezu // Arch. Immunol. Ther. Exp. (Warsz). - 2012. - V. 60, № 4.

- P. 251-266.

605. Vazquez, X. M. Determining prognosis after spinal cord injury / X. M. Vazquez, M. S. Rodriguez, J. M. S. Peñaranda, L. Concheiro, J. I. M. Barus // J. Forensic Leg. Med. - 2008. - V. 15, № 1. - P. 20-23.

606. Veeravalli, K. K. Stem cells downregulate the elevated levels of tissue

plasminogen activator in rats after spinal cord injury / K. K. Veeravalli, V. R.

353

Dasari, A. J. Tsung, D. H. Dinh, M. Gujrati, D. Fassett, J. S. Rao // Neurochem. Res. - 2009. - V. 34, № 7. - P. 1183-1194.

607. Vellosillo, L. Adipose tissue-derived stromal cells (ADSC) express oligodendrocyte and myelin markers, but they do not function as oligodendrocytes / L. Vellosillo, M. P. Muñoz, C. L. Paíno // Histochem. Cell Biol. - 2017. - V. 148, № 5. - P. 503-515.

608. Verneris, M. R. The phenotypic and functional characteristics of umbilical cord blood and peripheral blood natural killer cells / M. R. Verneris, J. S. Miller // Br. J. Haematol. - 2009. - V. 147, № 2. - P. 185-191.

609. Vogelaar, C. F. Pharmacological suppression of CNS scarring by deferoxamine reduces lesion volume and increases regeneration in an in vitro model for astroglial-fibrotic scarring and in rat spinal cord injury in vivo / C. F. Vogelaar, B. König, S. Krafft, V. Estrada, N. Brazda, B. Ziegler, A. Faissner, H. W. Müller // PLoS One - 2015. - V. 10, № 7. - P. e0134371.

610. Vries, M. H. M. CXCL1 promotes arteriogenesis through enhanced monocyte recruitment into the peri-collateral space / M. H. M. Vries, A. Wagenaar, S. E. L. Verbruggen, D. G. M. Molin, M. J. Post // Angiogenesis -2015. - V. 18, № 2. - P. 163-171.

611. Wagner, W. Comparative characteristics of mesenchymal stem cells from human bone marrow, adipose tissue, and umbilical cord blood / W. Wagner, F. Wein, A. Seckinger, M. Frankhauser, U. Wirkner, U. Krause, J. Blake, C. Schwager, V. Eckstein, W. Ansorge // Exp. Hematol. - 2005. - V. 33, № 11. -P. 1402-1416.

612. Walker, D. G. Immune phenotypes of microglia in human neurodegenerative disease: challenges to detecting microglial polarization in human brains / D. G. Walker, L.-F. Lue // Alzheimers. Res. Ther. - 2015. - V. 7, № 1. - P. 1-9.

613. Wang, C. Improved neural regeneration with olfactory ensheathing cell inoculated PLGA scaffolds in spinal cord injury adult rats / C. Wang, C. Sun, Z. Hu, X. Huo, Y. Yang, X. Liu, B. O. A. Botchway, H. Davies, M. Fang // Neurosignals - 2017. - V. 25, № 1. - P. 1-14.

614. Wang, H. Mesenchymal stem cells in the Wharton's jelly of the human umbilical cord / H. Wang, S. Hung, S. Peng, C. Huang, H. Wei, Y. Guo, Y. Fu, M. Lai, C. Chen // Stem Cells - 2004. - V. 22, № 7. - P. 1330-1337.

615. Wang, J. Bone marrow mesenchymal stem cells promote cell proliferation and neurotrophic function of Schwann cells in vitro and in vivo / J. Wang, F. Ding, Y. Gu, J. Liu, X. Gu // Brain Res. - 2009. - V. 1262. - P. 7-15.

616. Wang, J. Nogo-A expression dynamically varies after spinal cord injury / J. Wang, J. Yang, Y. Ma, Z. Hua, Y. Guo, X. Gu, Y. Zhang // Neural Regen. Res.

- 2015. - V. 10, № 2. - P. 225.

617. Wang, J. A protein-based hydrogel for in vitro expansion of mesenchymal stem cells / J. Wang, J. Zhang, X. Zhang, H. Zhou // PLoS One - 2013. - V. 8, № 9. - P. e75727.

618. Wang, N. Mesenchymal stem cells attenuate peritoneal injury through secretion of TSG-6 / N. Wang, Q. Li, L. Zhang, H. Lin, J. Hu, D. Li, S. Shi, S. Cui, J. Zhou, J. Ji // PLoS One - 2012. - V. 7, № 8. - P. e43768.

619. Wang, W. Genetic engineering of mesenchymal stem cells by non-viral gene delivery / W. Wang, X. Xu, Z. Li, A. Lendlein, N. Ma // Clin. Hemorheol. Microcirc. - 2014. - V. 58, № 1. - P. 19-48.

620. Wang, X. Recovery from chronic spinal cord contusion after Nogo receptor intervention / X. Wang, P. Duffy, A. W. McGee, O. Hasan, G. Gould, N. Tu, N. Y. Harel, Y. Huang, R. E. Carson, D. Weinzimmer // Ann. Neurol. - 2011. - V. 70, № 5. - P. 805-821.

621. Wang, Y.-T. Immunotherapy strategies for spinal cord injury / Y.-T. Wang, X.-M. Lu, K.-T. Chen, Y.-H. Shu, C.-H. Qiu // Curr. Pharm. Biotechnol. - 2015.

- V. 16, № 6. - P. 492-505.

622. Wang, Z.-Y. Beclin-1-mediated autophagy protects spinal cord neurons against mechanical injury-induced apoptosis / Z.-Y. Wang, J.-H. Lin, A. Muharram, W.-G. Liu // Apoptosis - 2014. - V. 19, № 6. - P. 933-945.

623. Wang, Z. Autophagy protects against PI3K/Akt/mTOR-mediated apoptosis

of spinal cord neurons after mechanical injury / Z. Wang, L. Zhou, X. Zheng, G.

355

Chen, R. Pan, J. Li, W. Liu // Neurosci. Lett. - 2017. - V. 656. - P. 158-164.

624. Wanner, I. B. Glial scar borders are formed by newly proliferated, elongated astrocytes that interact to corral inflammatory and fibrotic cells via STAT3-dependent mechanisms after spinal cord injury / I. B. Wanner, M. A. Anderson, B. Song, J. Levine, A. Fernandez, Z. Gray-Thompson, Y. Ao, M. V Sofroniew // J. Neurosci. - 2013. - V. 33, № 31. - P. 12870-12886.

625. Wanner, I. B. A new in vitro model of the glial scar inhibits axon growth / I. B. Wanner, A. Deik, M. Torres, A. Rosendahl, J. T. Neary, V. P. Lemmon, J. L. Bixby // Glia - 2008. - V. 56, № 15. - P. 1691-1709.

626. Ward, R. E. A characterization of white matter pathology following spinal cord compression injury in the rat / R. E. Ward, W. Huang, M. Kostusiak, P. N. Pallier, A. T. Michael-Titus, J. V Priestley // Neuroscience - 2014. - V. 260. -P. 227-239.

627. Watila, M. M. Molecular and clinical features of inherited neuropathies due to PMP22 duplication / M. M. Watila, S. A. Balarabe // J. Neurol. Sci. - 2015. -V. 355, № 1-2. - P. 18-24.

628. Watson, C. The spinal cord: a Christopher and Dana Reeve Foundation text and atlas / C. Watson, G. Paxinos, G. Kayalioglu - Academic press, 2009.

629. Wegener, A. Gain of Olig2 function in oligodendrocyte progenitors promotes remyelination / A. Wegener, C. Deboux, C. Bachelin, M. Frah, C. Kerninon, D. Seilhean, M. Weider, M. Wegner, B. Nait-Oumesmar // Brain - 2015. - V. 138, № 1. - P. 120-135.

630. Weisser, S. B. Generation and characterization of murine alternatively activated macrophages / S. B. Weisser, K. W. McLarren, E. Kuroda, L. M. Sly // Basic Cell Culture Protocols. - Humana Press, Totowa, NJ, 2013. - P. 225-239.

631. Wernersson, R. Pigs in sequence space: a 0.66 X coverage pig genome survey based on shotgun sequencing / R. Wernersson, M. H. Schierup, F. G. J0rgensen, J. Gorodkin, F. Panitz, H.-H. Sterfeldt, O. F. Christensen, T. Mailund, H. Hornsh0j, A. Klein // BMC Genomics - 2005. - V. 6, № 1. - P. 1-7.

632. Widenfalk, J. Neurotrophic factors and receptors in the immature and adult

356

spinal cord after mechanical injury or kainic acid / J. Widenfalk, K. Lundströmer, M. Jubran, S. Brene, L. Olson // J. Neurosci. - 2001. - V. 21, № 10. - P. 34573475.

633. Wilhelmsson, U. Absence of glial fibrillary acidic protein and vimentin prevents hypertrophy of astrocytic processes and improves post-traumatic regeneration / U. Wilhelmsson, L. Li, M. Pekna, C.-H. Berthold, S. Blom, C. Eliasson, O. Renner, E. Bushong, M. Ellisman, T. E. Morgan // J. Neurosci. -2004. - V. 24, № 21. - P. 5016-5021.

634. Williams, R. R. Permissive Schwann cell graft/spinal cord interfaces for axon regeneration / R. R. Williams, M. Henao, D. D. Pearse, M. B. Bunge // Cell Transplant. - 2015. - V. 24, № 1. - P. 115-131.

635. Willing, A. E. Umbilical cord blood transfusions for prevention of progressive brain injury and induction of neural recovery: an immunological perspective / A. E. Willing, D. J. Eve, P. R. Sanberg - 2007.

636. Windle, W. F. Regeneration of axons in the vertebrate central nervous system / W. F. Windle // Physiol. Rev. - 1956. - V. 36, № 4. - P. 427-440.

637. Windle, W. F. Inhibition of formation of a glial barrier as a means of permitting a peripheral nerve to grow into the brain / W. F. Windle, C. D. Clemente, W. W. Chambers // J. Comp. Neurol. - 1952. - V. 96, № 2. - P. 359369.

638. Woltjen, K. piggyBac transposition reprograms fibroblasts to induced pluripotent stem cells / K. Woltjen, I. P. Michael, P. Mohseni, R. Desai, M. Mileikovsky, R. Hämäläinen, R. Cowling, W. Wang, P. Liu, M. Gertsenstein // Nature - 2009. - V. 458, № 7239. - P. 766-770.

639. Wright, K. T. Concise review: bone marrow for the treatment of spinal cord injury: mechanisms and clinical applications / K. T. Wright, W. El Masri, A. Osman, J. Chowdhury, W. E. B. Johnson // Stem Cells - 2011. - V. 29, № 2. -P. 169-178.

640. Wright, K. T. Bone marrow stromal cells stimulate neurite outgrowth over

neural proteoglycans (CSPG), myelin associated glycoprotein and Nogo-A / K.

357

T. Wright, W. El Masri, A. Osman, S. Roberts, G. Chamberlain, B. A. Ashton, W. E. B. Johnson // Biochem. Biophys. Res. Commun. - 2007. - V. 354, № 2. -P. 559-566.

641. Wu, L. Fibroblast growth factor-1 is a mesenchymal stromal cell-secreted factor stimulating proliferation of osteoarthritic chondrocytes in co-culture / L. Wu, J. Leijten, C. A. van Blitterswijk, M. Karperien // Stem Cells Dev. - 2013.

- V. 22, № 17. - P. 2356-2367.

642. Wu, X. Cytokine-induced neutrophil chemoattractant mediates neutrophil influx in immune complex glomerulonephritis in rat. / X. Wu, A. J. Wittwer, L. S. Carr, B. A. Crippes, J. E. DeLarco, J. B. Lefkowith // J. Clin. Invest. - 1994.

- V. 94, № 1. - P. 337-344.

643. Xiong, L.-L. Bone marrow mesenchymal stem-cell transplantation promotes functional improvement associated with CNTF-STAT3 activation after hemi-sectioned spinal cord injury in tree shrews / L.-L. Xiong, F. Liu, B.-T. Lu, W.-L. Zhao, X.-J. Dong, J. Liu, R.-P. Zhang, P. Zhang, T.-H. Wang // Front. Cell. Neurosci. - 2017. - V. 11. - P. 172.

644. Xiong, Y. Role of peroxynitrite in secondary oxidative damage after spinal cord injury / Y. Xiong, A. G. Rabchevsky, E. D. Hall // J. Neurochem. - 2007. -V. 100, № 3. - P. 639-649.

645. Xu, X. Sox9 knockout mice have improved recovery following stroke / X. Xu, B. Bass, W. M. McKillop, J. Mailloux, T. Liu, N. M. Geremia, T. Hryciw, A. Brown // Exp. Neurol. - 2018. - V. 303. - P. 59-71.

646. Xu, Y. Increase in bFGF-responsive neural progenitor population following contusion injury of the adult rodent spinal cord / Y. Xu, M. Kitada, M. Yamaguchi, M. Dezawa, C. Ide // Neurosci. Lett. - 2006. - V. 397, № 3. - P. 174-179.

647. Yalvac, M. E. Isolation and characterization of stem cells derived from human third molar tooth germs of young adults: implications in neovascularization, osteo-, adipo-and neurogenesis / M. E. Yalvac, M.

Ramazanoglu, A. A. Rizvanov, F. Sahin, O. F. Bayrak, U. Salli, A. Palotas, G.

358

T. Kose // Pharmacogenomics J. - 2010. - V. 10, № 2. - P. 105-113.

648. Yalva?, M. E. Characterization of the secretome of human tooth germ stem cells (hTGSCs) reveals neuro-protection by fine-tuning micro-environment / M. E. Yalva?, A. Yarat, D. Mercan, A. A. Rizvanov, A. Palotas, F. §ahin // Brain. Behav. Immun. - 2013. - V. 32. - P. 122-130.

649. Yamagami, S. Differential production of MCP-1 and cytokine-induced neutrophil chemoattractant in the ischemic brain after transient focal ischemia in rats / S. Yamagami, M. Tamura, M. Hayashi, N. Endo, H. Tanabe, Y. Katsuura, K. Komoriya // J. Leukoc. Biol. - 1999. - V. 65, № 6. - P. 744-749.

650. Yamaguchi, Y. Lecticans: organizers of the brain extracellular matrix / Y. Yamaguchi // Cell. Mol. Life Sci. C. - 2000. - V. 57, № 2. - P. 276-289.

651. Yamauchi, J. Neurotrophins regulate Schwann cell migration by activating divergent signaling pathways dependent on Rho GTPases / J. Yamauchi, J. R. Chan, E. M. Shooter // Proc. Natl. Acad. Sci. - 2004. - V. 101, № 23. - P. 87748779.

652. Yan, H. NT-3 weakly stimulates proliferation of adult rat O1- O4+ oligodendrocyte-lineage cells and increases oligodendrocyte myelination in vitro / H. Yan, P. M. Wood // J. Neurosci. Res. - 2000. - V. 62, № 3. - P. 329-335.

653. Yan, X. Proteomic profiling of proteins in rat spinal cord induced by contusion injury / X. Yan, J. Liu, Z. Luo, Q. Ding, X. Mao, M. Yan, S. Yang, X. Hu, J. Huang, Z. Luo // Neurochem. Int. - 2010. - V. 56, № 8. - P. 971-983.

654. Yang, C. Repeated injections of human umbilical cord blood-derived mesenchymal stem cells significantly promotes functional recovery in rabbits with spinal cord injury of two noncontinuous segments / C. Yang, G. Wang, F. Ma, B. Yu, F. Chen, J. Yang, J. Feng, Q. Wang // Stem Cell Res. Ther. - 2018. -V. 9, № 1. - P. 1-17.

655. Yang, J.-P. Direct transport of VEGF from the nasal cavity to brain / J.-P. Yang, H.-J. Liu, S.-M. Cheng, Z.-L. Wang, X. Cheng, H.-X. Yu, X.-F. Liu // Neurosci. Lett. - 2009. - V. 449, № 2. - P. 108-111.

656. Yang, J. The impact of GFP reporter gene transduction and expression on

359

metabolomics of placental mesenchymal stem cells determined by UHPLC-Q/TOF-MS / J. Yang, N. Wang, D. Chen, J. Yu, Q. Pan, D. Wang, J. Liu, X. Shi, X. Dong, H. Cao // Stem Cells Int. - 2017. - V. 2017.

657. Yatsiv, I. Elevated intracranial IL-18 in humans and mice after traumatic brain injury and evidence of neuroprotective effects of IL-18—Binding protein after experimental closed head injury / I. Yatsiv, M. C. Morganti-Kossmann, D. Perez, C. A. Dinarello, D. Novick, M. Rubinstein, V. I. Otto, M. Rancan, T. Kossmann, C. A. Redaelli // J. Cereb. Blood Flow Metab. - 2002. - V. 22, № 8. - P. 971-978.

658. Ye, J. The effects of ciliary neurotrophic factor on neurological function and glial activity following contusive spinal cord injury in the rats / J. Ye, L. Cao, R. Cui, A. Huang, Z. Yan, C. Lu, C. He // Brain Res. - 2004. - V. 997, № 1. - P. 30-39.

659. Yi, X. Neuregulin-1 impacting bone marrow mesenchymal stem cell migration is conducive to functional recovery following spinal cord injury / X. Yi, Y. Chen, G. Tu // Mol. Med. Rep. - 2019. - V. 20, № 1. - P. 41-48.

660. Yick, L.-W. Peripheral nerve graft and neurotrophic factors enhance neuronal survival and expression of nitric oxide synthase in Clarke's nucleus after hemisection of the spinal cord in adult rat / L.-W. Yick, W. Wu, K.-F. So, H. K. Yip // Exp. Neurol. - 1999. - V. 159, № 1. - P. 131-138.

661. Yin, A. H. AC133, a novel marker for human hematopoietic stem and progenitor cells / A. H. Yin, S. Miraglia, E. D. Zanjani, G. Almeida-Porada, M. Ogawa, A. G. Leary, J. Olweus, J. Kearney, D. W. Buck // Blood, J. Am. Soc. Hematol. - 1997. - V. 90, № 12. - P. 5002-5012.

662. Yin, H. Non-viral vectors for gene-based therapy / H. Yin, R. L. Kanasty, A. A. Eltoukhy, A. J. Vegas, J. R. Dorkin, D. G. Anderson // Nat. Rev. Genet. -2014. - V. 15, № 8. - P. 541-555.

663. Yokota, K. Engrafted neural stem/progenitor cells promote functional recovery through synapse reorganization with spared host neurons after spinal

cord injury / K. Yokota, K. Kobayakawa, K. Kubota, A. Miyawaki, H. Okano,

360

Y. Ohkawa, Y. Iwamoto, S. Okada // Stem cell reports - 2015. - V. 5, № 2. - P. 264-277.

664. Yoshihara, H. Combining motor training with transplantation of rat bone marrow stromal cells does not improve repair or recovery in rats with thoracic contusion injuries / H. Yoshihara, J. S. Shumsky, B. Neuhuber, T. Otsuka, I. Fischer, M. Murray // Brain Res. - 2006. - V. 1119, № 1. - P. 65-75.

665. You, S. The expression of the low affinity nerve growth factor receptor in long-term denervated Schwann cells / S. You, T. Petrov, P. H. Chung, T. Gordon // Glia - 1997. - V. 20, № 2. - P. 87-100.

666. Young, W. Spinal cord regeneration / W. Young // Cell Transplant. - 2014. -V. 23, № 4-5. - P. 573-611.

667. Yu, H. Analgesia for neuropathic pain by dorsal root ganglion transplantation of genetically engineered mesenchymal stem cells: initial results / H. Yu, G. Fischer, A. D. Ebert, H.-E. Wu, X. Bai, Q. H. Hogan // Mol. Pain - 2015. - V. 11. - P. s12990-015.

668. Yu, J. Human induced pluripotent stem cells free of vector and transgene sequences / J. Yu, K. Hu, K. Smuga-Otto, S. Tian, R. Stewart, I. I. Slukvin, J. A. Thomson // Science (80-. ). - 2009. - V. 324, № 5928. - P. 797-801.

669. Yu, J. Induced pluripotent stem cell lines derived from human somatic cells / J. Yu, M. A. Vodyanik, K. Smuga-Otto, J. Antosiewicz-Bourget, J. L. Frane, S. Tian, J. Nie, G. A. Jonsdottir, V. Ruotti, R. Stewart // Science (80-. ). - 2007. -V. 318, № 5858. - P. 1917-1920.

670. Yu, Y. Effects of human umbilical cord blood CD34+ cell transplantation in neonatal hypoxic-ischemia rat model / Y. Yu, Y. Yan, Z. Luo, P. Luo, N. Xiao, X. Sun, L. Cheng // Brain Dev. - 2019. - V. 41, № 2. - P. 173-181.

671. Yuan, Y.-M. The glial scar in spinal cord injury and repair / Y.-M. Yuan, C. He // Neurosci. Bull. - 2013. - V. 29, № 4. - P. 421-435.

672. Yui, S. Olfactory ensheathing cells (OECs) degrade neurocan in injured spinal cord by secreting matrix metalloproteinase-2 in a rat contusion model / S. Yui,

N. Fujita, C.-S. Chung, M. Morita, R. Nishimura // Jpn. J. Vet. Res. - 2014. - V.

361

62, № 4. - P. 151-162.

673. Yuksel, U. The investigation of the Cox-2 selective inhibitor parecoxib effects in spinal cord injury in rat / U. Yuksel, B. Bakar, G. C. Dincel, F. A. B. Yildiran, M. Ogden, U. Kisa // J. Investig. Surg. - 2018.

674. Zachar, L. Activation, homing, and role of the mesenchymal stem cells in the inflammatory environment / L. Zachar, D. Bacenkova, J. Rosocha // J. Inflamm. Res. - 2016. - V. 9. - P. 231.

675. Zaehres, H. Induction of pluripotency in human cord blood unrestricted somatic stem cells / H. Zaehres, G. Kögler, M. J. Arauzo-Bravo, M. Bleidissel, S. Santourlidis, S. Weinhold, B. Greber, J. B. Kim, A. Buchheiser, S. Liedtke // Exp. Hematol. - 2010. - V. 38, № 9. - P. 809-818.

676. Zaibak, F. Unrestricted somatic stem cells from human umbilical cord blood grow in serum-free medium as spheres / F. Zaibak, P. Bello, J. Kozlovski, D. Crombie, H. Ang, M. Dottori, R. Williamson // BMC Biotechnol. - 2009. - V. 9, № 1. - P. 1-16.

677. Zawadzka, M. CNS-resident glial progenitor/stem cells produce Schwann cells as well as oligodendrocytes during repair of CNS demyelination / M. Zawadzka, L. E. Rivers, S. P. J. Fancy, C. Zhao, R. Tripathi, F. Jamen, K. Young,

A. Goncharevich, H. Pohl, M. Rizzi // Cell Stem Cell - 2010. - V. 6, № 6. - P. 578-590.

678. Zeng, X. Autocrine fibronectin from differentiating mesenchymal stem cells induces the neurite elongation in vitro and promotes nerve fiber regeneration in transected spinal cord injury / X. Zeng, Y. Ma, Y. Chen, X. Qiu, J. Wu, E. Ling, Y. Zeng // J. Biomed. Mater. Res. Part A - 2016. - V. 104, № 8. - P. 1902-1911.

679. Zeng, X. Bone marrow mesenchymal stem cells in a three-dimensional gelatin sponge scaffold attenuate inflammation, promote angiogenesis, and reduce cavity formation in experimental spinal cord injury / X. Zeng, Y. Zeng, Y. Ma, L. Lu,

B. Du, W. Zhang, Y. Li, W. Y. Chan // Cell Transplant. - 2011. - V. 20, № 1112. - P. 1881-1899.

680. Zhang, F. Transforming growth factor-ß promotes recruitment of bone

362

marrow cells and bone marrow-derived mesenchymal stem cells through stimulation of MCP-1 production in vascular smooth muscle cells / F. Zhang, S. Tsai, K. Kato, D. Yamanouchi, C. Wang, S. Rafii, B. Liu, K. C. Kent // J. Biol. Chem. - 2009. - V. 284, № 26. - P. 17564-17574.

681. Zhang, J.-M. Cytokines, inflammation and pain / J.-M. Zhang, J. An // Int. Anesthesiol. Clin. - 2007. - V. 45, № 2. - P. 27.

682. Zhang, J. The effects of co-transplantation of olfactory ensheathing cells and Schwann cells on local inflammation environment in the contused spinal cord of rats / J. Zhang, H. Chen, Z. Duan, K. Chen, Z. Liu, L. Zhang, D. Yao, B. Li // Mol. Neurobiol. - 2017. - V. 54, № 2. - P. 943-953.

683. Zhang, L. GDNF-enhanced axonal regeneration and myelination following spinal cord injury is mediated by primary effects on neurons / L. Zhang, Z. Ma, G. M. Smith, X. Wen, Y. Pressman, P. M. Wood, X. Xu // Glia - 2009. - V. 57, № 11. - P. 1178-1191.

684. Zhang, Q. Human gingiva-derived mesenchymal stem cells elicit polarization of m2 macrophages and enhance cutaneous wound healing / Q. Zhang, W. Su, S. Shi, P. Wilder-Smith, A. P. Xiang, A. Wong, A. L. Nguyen, C. W. Kwon, A. D. Le // Stem Cells - 2010. - V. 28, № 10. - P. 1856-1868.

685. Zhang, R. Activated neural stem cells contribute to stroke-induced neurogenesis and neuroblast migration toward the infarct boundary in adult rats / R. Zhang, Z. Zhang, L. Wang, Y. Wang, A. Gousev, L. Zhang, K.-L. Ho, C. Morshead, M. Chopp // J. Cereb. Blood Flow Metab. - 2004. - V. 24, № 4. - P. 441-448.

686. Zhang, S. Role of endogenous Schwann cells in tissue repair after spinal cord injury / S. Zhang, F. Huang, M. Gates, E. G. Holmberg // Neural Regen. Res. -2013. - V. 8, № 2. - P. 177.

687. Zhang, S. Histological repair of damaged spinal cord tissue from chronic contusion injury of rat: a LM observation / S. Zhang, F. Huang, M. Gates, J. White, E. G. Holmberg // Histol. Histopathol. Vol. 26, no 1 - 2011.

688. Zhang, X. Cyclooxygenase-2 regulates mesenchymal cell differentiation into

363

the osteoblast lineage and is critically involved in bone repair / X. Zhang, E. M. Schwarz, D. A. Young, J. E. Puzas, R. N. Rosier, R. J. O'Keefe // J. Clin. Invest.

- 2002. - V. 109, № 11. - P. 1405-1415.

689. Zhang, Z.-J. Chemokine contribution to neuropathic pain: respective induction of CXCL1 and CXCR2 in spinal cord astrocytes and neurons / Z.-J. Zhang, D.-L. Cao, X. Zhang, R.-R. Ji, Y.-J. Gao // PAIN® - 2013. - V. 154, № 10. - P. 2185-2197.

690. Zhao, Y. GDNF-transfected macrophages produce potent neuroprotective effects in Parkinson's disease mouse model / Y. Zhao, M. J. Haney, R. Gupta, J. P. Bohnsack, Z. He, A. V Kabanov, E. V Batrakova // PLoS One - 2014. - V. 9, № 9. - P. e106867.

691. Zhou, H.-L. Transplantation of human amniotic mesenchymal stem cells promotes functional recovery in a rat model of traumatic spinal cord injury / H.-L. Zhou, X.-J. Zhang, M.-Y. Zhang, Z.-J. Yan, Z.-M. Xu, R.-X. Xu // Neurochem. Res. - 2016. - V. 41, № 10. - P. 2708-2718.

692. Zhou, X. TGF p1 inhibits IFN y-mediated microglia activation and protects mDA neurons from IFN y-driven neurotoxicity / X. Zhou, T. Zoller, K. Krieglstein, B. Spittau // J. Neurochem. - 2015. - V. 134, № 1. - P. 125-134.

693. Zhu, H. Phase I-II clinical trial assessing safety and efficacy of umbilical cord blood mononuclear cell transplant therapy of chronic complete spinal cord injury / H. Zhu, W. Poon, Y. Liu, G. K.-K. Leung, Y. Wong, Y. Feng, S. C. P. Ng, K. S. Tsang, D. T. F. Sun, D. K. Yeung // Cell Transplant. - 2016. - V. 25, № 11. - P. 1925-1943.

694. Zhu, S. IL-17/IL-17 receptor system in autoimmune disease: mechanisms and therapeutic potential / S. Zhu, Y. Qian // Clin. Sci. - 2012. - V. 122, № 11. - P. 487-511.

695. Zhu, Y. Hematogenous macrophage depletion reduces the fibrotic scar and increases axonal growth after spinal cord injury / Y. Zhu, C. Soderblom, V. Krishnan, J. Ashbaugh, J. R. Bethea, J. K. Lee // Neurobiol. Dis. - 2015. - V. 74.

- P. 114-125.

696. Zhu, Y. Fibronectin matrix assembly after spinal cord injury / Y. Zhu, C. Soderblom, M. Trojanowsky, D.-H. Lee, J. K. Lee // J. Neurotrauma - 2015. -V. 32, № 15. - P. 1158-1167.

697. Zhu, Y. Neural stem cell therapy aiming at better functional recovery after spinal cord injury / Y. Zhu, N. Uezono, T. Yasui, K. Nakashima // Dev. Dyn. -2018. - V. 247, № 1. - P. 75-84.

698. Zimmer, M. EphB-ephrinB bi-directional endocytosis terminates adhesion allowing contact mediated repulsion / M. Zimmer, A. Palmer, J. Köhler, R. Klein // Nat. Cell Biol. - 2003. - V. 5, № 10. - P. 869-878.

699. Zola, H. Expression of cytokine receptors by human cord blood lymphocytes: comparison with adult blood lymphocytes / H. Zola, M. Fusco, P. J. Macardle, L. Flego, D. Roberton // Pediatr. Res. - 1995. - V. 38, № 3. - P. 397-403.

700. Zujovic, V. Remyelination of the central nervous system: a valuable contribution from the periphery / V. Zujovic, C. Bachelin, A. Baron-Van Evercooren // Neurosci. - 2007. - V. 13, № 4. - P. 383-391.

701. Zukor, K. Short hairpin RNA against PTEN enhances regenerative growth of corticospinal tract axons after spinal cord injury / K. Zukor, S. Belin, C. Wang, N. Keelan, X. Wang, Z. He // J. Neurosci. - 2013. - V. 33, № 39. - P. 1535015361.

702. Zurita, M. The pig model of chronic paraplegia: a challenge for experimental studies in spinal cord injury / M. Zurita, C. Aguayo, C. Bonilla, L. Otero, M. Rico, A. Rodriguez, J. Vaquero // Prog. Neurobiol. - 2012. - V. 97, № 3. - P. 288-303.

703. Zurita, M. Bone marrow stromal cells can achieve cure of chronic paraplegic rats: functional and morphological outcome one year after transplantation / M. Zurita, J. Vaquero // Neurosci. Lett. - 2006. - V. 402, № 1-2. - P. 51-56.

704. Zurita, M. Functional recovery of chronic paraplegic pigs after autologous transplantation of bone marrow stromal cells / M. Zurita, J. Vaquero, C. Bonilla, M. Santos, J. De Haro, S. Oya, C. Aguayo // Transplantation - 2008. - V. 86, № 6. - P. 845-853.