Механизмы активации защитных сигнальных путей нейронов головного мозга при гипоксии и ишемии тема диссертации и автореферата по ВАК РФ 03.01.02, доктор наук Туровский Егор Александрович

Введение

Актуальность проблемы.

Ишемия мозга сопровождается гипоксией ткани и глутаматной эксайтотоксичностью, которые способствуют гибели клеток мозга и усугубляют течение инсульта. Молекулярные механизмы, лежащие в основе этих явлений многогранны и сложны. Гипоксия вызывает высвобождение глутамата и других нейротрансмиттеров, активирует глутаматные рецепторы, различные каналы плазматической мембраны. При гипоксии наблюдается усиление синтеза и выделения белков-регуляторов окислительного стресса, воспаления, апоптоза и синаптической передачи (Ferdinandy et al., 2007; Walsh et al., 2009). Эпизоды гипоксии оказывают нейропротекторное действие на нейроны при последующей глобальной ишемии и длительной гипоксии ингибируя повышение [Са2+] (Turovskaya et al., 2020). Однако помимо защитного действия, кратковременные эпизоды гипоксии способны вызывать отрицательный эффект постгипоксического гипервозбуждения (Туровская и др., 2012), приводящий к повреждению ГАМКергических нейронов. Гипоксические явления в определенных условиях являются триггером для нейродегенеративных заболеваний - болезни Альцгеймера, Паркинсона и др. Известно, что люди с синдромом гипервозбудимости плохо контролируют свое поведение и страдают рядом нейродегенеративных заболеваний. Синдром гипервозбудимости — одно из наиболее частых неврологических расстройств у детей раннего возраста (Vytla et al., 2012).

Ключевым событием, происходящим во время реоксигенации (реперфузии) после гипоксии/ишемии, является окислительный стресс, а нервная ткань наиболее уязвима к повреждающему действию свободных радикалов, поскольку мозг обладает высокой интенсивностью обменных процессов на фоне низких запасов энергии и слабой антиоксидантной защиты. При этом ведутся дискуссии о механизмах, активация которых необходима для защиты клеток мозга от окислительного стресса, однако очевидным является необходимость изучения механизмов нейропротекторного действия известных природных и синтетических антиоксидантов, также как и создание новых.

Дополнительным фундаментальным препятствием для понимания механизмов повреждения или выживаемости клеток в условиях гипоксии/ишемии является различная их чувствительность даже в пределах одного отдела мозга или типа клеток. На настоящий момент практически нет единого мнения о физиологии и локализации молекулярных сенсоров парциального давления кислорода в паренхиме мозга. Значительная часть исследователей предполагает, что сенсором кислорода в мозге являются О2-

чувствительные К+-каналы (Neubauer and Sunderram, 2004), тогда как другие группы ученых не согласны с этим, и считают сенсором О2 - НАДФН-оксидазу (Archer et al., 1999) или митохондрии (Angelova et al., 2015; Chandel and Schumacker, 2000), которые потребляют практически весь доступный кислород.

Сведения о механизмах гибели и выживания нейронов, связь этих процессов с активацией провоспалительных и противовоспалительных путей передачи сигналов в условиях гипоксии/ишемии крайне ограничены. В тоже время не вызывает сомнения, что ведущим фундаментальным принципом организации биологических систем на различных уровнях является существование повреждающих (вызывающих гибель клеток) и протектирующих (способствующих выживанию клеток) внутриклеточных сигнальных путей, которые индуцируются в ответ на стрессовые (потенциально патологические) стимулы. Такие повреждающие и протектирующие сигнальные каскады активируются в нейронах и астроцитах при гипоксии/ишемии. Понимание принципов взаимодействия данных сигнальных систем имеет важное социально-ориентированное значение для разработки новых подходов к профилактике и терапии инсульта мозга, а также созданию нового класса лекарственных препаратов, устраняющих негативные последствия повреждения клеток мозга после ишемии.

Развитию более эффективных и безопасных методов профилактики и лечения инсультов препятствует отсутствие бесспорных знаний о механизмах повреждения нейроглиальных сетей, индукции процессов воспаления и апоптоза, так же как и одновременно индуцируемых нейропротекторных механизмах - активности различных кальций-связывающих белков, усиления экспрессии нейротрофинов и активации прекондиционирования. У 85% пациентов, перенесших инсульт, его причиной является окклюзия/закупорка артерии в мозге. Быстрое восстановление кровотока в мозге является наиболее часто применяемым способом лечения инсультов с целью уменьшения площади некроза мозговой ткани. Однако большая часть пациентов, которые перенесли инсульт, не способны в полной мере осуществлять трудовую деятельность. Хотя своевременное восстановление кровотока в передних и средних мозговых артериях является необходимым для защиты ишемизированной ткани мозга, тем не менее, реоксигенация часто способствует повреждению ткани мозга и ухудшает течение болезни.

В связи с вышесказанным, мы стали развивать одновременно два основных направления фундаментальных исследований - 1) изучение механизмов повреждения и гибели различных популяций нейронов в условиях повторяющихся эпизодов гипоксии-

реоксигенации и ишемии; 2) изучение внутриклеточных механизмов, необходимых для активации сигнальных путей эндогенной защиты нейронов мозга.

В работе показаны пути передачи внутриклеточных сигналов от сенсора к эффектору в нейронах и астроцитах во время снижения парциального давления кислорода. Установлены физиологические параметры, которые определяют различную чувствительность глутаматергических и ГАМКергических нейронов к гипоксии и, как следствие, выживание одних клеток и гибель других в условиях длительной гипоксии и ишемии. С помощью моделей исследований in vitro были выявлены внутриклеточные механизмы, ответственные за активацию феномена гипоксического прекондиционирования в глутаматергических нейронах и недостаточность ряда сигнальных систем, препятствующих активации данного феномена в ГАМКергических нейронах. На основе фундаментальных знаний, полученных при выполнении работы, был определен круг нейропротекторных соединений, способствующих активации защитных механизмов в наиболее чувствительных к гипоксии/ишемии популяциях ГАМКергических нейронов. С помощью технологий клеточного нокдауна и аденоассоциированной трансдукции конструктов, селективно несущих необходимую генетическую последовательность, продемонстрирована ведущая роль экспрессии и везикулярной секреции мозгоспецифического нейротрофического фактора BDNF в выживании нейронов мозга в условиях ишемии и его необходимость для активации гипоксического прекондиционирования в ГАМКергических нейронах. С помощью кондиционного удаления транскрипционного фактора Sipl в коре головного мозга мышей нам удалось доказать возможность активации гипоксического прекондиционирования через воздействие на альтернативные (не поврежденные при нокауте) сигнальные пути.

Цель и задачи исследования

Целью данной работы явилось исследование механизмов повреждения клеток мозга при гипоксии, ишемии и реоксигенации, а также поиск эффективных нейропротекторных стратегий для наиболее уязвимых популяций ГАМКергических нейронов. Задачи исследования:

1) Изучение молекулярных и клеточных механизмов функциональной чувствительности нейронов и астроцитов мозга к гипоксии.

2) Изучение механизмов селективного повреждения ГАМКергических нейронов во время эпизодов гипоксии/реоксигенации, роли постгипоксического гипервозбуждения и динамики концентрации цитозольного кальция.

3) Изучение эндогенных защитных механизмов глутаматергических (гипоксическое прекондиционирование) и ГАМКергических (кальций-связывающие белки) нейронов в условиях гипоксии/реоксигенации. Поиск фармакологических и генетических способов активации защитных механизмов в ГАМКергических нейронах и в коре мозга мышей с мутацией транскрипционного фактора Sipl.

4) Изучение эффектов ишемии (ишемия-подобные условия, OGD) на кальциевую динамику, продукцию АФК и гибель глутаматергических и ГАМКергических нейронов. Выяснение роли кальций-связывающих белков в качестве основного эндогенного нейропротекторного механизма ГАМКергических нейронов.

5) Изучение механизмов нейропротекторного действия противовоспалительного цитокина ИЛ-10, антиоксиданта таксифолина и мозгоспецифического нейротрофина (BDNF) на глутаматергические и ГАМКергические нейроны гиппокампа при ишемии и их влияния на экспрессию генов, кодирующих защитные белки.

6) Изучение механизмов нейропротекторного эффекта агонистов а2-адренергических рецепторов и нейроглиального взаимодействия при ишемии и гипервозбуждении в нейрональной сети.

Научная новизна работы.

В работе показано, что как нейроны, так и астроциты различных отделов мозга способны реагировать повышением [Ca2+]i на снижение рО2 в окружающей среде, поскольку обладают схожими механизмами передачи сигналов от внутриклеточного сенсора уровня О2 (локализован в митохондриях) через активацию фосфолипаз, перекисное окисление липидов и усиление продукции АФК, что вызывает мобилизацию ионов Са2+ из тапсигаргин-чувствительного пула эндоплазматического ретикулума. Впервые обнаружено, что астроциты являются первичными по отношению к нейронам, сенсорами гипоксии, поскольку именно они первыми реагируют на гипоксию не только в модели in vivo, но и в клеточных культурах, где для более чем 30% астроцитов характерно появление Са2+-сигналов, тогда как только 10-15% нейронов реагируют на гипоксию Са2+-сигналами, что связано с угнетающим действием гипоксии на возбудимость нейронов.

Установлено различное действие гипоксии на глутаматергические и ГАМКергические нейроны мозга in vitro, когда снижение рО2 вызывает в глутаматергических нейронах генерацию одиночных Са2+-импульсов или Са2+-осцилляций, а в ГАМКергических - происходит глобальное повышение [Ca ]i, приводящее к их повреждению и гибели.

Подтверждение повышенной уязвимости ГАМКергических нейронов к гипоксии получено на модели повторяющихся кратковременных эпизодов гипоксии-реоксигенации, в которой в ГАМКергических нейронах, в отличие от глутаматергических, не наблюдалось феномена гипоксического прекондиционирования, а происходящее при этом постгипоксическое гипервозбуждение приводило к их гибели. В данном ключе впервые был описан внутриклеточный сигнальный путь, отвечающий за генерацию Са2+-сигналов в нейронах во время реоксигенации (s[Ca ]i) и являющийся признаком постгипоксического гипервозбуждения сети. Подавление постгипоксического гипервозбуждения нейронов происходит при активации фосфоинозитид-3-киназы (PI3K), а образование PIP3 активирует PDK и Akt/PKB, что приводит к активации NO-синтазы, усилению продукции NO и активации гуанилатциклазы (sGC), наработке циклического ГМФ и активации PKG, которая ингибирует IP3R и мобилизацию ионов Са из ЭПР, что способствует выживанию обоих типов нейронов.

С помощью ингибиторного анализа впервые показан полный механизм формирования быстрого гипоксического прекондиционирования как глутаматергических, так и ГАМКергических нейронов. В формирование данного феномена нейропластичности вовлечены киназы PI3K, PKG и NO-синтаза, активация которых способствует прекондиционированию (особенно в популяции ГАМКергических нейронов) и одновременно подавлению постгипоксического гипервозбуждения в сети, а ингибирование активности этих ферментов селективными блокаторами отменяет эффекты гипоксического прекондиционирования и способствует повреждению нейронов.

Впервые показано, что мутация транскрипционного фактора Sipl в коре мозга мышей приводит к нарушению механизмов гипоксического прекондиционирования во всех нейронах, что вызывает усиление активации NMDAR и AMPAR глутаматом после эпизодов гипоксии. В виду того, что мутация Sipl совпадает с необратимым нарушением сигнальных путей с участием Wnt, JNK и CaMKII, активация альтернативного нейропротекторного сигнального каскада с участием PI3K (с помощью ИЛ-10 или селективных активаторов) способствует восстановлению феномена гипоксического прекондиционирования в нейронах с мутацией Sipl за счет увеличения уровня АМРА-рецепторов, содержащих GluA2-субъединицу и ограничения входа ионов Са в цитозоль.

Установлены особенности кальциевой динамики, продукции АФК в митохондриях и цитозоле глутаматергических и ГАМКергических нейронах во время ишемии in vitro (OGD). В частности, подробно описана цепь сигнальных событий, происходящих на начальных (гипервозбуждение и генерация кратковременных Са2+-сигналов) и на поздних

2+

(глобальное повышение ([Ca ]i) этапах OGD. Впервые показана связь количественных параметров двухфазных Са -сигналов (их амплитуда, скорость нарастания, наличие и продолжительность лаг-периода и т.д.), генерируемых нейронами и астроцитами во время ишемии, с активацией процессов некроза и апоптоза. Разработан новый способ идентификации в клеточной культуре субпопуляций ГАМКергических нейронов на основе динамики [Са ] и базовой скорости продукции АФК.

В работе показаны нейропротекторные свойства противовоспалительного цитокина ИЛ-10 и впервые описаны механизмы, с помощью которых данный цитокин компенсирует недостаточность сигнальных путей, ответственных за активацию прекондиционирования в ГАМКергических нейронах и подавление в них постгипоксического гипервозбуждения. При этом установлено, что ИЛ-10 усиливает защитные механизмы в глутаматергических нейронах.

Впервые показано, что экспрессия и везикулярная секреция нейротрофного фактора BDNF необходима для активации механизмов гипоксического прекондиционирования ГАМКергических нейронов. Получены принципиально новые данные о важности кальций-зависимых механизмов секреции BDNF и связанных с ними изменениями уровня экспрессии повреждающих и нейропротектирующих генов для защиты клеток мозга от ишемии. Разработан новый генетический конструкт и аденовирусный способ его селективной доставки в нейроны мозга.

Получены новые данные о роли кальций-связывающих белков в буферных концентрациях в качестве основного нейропротекторного механизма ГАМКергических нейронов во время эпизодов гипоксии-реоксигенации и ишемии. Показано, что присутствие кальбиндина, кальретинина или парвальбумина в цитозоле ГАМКергических нейронов сдерживает появление второй фазы ответа на OGD и регулирует скорость повышения [Ca2+]i в этой фазе.

Впервые в модели OGD проведено сравнительное исследование эффективности нейропротекторов - антиоксидантов, агонистов а2-адренергических рецепторов, противовоспалительного цитокина и активаторов Р13К. При этом описаны параметры кальциевой динамики нейронов во время ишемии, которые регулируются этими нейропротекторами. Все нейропротекторы увеличивали время, необходимое для синхронного глобального повышения [Са2+] во время ишемии.

Впервые показаны быстрые нейропротекторные эффекты противовоспалительного цитокина - ИЛ-10, которые реализуются в течение 10-40 минут и направлены на подавление амплитуды и скорости повышения [Ca2+]i в нейронах и астроцитах во время

ишемии. Кроме того, обнаружены белки, экспрессия которых регулируется ИЛ-10 и способствует выживанию клеток мозга.

Впервые установлен механизм нейропротекторного действия агонистов а2-адренергических рецепторов во время ишемии, обусловленный секрецией АТФ астроцитами в ответ на активацию а2-адренорецепторов селективными агонистами, что приводит к подавлению гипервозбуждения нейрональных сетей. С помощью TIRF-микроскопии количественно охарактеризована везикулярная секреция АТФ астроцитами в ответ на стимуляцию а2-адренергических рецепторов.

Научно-практическое значение работы.

В ходе выполнения работы созданы оригинальные методики одновременной флуоресцентно-микроскопической регистрации нескольких функциональных параметров в нейронах и астроцитах во время ишемии и гипоксии in vitro. Так, исследована динамика цитозольного Са2+ в качестве основного параметра для регистрации ответа клетки на стимул и потенциала митохондриальной мембраны, [Ca ]i и АФК в митохондриях и цитозоле и др. Создан и опубликован в нескольких статьях оригинальный метод, позволяющий идентифицировать типы и подтипы ГАМКергических нейронов по флуоресценции антител и сопоставлять эти данные с записями прижизненного нейроимиджинга, что способствует более детальному изучению многих компонентов нейрональной сети в норме и в условиях гипоксии/ишемии. Разработана оригинальная методика и создана специальная герметичная система воспроизведения кратковременных эпизодов гипоксии-реоксигенации и добавления активных веществ, что позволяет регистрировать два феномена нейропластичности in vitro: гипоксическое прекондиционирование и постгипоксическое гипервозбуждение нейронов. Применены новые фармакологические подходы (ингибиторный анализ) исследования активности рецепторов и сигнальных комплексов в различных популяциях и субпопуляциях нейронов, т.е. разработана биологическая модель для изучения механизмов действия фармакологических соединений, обладающих повреждающим или нейропротекторным действием, что может быть применено для фармакологических исследований в системе in vitro. Разработанный совместно с коллегами из НИИ Нейронаук (Нижний Новгород) аденоассоциированный конструкт, селективно вызывающий сверхэкспрессию BDNF в нейронах и его эффективную трансдукцию в клетки, может стать основой для создания других генетических конструктов для исследования клеточной физиологии.

В широком смысле, результаты работы могут оказаться перспективными для практического использования по нескольким направлениям.

1) Фундаментальное направление в исследованиях в других областях науки, таких как медицина и химические науки. Разработанные нами оригинальные методы и подходы также будут способствовать развитию инструментов исследований в биологии клетки и нейробиологии. 2) Клиническое направление. На настоящий момент существует достаточно большое количество препаратов для лечения инсультов и нейродегенеративных заболеваний, а также облегчения их последствий. Полученные нами данные о механизмах активации гипоксического прекондиционирования и сигнальных путях, направленных на подавление гипервозбуждения нейронов в сети, вносят вклад в развитие технологий защиты мозга от нейродегенеративных процессов. Данные о механизмах защитного действия антиоксидантов, агонистов адренорецепторов, противовоспалительного цитокина ИЛ-10, в итоге приводящего к изменению уровня экспрессии генов-регуляторов апоптоза и воспаления, о связи этих механизмов с внутриклеточной сигнализацией нейронов и глиальных клеток будет способствовать созданию нейропротекторных композиций, обладающих комплексным действием на клетки мозга при ишемии и гипоксических явлениях. 3) Социально-экономическое направление. Фундаментальные знания, полученные при выполнении работы, дадут возможность развить новые подходы лечения и профилактики инсультов и поэтому окажут влияние на социально-экономическое трудности, вызываемые высокой смертностью и инвалидизацией людей с ишемической церебральной патологией. Полученные нами данные вносят значительный вклад в понимание того, каким образом следует осуществлять влияние на нейрональные сети в норме и при ишемии с целью формирования в них устойчивости к гиперактивации и подавления эксайтотоксичности.

Также результаты исследования могут быть использованы в курсах лекций по клеточной биологии, цитологии, биохимии и патофизиологии.

Основные положения, выносимые на защиту

1. Нейроны и астроциты являются функционально чувствительными сенсорами гипоксии в мозге, реагирующими повышением [Са2+] во время снижения рО2 через сигнальный каскад от молекулярного сенсора кислорода, локализованного в митохондриях, до мобилизации Са из тапсигаргин-чувствительного пула ЭПР через 1Р3-рецептор.

2. ГАМКергические нейроны являются наименее устойчивым подтипом нейронов мозга к повреждающим факторам гипоксии и ишемии в силу особенностей Са2+-

транспортирующих систем, высокой активности их цитозольных и митохондриальных ферментов, продуцирующих АФК, а также недостаточности механизмов гипоксического прекондиционирования.

3. Кальций-связывающие белки являются ведущим эндогенным нейропротекторным механизмом ГАМКергических нейронов в условиях гипоксии/реоксигенации и ишемии, ограничивающими повышение [Ca2+]i во время постгипоксического гипервозбуждения и фазы глобального роста [Са2+^, а также амплитуду Са2+-ответов при активации возбуждающих глутаматных рецепторов.

4. Механизмы нейропротекторного действия противовоспалительного цитокина ИЛ-10, природного антиоксиданта таксифолина, агонистов а2-адренергических рецепторов и нейротрофического фактора мозга (BDNF) сопряжены с активацией (экспрессией) общего защитного белка - фосфоинозитид-3-киназы и ингибированием процессов некроза и апоптоза.

5. Селективная фармакологическая активация механизмов гипоксического прекондиционирования и подавление глобального повышения [Са2+] в наименее устойчивых популяциях ГАМКергических нейронов способствует выживанию нейроглиальных сетей в условиях ишемии.

6. Механизмы нейропротекторного эффекта агонистов а2-адренергических рецепторов определяются активацией везикулярной секреции АТФ астроцитами, а защитного действия BDNF - активацией его самого, и направлены на подавление гипервозбуждения и глобального повышения [Са2+] в сети во время ишемии.

Связь темы исследования с планом научных работ.

Исследования проводились в рамках госзадания - «Механизмы функционирования рецепторов, ионных каналов и внутриклеточных сигнальных систем в различных типах клеток в норме и при патологиях. Поиск потенциальных мишеней для фармакотерапии» (АААА-А17-117032050020-3). Работа выполнена при финансовой поддержке грантов Президента Российской Федерации (МК-117.2017.4, МК-626.2018.4 и МК-677.2019.4) и Российского фонда фундаментальных исследований (гранты № 14-04-00038 и 16-3400159).

Апробация работы

Результаты диссертационной работы были представлены на Международной конференции «Рецепторы и внутриклеточная сигнализация» (Пущино, 2011, 2013, 2015,

2017, 2019,), Международном междисциплинарном конгрессе «Нейронаука для медицины и психологии» (Судак, 2015, 2016, 2018, 2019), Международной Пущинской школе-конференции молодых ученых «Биология - наука XXI века» (Пущино, 2016, 2017, 2018, 2019), VI Съезде биофизиков России (Сочи, 2019), III Международной научно-практической конференции «Фундаментальные научные исследования: теоретические и практические аспекты» (Кемерово, 2017), XVI Всероссийской конференции молодых ученых «Экспериментальная и теоретическая биофизика» (Пущино, 2012, 2016), Всероссийской молодежной конференции «Актуальные вопросы биомедицинской инженерии» (Ростов на Дону, 2012), XXIII съезде Физиологического общества имени И.П. Павлова (Воронеж, 2017), Международной научной конференции «Молекулярные, мембранные и клеточные основы функционирования биосистем» (Минск, 2012), «Volga Neuroscience Meeting 2016» (Saint Petersburg-Nizhny Novgorod, 2016), Gordon Research Conference. Glial Biology: Functional Interactions Among Glia & Neurons (Ventura, 2017), Cortical Development Conference 2017 - Neural Stem Cells to Neural Circuits (Chania, 2017), Neuroscience 2016 (San Diego, 2016), Physiology 2015 (Cardiff, 2015), 21st Biennial Meeting of the International Society for Developmental Neuroscience (Juan Les Pins, 2016).

ВЫВОДЫ

1. Нейроны и астроциты мозга являются функциональными сенсорами локального

снижения парциального давления кислорода в мозге и реагируют на гипоксию генерацией

2+

Са -сигналов через подавление дыхания митохондрий, нарастание продукции АФК и скорости перекисного окисления липидов, активацию фосфолипазы С и мобилизацию ионов Са2+ через 1Р3-рецептор из эндоплазматического ретикулума.

2. Некоторые субпопуляции ГАМКергических нейронов проявляют повышенную чувствительность к гипоксии и не прекондиционируются эпизодами кратковременной гипоксии, однако проявляют симптом постгипоксического гипервозбуждения, являющегося причиной глобального повышения [Са ] и их гибели. Восстановление прекондиционирования и подавления постгипоксического гипервозбуждения ГАМКергических нейронов возможно в присутствии активаторов фосфоинозитид-3-кингазы.

3. Противовоспалительный цитокин ИЛ-10 и нейротрофический фактор мозга BDNF защищают ГАМКергические нейроны от гибели, подавляя постгипоксическое гипервозбуждение и вызывая эффект гипоксического прекондиционирования за счет сигнального каскада с участием киназ Р13К, PKG и NO-синтазы.

4. Отсроченные нейропротекторные эффекты интерлейкина-10 и BDNF связаны с увеличением экспрессии генов, кодирующих защитные белки, подавлением экспрессии генов провоспалительных белков и ингибированием глобального повышения [Ca2+]i во время ишемии.

5. Мутация транскрипционного фактора Sip1 вызывает нарушение механизмов гипоксического прекондиционирования в нейронах через нарушение сигнальных путей с участием Wnt, JNK и CaMKII, а восстановление этих механизмов возможно за счет фармакологической активации альтернативного нейропротекторного сигнального каскада с участием киназы PI3K.

6. Наличие в цитозоле ГАМКергических нейронов буферных концентраций кальций-связывающих белков (кальбиндина, кальретинина или парвальбумина) является их ведущим эндогенным нейропротекторным механизмом, ответственным за ингибирование глобального повышения [Са2+] во время постгипоксического гипервозбуждения и ишемии.

7. Природный антиоксидант - таксифолин защищает нейроны от ишемии за счет подавления продукции АФК в сочетании с фазой глобального повышения [Ca ] и снижения экспрессии АМРА- и каинатных рецепторов

8. Активация астроцитарных а2-адренергических рецепторов вызывает секрецию АТФ и подавляет гипервозбуждение в нейрональной сети, оказывая противовоспалительное и антиапоптотическое действие во время ишемии.

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