Реакции кросс-сочетания и восстановительного сочетания в синтезе биологически активных производных кумаринов тема диссертации и автореферата по ВАК РФ 02.00.08, кандидат химических наук Ганина, Ольга Григорьевна

Настоящая работа посвящена разработке методик синтеза неофлавоноидных производных, имеющих в 4-положении кумаринового скелета гетероарильный или аминовый фрагмент, с кислородсодержащими заместителями, а также тетрациклических бензопирановых и изохинолиновых производных кумаринов исходя из 4-гидроксикумарина.

Система микротрубочек тубулина была открыта несколько десятилетий назад. Она играет важную роль в жизни клетки, в частности, отвечает за формирование веретена деления, образующегося на стадии профазы процесса митоза (неполового деления клеток). Клинический и коммерческий успех двух противоопухолевых препаратов "Таксола" и "Таксотера" (Taxol, Taxotere) привел к возрождению интереса к поиску новых ингибиторов для митотического веретена, как к одному из средств борьбы с раком [1].

Первыми агентами, проявившими антитубулиновую активность, которая заключается в блокировании митоза клетки за счет ингибирования полимеризации тубулина, были алкалоиды vinca и колхицин I, открытые ранее [2] (Рис.1). В последнее время появилось новое поколение тубулиновых ядов, таких как: МТС [3], комбретастатин А-4 (combretastatin) II [4] (Рис. 1), ротенон (rotenone) [5], подофиллотоксин (podophyllotoxin) [6-7] и др. Широкое применение этих производных обусловлено тем, что они менее токсичны, чем агенты первого поколения. Это стало причиной исследований и синтеза большого количества производных и аналогов комбретастатина, направленных на повышение растворимости, стабильности, а также терапевтического индекса получаемых соединений (баланс биологической активности - токсичности при клинических испытаниях).

ОМе

Рис. 1.

Анализ "структура - физиологическая активность соединения", проведенный на ингибиторах тубулина, показал, что эти вещества должны содержать двойную цис-связь с двумя некомпланарными поликислородсодержащими арильными или гетероарильными фрагментами [8-9].

Этим требованиям удовлетворяют флавоноидные производные, такие как кверцетин и генистеин [10-12]. В последнее время из природных объектов были выделены различные неофлавоноидные (4-фенилкумариновые) производные, проявляющие антитубулиновую активность [13-16]. Эти соединения не только содержат некомпланарные ароматические кольца, подобно комбретастатину, но и в отличие от него не дезактивируются за счет ifuc-mpanc изомеризации, что значительно повышает их эффективность.

Кроме того, в 2003 г Ж.-П. Фине и В. Пейро были получены первые два представителя 4-арилкумаринов III (Рис. 1), проявляющих высокую цитотоксичность по отношению к опухолевым клеткам человека, сопоставимую с таковой для таксола и комбретастатина [17].

Многие исследования показывают, что действие этих соединений заключается в нарушении обратимости процесса полимеризации и деполимеризации а- и (5-тубулина [17], что приводит к нарушению формирования митотического веретена, образование которого предшествует делению клетки.

Кумариновое ядро входит в скелет многих природных соединений, проявляющих физиологическую активность, таких как 4-гидрокси-3-(3',4'-метилендиоксифенил)-5,6,7-триметоксикумарин IV, выделенный из Milettia griffoniana [18], антибиотик новобиоцин V [19-20], выделяемый из Eclipta alba веделолактон VI, применяемый как антидот при укусе змеи [21] (Рис. 2). о h2N^O ОН

VI он

Рис. 2

Несмотря на существование большого количества соединений, проявляющих антитубулиновую активность, практическое применение находят лишь некоторые из них. Это связано с тем, что синтетические агенты обладают низким терапевтическим индексом. Поэтому синтез соединений, обладающих высокой активностью ингибиторов митоза, является актуальным.

Работа посвящена разработке методик синтеза неофлавоноидных производных, имеющих в 4-положении кумаринового скелета гетероарильный или аминовый фрагмент, с кислородсодержащими заместителями, а также тетрациклических бензопирановых и изохинолиновых производных кумаринов исходя из 4-гидроксикумарина.

В работе предложена эффективная методика синтеза 4-гетероарилкумаринов с применением каталитической реакции Сузуки-Мияура между 4-трифторметилсульфонатами кумаринов и соответствующими гетероарилборными кислотами. Синтезирован ряд новых 4-гетероарилкумаринов с выходами, близкими к количественным.

Синтезирован ряд новых 4-аминокумаринов по реакциям каталитического аминирования, а также присоединения-элиминирования между 4-трифторметилсульфонатами кумаринов и соответствующими аминами. Все 4-аминокумарины получены с высокими выходами и охарактеризованы.

Предложена методика синтеза новых тетрациклических бензопирановых и изохинолиновых производных кумаринов с применением каскадных реакций (3-4-стадийный one-pot синтез) на основе новых висмут-и свинецорганических реагентов, содержащих в орто-положении арильного фрагмента легко функционализируемые хлор(или бром)метильные и азидометильные фрагменты.

Исследована противоопухолевая активность ряда неофлавоноидных производных. Показано, что несколько новых кумариновых производных проявляют высокую цитотоксическую активность по отношению к опухолевым клеткам рака молочных желез человека HBL100.

По теме диссертации опубликовано 11 печатных работ, в том числе 7 статей и тезисы 4 докладов на международных и всероссийских научных конференциях.

Основные положения диссертационной работы доложены на X Международной научной конференции студентов, аспирантов и молодых учёных по фундаментальным наукам "Ломоносов - 2003" (Москва, 15-18 апреля 2003 г.), IX Нижегородской сессии молодых ученых (естественные науки, г. Дзержинск, 26-30 апреля 2004 г., секция Химия), Международной конференции "Химия азотсодержащих гетероциклов" (2-7 октября 2006 г., Харьков, Украина), Всероссийской научной конференции "Современные проблемы органической химии", посвященной 100-летию со дня рождения академика Н. Н. Ворожцова (5-9 июня 2007 г., Новосибирск)

Диссертационная работа изложена на 138 страницах машинописного текста и состоит из введения, литературного обзора, обсуждения результатов, экспериментальной части и выводов, содержит 4 таблицы; список цитируемой литературы включает 325 наименования.

выводы

1. Предложен способ получения полиметоксизамещенных 4-гетероарилкумаринов по реакции трифлатов 4-гидроксикумаринов с гетероарилборными кислотами на основе палладий-катализируемой реакции Сузуки, позволяющий синтезировать неофлавоноидные продукты с высокими выходами.

2. Разработана эффективная методика синтеза 4-аминополиметоксикумаринов с практически количественными выходами по реакции 4-трифторметансульфонатов кумаринов с различными аминами. Также показана принципиальная возможность палладий-катализируемой реакции трифлатов полиметоксизамещенных кумаринов с амидами и азолами.

3. Предложены синтетические подходы, позволяющие внедрять в енолизующиеся органические субстраты и фенолы бензопирановые и дигидроизохинолиновые фрагменты с применением каскадных реакций, предполагающих проведение 3-4 стадий синтеза без выделения интермедиатов. Для этого использованы новые полифункциональные висмут- и свинецорганические реагенты, содержащие 2-(хлорметил)фенильные, 2-(бромметил)фенильные и 2-(азидометил)фенильные заместители. Разработанные методы позволили синтезировать ряд новых тетрациклических дигидроизохинолино- и бензопиранокумаринов.

4. Найдено, что некоторые из синтезированных в работе производных кумаринов обладают высокой цитотоксичностью (1С5о) по отношению к линиям опухолевых клеток человека HBL100.

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