Вирусные и клеточные гены, вовлеченные в HPV-ассоциированный канцерогенез шейки матки тема диссертации и автореферата по ВАК РФ 14.00.14, кандидат биологических наук Грицко, Татьяна Михайловна

IL 1.Выявление генома HPV типов 16 и 18 в образцах зпухолей и прилегаь;:и.их норл-тт;; лтлллк 41.1.1. PCR с унивеи • ^ j

III.1.2. PCR с типоспецифическими праймерами

II.2. Определение форм персистенцш вирусного генома к л экспрессии эписомальной и интегративной форм HPV тип 16

II.3. Изучение экспрессии клеточных последовательностей î сайтах интеграции HPV тип 16

III.4. Исследование экспрессии гена RARß в опухолевых и прилегающих нормальных тканях шейки матки

II.5. Анализ полиморфизма длины рестрикционных фрагментов генов, локализованных на хромосоме 6 в шухолевых и прилегающих нормальных тканях шейки матки плава IV. Обсуждение результатов выводы ние эо

61 лагодарности

Введение

По эпидемиологическим данным рак шейки матки встречается у 5-48 женщин из 100 ООО. Самый низкий и самый высокий уровень заболеваемости наблюдаются в Испании и Колумбии соответственно [Muir et al.,1987;Ponten et al., 1995]. Этиологическим фактором рака шейки матки признан вирус папиллом человека высокого риска -HPV[WHO Press Release,1996]. Несмотря на активные исследования в этой области онкологии, многие аспекты участия вирусного генома в канцерогенезе остаются неясными. Так, не решен вопрос о роли вирусной интеграции.

Рак шейки матки после вирусной инфекции может развиваться через стадии легкой, умеренной, выраженной интраэпителиалы-гай дисплазии и рака in situ и длиться несколько лет [Kiviat et al., 1992]. Это свидетельствует о том, что кроме присутствия вирусного генетического материала необходимы дополнительные факторы для развития рака. Свой вклад в этот процесс могут вносить клеточные гены, продукты которых влияют на экспрессию как вирусного генома, так и клеточных генов - регуляторов пролиферации. i

Т.о., важной задачей остается исследование структуры и экспрессии клеточных генов, участвующих в процессах канцерогенеза . Целью настоящей работы было изучение интеграции вирусного генома и исследование изменений в экспрессии и структуре нескольких клеточных генов, потенциально вовлеченных в канцерогенез рака шейки матки. Для этого были поставлены следующие задачи:

1). создать банк образцов опухолей шейки матки;

2). провести анализ образцов на наличие вирусов папиллом высокого риска;

3). исследовать форму персистенции вирусной ДНК в клет.те"

4). изучить интеграцию вирусного генома и ее влияние на клеточные последовательности в сайтах интеграции;

5). изучить экспрессию и структуру некоторых клеточных генов, которые потенциально могут быть вовлечены в канцерогенез шейки матки.

В результате исследования и в опухолевых и в прилегающих нормальных тканях шейки матки были выявлены последовательности HPV тип 16 и/или 18. Вирусная ДНК в опухолевых тканях персистировала как в эписомальной, так и в интегративной формах. Интеграция HPV тип 16 происходила неспецифично, в разные участки клеточного генома. Нами впервые показано, что в некоторых опухолях интегрированная вирусная ДНК не экспрессировалась. При исследовании клеточных последовательностей в сайтах интеграции оказалось, что они являются транскрипционно активными как в опухолевых, так и в нормальных тканях шейки матки. В двух опухолях HPV тип 16 интегрировал в последовательности, оказавшиеся гомологичными эндогенному ретровирусу HHERV-1, который индуцируется ретиноевой кислотой (RA). Известно, что действие ретиноевой кислоты опосредовано через рецепторы ретиноевой кислоты - RARs. Показав, что одна из этих клеточных последовательностей экспрессируется в опухолевых тканях шейки матки, мы предположили, что, возможно, активация транскрипции этой последовательности происходит за счет повышенного уровня экспрессии RARs. Для исследования мы выбрали рецептор субтипа ß -RARß, т. к. по литературным данным этот ген является предполагаемым опухолевым супрессором и изменения в его экспрессии ассоциированы со многими типами неоплазий. Для анализа роли других клеточных генов в HPV-ассоциированном канцерогенезе шейки матки исследовали структуру нес коль хих генетических локусов на длинном плече 6 хромосомы - протоонкогена c-MYB, гена супероксиддисмутазы SOD2 , а также минисателлитного локуса D6S37, локализованного в зоне нестабильности в прителомерном районе.

Т.о., проведенное исследование позволило расширить наши знания о роли интеграции HPV в клетках шейки матки и об изменениях в клеточных генах, ассоциированных с канцерогенезом у человека.

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