Anti-cancer activity of ultra-short single-stranded polydeoxyribonucleotides

Summary One of the features that differentiate cancer cells is their increased proliferation rate, which creates an opportunity for general anti-tumor therapy directed against the elevated activity of replicative apparatus in tumor cells. Besides DNA synthesis, successful genome replication requires the reparation of the newly synthesized DNA. Malfunctions in reparation can cause fatal injuries in the genome and cell death. Recently we have found that the ultra-short single-stranded deoxyribose polynucleotides of random sequence (ssDNA) effectively inhibit the catalytic activity of DNA polymerase $$\beta$$ β . This effect allowed considering these substances as potential anti-tumor drugs, which was confirmed experimentally both in vitro (using cancer cell cultures) and in vivo (using cancer models in mice). According to the obtained results, ssDNA significantly suppresses cancer development and tumor growth, allowing consideration of them as novel candidates for anti-cancer drugs.

Авторы
Fursov Valentin V. 1 , Vedenkin Alexander S. , Stovbun Sergey V. , Bukhvostov Alexander A , Zlenko Dmitry V. , Stovbun Ivan S. , Silnikov Vladimir N. , Kuznetsov Dmitry A.
Издательство
Springer New York LLC
Номер выпуска
1
Страницы
153-161
Статус
Опубликовано
Том
41
Год
2023
Организации
  • 1 Росcийский университет дружбы народов
Ключевые слова
Single-stranded DNA; DNA repair; Cancer; cytostatics
Дата создания
21.04.2023
Дата изменения
21.04.2023
Постоянная ссылка
https://repository.rudn.ru/ru/records/article/record/93403/
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