Перейти к основному содержанию
AkademIndex

Продукты

Для разработчиков

AkademBaseОткрытый API экосистемы
Статья

Telomerase enzymatic component hTERT shortens long telomeres in human cells

Yun‐Ling ZhengCancer Prevention and Control; Lombardi Comprehensive Cancer Center; Georgetown University Medical Center; Washington, DC USAFan ZhangCancer Biology Division; Washington University School of Medicine; Saint Louis, MO USABing SunCancer Prevention and Control; Lombardi Comprehensive Cancer Center; Georgetown University Medical Center; Washington, DC USAJuan DuCancer Biology Division; Washington University School of Medicine; Saint Louis, MO USAChongkui SunCancer Biology DivisionJie YuanMedical College; Jinan University; Guangzhou, ChinaYing WangCancer Prevention and Control; Lombardi Comprehensive Cancer Center; Georgetown University Medical Center; Washington, DC USALian TaoCancer Prevention and Control; Lombardi Comprehensive Cancer Center; Georgetown University Medical Center; Washington, DC USAKrishna Kiran KotaCancer Prevention and Control; Lombardi Comprehensive Cancer Center; Georgetown University Medical Center; Washington, DC USAXuefeng LiuMolecular Oncology Programs; Lombardi Comprehensive Cancer Center; Georgetown University Medical Center; Washington, DC USARichard SchlegelMolecular Oncology Programs; Lombardi Comprehensive Cancer Center; Georgetown University Medical Center; Washington, DC USAQin YangCancer Biology Division; Washington University School of Medicine; Saint Louis, MO USA
2014en
ABI

Аннотация

Telomere lengths are tightly regulated within a narrow range in normal human cells. Previous studies have extensively focused on how short telomeres are extended and have demonstrated that telomerase plays a central role in elongating short telomeres. However, much about the molecular mechanisms of regulating excessively long telomeres is unknown. In this report, we demonstrated that the telomerase enzymatic component, hTERT, plays a dual role in the regulation of telomere length. It shortens excessively long telomeres and elongates short telomeres simultaneously in one cell, maintaining the optimal telomere length at each chromosomal end for efficient protection. This novel hTERT-mediated telomere-shortening mechanism not only exists in cancer cells, but also in primary human cells. The hTERT-mediated telomere shortening requires hTERT's enzymatic activity, but the telomerase RNA component, hTR, is not involved in that process. We found that expression of hTERT increases telomeric circular DNA formation, suggesting that telomere homologous recombination is involved in the telomere-shortening process. We further demonstrated that shelterin protein TPP1 interacts with hTERT and recruits hTERT onto the telomeres, suggesting that TPP1 might be involved in regulation of telomere shortening. This study reveals a novel function of hTERT in telomere length regulation and adds a new element to the current molecular model of telomere length maintenance.

Перевод пока недоступен

Идентификаторы

Цитирования и источники

Цитирований: 2Использованных источников: 0