TPP1 OB 折叠结构域通过将端粒酶招募到染色体末端来控制端粒的维持。

TPP1 OB-fold domain controls telomere maintenance by recruiting telomerase to chromosome ends.

机构信息

Department of Medicine, Stanford University School of Medicine, Stanford, CA 94305, USA.

出版信息

Cell. 2012 Aug 3;150(3):481-94. doi: 10.1016/j.cell.2012.07.012.

DOI:10.1016/j.cell.2012.07.012

PMID:22863003

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3516183/

Abstract

Telomere synthesis in cancer cells and stem cells involves trafficking of telomerase to Cajal bodies, and telomerase is thought to be recruited to telomeres through interactions with telomere-binding proteins. Here, we show that the OB-fold domain of the telomere-binding protein TPP1 recruits telomerase to telomeres through an association with the telomerase reverse transcriptase TERT. When tethered away from telomeres and other telomere-binding proteins, the TPP1 OB-fold domain is sufficient to recruit telomerase to a heterologous chromatin locus. Expression of a minimal TPP1 OB-fold inhibits telomere maintenance by blocking access of telomerase to its cognate binding site at telomeres. We identify amino acids required for the TPP1-telomerase interaction, including specific loop residues within the TPP1 OB-fold domain and individual residues within TERT, some of which are mutated in a subset of pulmonary fibrosis patients. These data define a potential interface for telomerase-TPP1 interaction required for telomere maintenance and implicate defective telomerase recruitment in telomerase-related disease.

摘要

端粒合成在癌细胞和干细胞中涉及端粒酶向 Cajal 体的运输，端粒酶被认为通过与端粒结合蛋白的相互作用被招募到端粒上。在这里，我们表明端粒结合蛋白 TPP1 的 OB 折叠结构域通过与端粒酶逆转录酶 TERT 的关联将端粒酶招募到端粒上。当与端粒和其他端粒结合蛋白分离时，TPP1 OB 折叠结构域足以将端粒酶招募到异源染色质位点。表达最小的 TPP1 OB 折叠结构域通过阻止端粒酶进入其在端粒上的同源结合位点来抑制端粒的维持。我们确定了 TPP1-端粒酶相互作用所需的氨基酸，包括 TPP1 OB 折叠结构域内的特定环残基和 TERT 内的单个残基，其中一些在一部分肺纤维化患者中发生突变。这些数据定义了端粒酶-TPP1 相互作用的潜在界面，这是端粒维持所必需的，并暗示端粒酶相关疾病中端粒酶募集的缺陷。

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hTERT mutations associated with idiopathic pulmonary fibrosis affect telomerase activity, telomere length, and cell growth by distinct mechanisms.与特发性肺纤维化相关的 hTERT 突变通过不同的机制影响端粒酶活性、端粒长度和细胞生长。

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