人类 shelterin 蛋白 POT1 可防止同源定向 DNA 修复引起的严重端粒不稳定。

Human shelterin protein POT1 prevents severe telomere instability induced by homology-directed DNA repair.

机构信息

School of Life Sciences, Swiss Institute for Experimental Cancer Research (ISREC), Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland.

Protein Analysis Facility, University of Lausanne, Lausanne, Switzerland.

出版信息

EMBO J. 2020 Dec 1;39(23):e104500. doi: 10.15252/embj.2020104500. Epub 2020 Oct 19.

DOI:10.15252/embj.2020104500

PMID:33073402

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7705456/

Abstract

The evolutionarily conserved POT1 protein binds single-stranded G-rich telomeric DNA and has been implicated in contributing to telomeric DNA maintenance and the suppression of DNA damage checkpoint signaling. Here, we explore human POT1 function through genetics and proteomics, discovering that a complete absence of POT1 leads to severe telomere maintenance defects that had not been anticipated from previous depletion studies in human cells. Conditional deletion of POT1 in HEK293E cells gives rise to rapid telomere elongation and length heterogeneity, branched telomeric DNA structures, telomeric R-loops, and telomere fragility. We determine the telomeric proteome upon POT1-loss, implementing an improved telomeric chromatin isolation protocol. We identify a large set of proteins involved in nucleic acid metabolism that engage with telomeres upon POT1-loss. Inactivation of the homology-directed repair machinery suppresses POT1-loss-mediated telomeric DNA defects. Our results unravel as major function of human POT1 the suppression of telomere instability induced by homology-directed repair.

摘要

进化上保守的 POT1 蛋白结合单链富含 G 的端粒 DNA，并被认为有助于端粒 DNA 的维持和抑制 DNA 损伤检查点信号。在这里，我们通过遗传学和蛋白质组学探索人类 POT1 的功能，发现完全缺乏 POT1 会导致严重的端粒维持缺陷，这是以前在人类细胞中进行的耗尽研究所没有预料到的。在 HEK293E 细胞中条件性删除 POT1 会导致端粒快速伸长和长度异质性、分支端粒 DNA 结构、端粒 R 环和端粒脆性。我们在 POT1 缺失时确定端粒蛋白质组，实施改进的端粒染色质分离方案。我们鉴定出一组涉及核酸代谢的蛋白质，它们在 POT1 缺失时与端粒结合。同源定向修复机制的失活抑制了 POT1 缺失介导的端粒 DNA 缺陷。我们的结果揭示了人类 POT1 的一个主要功能，即抑制同源定向修复诱导的端粒不稳定性。

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