WAPL 依赖性修复受损 DNA 复制叉是癌基因诱导姐妹染色单体黏连丢失的基础。

WAPL-Dependent Repair of Damaged DNA Replication Forks Underlies Oncogene-Induced Loss of Sister Chromatid Cohesion.

机构信息

Netherlands Cancer Institute, Division of Tumor Biology and Immunology, Amsterdam, the Netherlands.

Cancer Center Amsterdam, Department of Clinical Genetics, section Oncogenetics, Amsterdam University Medical Centers, Amsterdam, the Netherlands.

出版信息

Dev Cell. 2020 Mar 23;52(6):683-698.e7. doi: 10.1016/j.devcel.2020.01.024. Epub 2020 Feb 20.

DOI:10.1016/j.devcel.2020.01.024

PMID:32084359

Abstract

Premature loss of sister chromatid cohesion at metaphase is a diagnostic marker for different cohesinopathies. Here, we report that metaphase spreads of many cancer cell lines also show premature loss of sister chromatid cohesion. Cohesion loss occurs independently of mutations in cohesion factors including SA2, a cohesin subunit frequently inactivated in cancer. In untransformed cells, induction of DNA replication stress by activation of oncogenes or inhibition of DNA replication is sufficient to trigger sister chromatid cohesion loss. Importantly, cell growth under conditions of replication stress requires the cohesin remover WAPL. WAPL promotes rapid RAD51-dependent repair and restart of broken replication forks. We propose that active removal of cohesin allows cancer cells to overcome DNA replication stress. This leads to oncogene-induced cohesion loss from newly synthesized sister chromatids that may contribute to genomic instability and likely represents a targetable cancer cell vulnerability.

摘要

中期姐妹染色单体过早失去着丝粒连接是不同黏连蛋白病的诊断标志。在这里，我们报告称许多癌细胞系的中期分裂也显示出姐妹染色单体过早失去着丝粒连接。这种黏连丢失不依赖于黏连因子的突变，包括在癌症中经常失活的黏连蛋白亚基 SA2。在未转化的细胞中，通过激活致癌基因或抑制 DNA 复制诱导 DNA 复制应激足以引发姐妹染色单体黏连丢失。重要的是，在复制应激条件下的细胞生长需要黏连去除蛋白 WAPL。WAPL 促进 RAD51 依赖性修复和断裂复制叉的快速重新启动。我们提出，黏连蛋白的主动去除使癌细胞能够克服 DNA 复制应激。这导致新合成的姐妹染色单体上的致癌基因诱导的黏连丢失，这可能导致基因组不稳定性，并且可能代表可靶向的癌细胞脆弱性。

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WAPL 依赖性修复受损 DNA 复制叉是癌基因诱导姐妹染色单体黏连丢失的基础。

WAPL-Dependent Repair of Damaged DNA Replication Forks Underlies Oncogene-Induced Loss of Sister Chromatid Cohesion.

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