RAD52 and ERCC6L/PICH have a compensatory relationship for genome stability in mitosis.

IF 4 2区生物学 Q1 GENETICS & HEREDITY PLoS Genetics Pub Date : 2024-11-19 DOI:10.1371/journal.pgen.1011479

Beth Osia, Arianna Merkell, Felicia Wednesday Lopezcolorado, Xiaoli Ping, Jeremy M Stark

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Abstract

Mammalian RAD52 is a DNA repair factor with strand annealing and recombination mediator activities that appear important in both interphase and mitotic cells. Nonetheless, RAD52 is dispensable for cell viability. To query RAD52 synthetic lethal relationships, we performed genome-wide CRISPR knock-out screens and identified hundreds of candidate synthetic lethal interactions. We then performed secondary screening and identified genes for which depletion causes reduced viability and elevated genome instability (increased 53BP1 nuclear foci) in RAD52-deficient cells. One such factor was ERCC6L, which marks DNA bridges during anaphase, and hence is important for genome stability in mitosis. Thus, we investigated the functional interrelationship between RAD52 and ERCC6L. We found that RAD52 deficiency increases ERCC6L-coated anaphase ultrafine bridges, and that ERCC6L depletion causes elevated RAD52 foci in prometaphase and interphase cells. These effects were enhanced with replication stress (i.e. hydroxyurea) and topoisomerase IIα inhibition (ICRF-193), where post-treatment effect timings were consistent with defects in addressing stress in mitosis. Altogether, we suggest that RAD52 and ERCC6L co-compensate to protect genome stability in mitosis.

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RAD52 和 ERCC6L/PICH 对于有丝分裂中基因组的稳定性具有补偿关系。

哺乳动物 RAD52 是一种 DNA 修复因子，具有链退火和重组介导活性，在间期细胞和有丝分裂细胞中似乎都很重要。然而，RAD52 对细胞活力来说是不可或缺的。为了探究 RAD52 合成致死关系，我们进行了全基因组 CRISPR 基因敲除筛选，发现了数百个候选合成致死相互作用。然后，我们进行了二次筛选，确定了在 RAD52 缺失的细胞中，耗竭会导致活力降低和基因组不稳定性升高（53BP1 核病灶增加）的基因。其中一个因子是ERCC6L，它在无丝分裂过程中标记DNA桥，因此对有丝分裂过程中的基因组稳定性非常重要。因此，我们研究了 RAD52 和 ERCC6L 之间的功能相互关系。我们发现，RAD52缺乏会增加ERCC6L包被的无丝分裂期超细桥，而ERCC6L耗竭会导致有丝分裂后期和间期细胞中的RAD52病灶升高。复制应激（即羟基脲）和拓扑异构酶 IIα 抑制（ICRF-193）会增强这些效应，处理后的效应时间与处理有丝分裂应激的缺陷一致。总之，我们认为RAD52和ERCC6L共同补偿保护了有丝分裂过程中基因组的稳定性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

PLoS Genetics GENETICS & HEREDITY-

自引率

2.20%

发文量

438

期刊介绍： PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill). Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.