DNA 末端切除需要 CBX4 对 CtIP 进行组成型 SUMO 化修饰。

DNA end resection requires constitutive sumoylation of CtIP by CBX4.

作者信息

Soria-Bretones Isabel, Cepeda-García Cristina, Checa-Rodriguez Cintia, Heyer Vincent, Reina-San-Martin Bernardo, Soutoglou Evi, Huertas Pablo

机构信息

Departamento de Genética, Universidad de Sevilla, Sevilla, 41080, Spain.

Centro Andaluz de Biología Molecular y Medicina Regenerativa-CABIMER, Universidad de Sevilla-CSIC-Universidad Pablo de Olavide, Sevilla, 41092, Spain.

出版信息

Nat Commun. 2017 Jul 24;8(1):113. doi: 10.1038/s41467-017-00183-6.

DOI:10.1038/s41467-017-00183-6

PMID:28740167

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5524638/

Abstract

DNA breaks are complex DNA lesions that can be repaired by two alternative mechanisms: non-homologous end-joining and homologous recombination. The decision between them depends on the activation of the DNA resection machinery, which blocks non-homologous end-joining and stimulates recombination. On the other hand, post-translational modifications play a critical role in DNA repair. We have found that the SUMO E3 ligase CBX4 controls resection through the key factor CtIP. Indeed, CBX4 depletion impairs CtIP constitutive sumoylation and DNA end processing. Importantly, mutating lysine 896 in CtIP recapitulates the CBX4-depletion phenotype, blocks homologous recombination and increases genomic instability. Artificial fusion of CtIP and SUMO suppresses the effects of both the non-sumoylatable CtIP mutant and CBX4 depletion. Mechanistically, CtIP sumoylation is essential for its recruitment to damaged DNA. In summary, sumoylation of CtIP at lysine 896 defines a subpopulation of the protein that is involved in DNA resection and recombination.The choice between non-homologous end-joining and homologous recombination to repair a DNA double-strand break depends on activation of the end resection machinery. Here the authors show that SUMO E3 ligase CBX4 sumoylates subpopulation of CtIP to regulate recruitment to breaks and resection.

摘要

DNA断裂是复杂的DNA损伤，可通过两种替代机制进行修复：非同源末端连接和同源重组。二者之间的选择取决于DNA切除机制的激活，该机制会阻断非同源末端连接并刺激重组。另一方面，翻译后修饰在DNA修复中起关键作用。我们发现，SUMO E3连接酶CBX4通过关键因子CtIP控制切除过程。实际上，CBX4的缺失会损害CtIP的组成型SUMO化和DNA末端加工。重要的是，使CtIP中的赖氨酸896发生突变可重现CBX4缺失的表型，阻断同源重组并增加基因组不稳定性。CtIP与SUMO的人工融合可抑制不可SUMO化的CtIP突变体和CBX4缺失的影响。从机制上讲，CtIP的SUMO化对于其募集到受损DNA至关重要。总之，赖氨酸896处CtIP的SUMO化定义了该蛋白质中参与DNA切除和重组的一个亚群。非同源末端连接和同源重组之间修复DNA双链断裂的选择取决于末端切除机制的激活。本文作者表明，SUMO E3连接酶CBX4使CtIP的亚群发生SUMO化，以调节其对断裂处的募集和切除。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c979/5524638/218dac26d984/41467_2017_183_Fig1_HTML.jpg

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DNA 末端切除需要 CBX4 对 CtIP 进行组成型 SUMO 化修饰。

DNA end resection requires constitutive sumoylation of CtIP by CBX4.

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