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DNA损伤反应中Chk2依赖的XRCC1磷酸化促进碱基切除修复。

Chk2-dependent phosphorylation of XRCC1 in the DNA damage response promotes base excision repair.

作者信息

Chou Wen-Cheng, Wang Hui-Chun, Wong Fen-Hwa, Ding Shian-ling, Wu Pei-Ei, Shieh Sheau-Yann, Shen Chen-Yang

机构信息

Institute of Public Health, National Yang-Ming University, Taipei, Taiwan.

出版信息

EMBO J. 2008 Dec 3;27(23):3140-50. doi: 10.1038/emboj.2008.229. Epub 2008 Oct 30.

DOI:10.1038/emboj.2008.229
PMID:18971944
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2599873/
Abstract

The DNA damage response (DDR) has an essential function in maintaining genomic stability. Ataxia telangiectasia-mutated (ATM)-checkpoint kinase 2 (Chk2) and ATM- and Rad3-related (ATR)-Chk1, triggered, respectively, by DNA double-strand breaks and blocked replication forks, are two major DDRs processing structurally complicated DNA damage. In contrast, damage repaired by base excision repair (BER) is structurally simple, but whether, and how, the DDR is involved in repairing this damage is unclear. Here, we demonstrated that ATM-Chk2 was activated in the early response to oxidative and alkylation damage, known to be repaired by BER. Furthermore, Chk2 formed a complex with XRCC1, the BER scaffold protein, and phosphorylated XRCC1 in vivo and in vitro at Thr(284). A mutated XRCC1 lacking Thr(284) phosphorylation was linked to increased accumulation of unrepaired BER intermediate, reduced DNA repair capacity, and higher sensitivity to alkylation damage. In addition, a phosphorylation-mimic form of XRCC1 showed increased interaction with glycosylases, but not other BER proteins. Our results are consistent with the phosphorylation of XRCC1 by ATM-Chk2 facilitating recruitment of downstream BER proteins to the initial damage recognition/excision step to promote BER.

摘要

DNA损伤反应(DDR)在维持基因组稳定性方面具有重要作用。分别由DNA双链断裂和受阻复制叉触发的共济失调毛细血管扩张症突变(ATM)-检查点激酶2(Chk2)以及ATM和Rad3相关蛋白(ATR)-Chk1,是处理结构复杂DNA损伤的两个主要DDR途径。相比之下,通过碱基切除修复(BER)修复的损伤在结构上较为简单,但DDR是否以及如何参与修复这种损伤尚不清楚。在此,我们证明了ATM-Chk2在对氧化和烷基化损伤的早期反应中被激活,已知这些损伤是由BER修复的。此外,Chk2与BER支架蛋白XRCC1形成复合物,并在体内和体外使XRCC1的苏氨酸(Thr)284位点磷酸化。缺乏Thr284磷酸化的突变型XRCC1与未修复的BER中间体积累增加、DNA修复能力降低以及对烷基化损伤的更高敏感性有关。此外,XRCC1的磷酸化模拟形式显示与糖基化酶的相互作用增加,但与其他BER蛋白的相互作用未增加。我们的结果与ATM-Chk2介导的XRCC1磷酸化促进下游BER蛋白募集到初始损伤识别/切除步骤以促进BER一致。

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