Literature DB >> 33264433

ADP-ribosylation of histone variant H2AX promotes base excision repair.

Qian Chen1, Chunjing Bian1, Xin Wang1, Xiuhua Liu1, Muzaffer Ahmad Kassab1, Yonghao Yu2, Xiaochun Yu1.   

Abstract

Optimal DNA damage response is associated with ADP-ribosylation of histones. However, the underlying molecular mechanism of DNA damage-induced histone ADP-ribosylation remains elusive. Herein, using unbiased mass spectrometry, we identify that glutamate residue 141 (E141) of variant histone H2AX is ADP-ribosylated following oxidative DNA damage. In-depth studies performed with wild-type H2AX and the ADP-ribosylation-deficient E141A mutant suggest that H2AX ADP-ribosylation plays a critical role in base excision repair (BER). Mechanistically, ADP-ribosylation on E141 mediates the recruitment of Neil3 glycosylase to the sites of DNA damage for BER. Moreover, loss of this ADP-ribosylation enhances serine-139 phosphorylation of H2AX (γH2AX) upon oxidative DNA damage and erroneously causes the accumulation of DNA double-strand break (DSB) response factors. Taken together, these results reveal that H2AX ADP-ribosylation not only facilitates BER repair, but also suppresses the γH2AX-mediated DSB response.
© 2020 The Authors.

Entities:  

Keywords:  ADP-ribosylation; H2AX; PARP1; base excision repair

Mesh:

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Year:  2020        PMID: 33264433      PMCID: PMC7809701          DOI: 10.15252/embj.2020104542

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


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