Literature DB >> 25823024

ATM-mediated KDM2A phosphorylation is required for the DNA damage repair.

L-L Cao1, F Wei1, Y Du1, B Song1, D Wang1, C Shen1, X Lu1, Z Cao1, Q Yang1, Y Gao2, L Wang1, Y Zhao1, H Wang1, Y Yang1, W-G Zhu1,3.   

Abstract

The ataxia-telangiectasia mutated (ATM) protein is a key signaling molecule that modulates the DNA damage response. However, the exact mechanism by which ATM regulates DNA damage repair has not yet been elucidated. Here, we report that ATM regulates the DNA damage response by phosphorylating lysine-specific demethylase 2A (KDM2A), a histone demethylase that acts at sites of H3K36 dimethylation. ATM interacts with KDM2A, and their interaction significantly increases in response to DNA double-stranded, but not single-stranded, breaks. ATM specifically phosphorylates KDM2A at threonine 632 (T632) following DNA damage, as demonstrated by a mutagenesis assay and mass spectrometric analysis. Although KDM2A phosphorylation does not alter its own demethylase activity, T632 phosphorylation of KDM2A largely abrogates its chromatin-binding capacity, and H3K36 dimethylation near DNA damage sites is significantly increased. Consequently, enriched H3K36 dimethylation serves as a platform to recruit the MRE11 complex to DNA damage sites by directly interacting with the BRCT2 domain of NBS1, which results in efficient DNA damage repair and enhanced cell survival. Collectively, our study reveals a novel mechanism for ATM in connecting histone modifications with the DNA damage response.

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Year:  2015        PMID: 25823024     DOI: 10.1038/onc.2015.81

Source DB:  PubMed          Journal:  Oncogene        ISSN: 0950-9232            Impact factor:   9.867


  65 in total

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