Literature DB >> 18971944

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

Wen-Cheng Chou1, Hui-Chun Wang, Fen-Hwa Wong, Shian-ling Ding, Pei-Ei Wu, Sheau-Yann Shieh, Chen-Yang Shen.   

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.

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Year:  2008        PMID: 18971944      PMCID: PMC2599873          DOI: 10.1038/emboj.2008.229

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


  49 in total

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Review 3.  The DNA damage response pathways: at the crossroad of protein modifications.

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Review 4.  Regulation of DNA repair throughout the cell cycle.

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6.  Threonine 68 phosphorylation by ataxia telangiectasia mutated is required for efficient activation of Chk2 in response to ionizing radiation.

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7.  BRCT repeats as phosphopeptide-binding modules involved in protein targeting.

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9.  DNA damage activates ATM through intermolecular autophosphorylation and dimer dissociation.

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10.  The methyl methanesulfonate induced S-phase delay in XRCC1-deficient cells requires ATM and ATR.

Authors:  Reto Brem; Marie Fernet; Brigitte Chapot; Janet Hall
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  48 in total

1.  DNA damage response by single-strand breaks in terminally differentiated muscle cells and the control of muscle integrity.

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Review 2.  Tyrosyl-DNA-phosphodiesterases (TDP1 and TDP2).

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3.  In Barrett's epithelial cells, weakly acidic bile salt solutions cause oxidative DNA damage with response and repair mediated by p38.

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4.  Interaction with OGG1 is required for efficient recruitment of XRCC1 to base excision repair and maintenance of genetic stability after exposure to oxidative stress.

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5.  N-methylpurine DNA glycosylase inhibits p53-mediated cell cycle arrest and coordinates with p53 to determine sensitivity to alkylating agents.

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6.  XRCC1 interaction with the REV1 C-terminal domain suggests a role in post replication repair.

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Review 7.  ATM-dependent pathways of chromatin remodelling and oxidative DNA damage responses.

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8.  Induction of senescence in cancer cells by the G-quadruplex stabilizer, BMVC4, is independent of its telomerase inhibitory activity.

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10.  Optimal function of the DNA repair enzyme TDP1 requires its phosphorylation by ATM and/or DNA-PK.

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