组蛋白H2AX磷酸化对于DNA断裂的初始识别并非必需。

Histone H2AX phosphorylation is dispensable for the initial recognition of DNA breaks.

作者信息

Celeste Arkady, Fernandez-Capetillo Oscar, Kruhlak Michael J, Pilch Duane R, Staudt David W, Lee Alicia, Bonner Robert F, Bonner William M, Nussenzweig André

机构信息

Experimental Immunology Branch, National Cancer Institute, National Institutes of Health, Bethesda, Maryland 20892, USA.

出版信息

Nat Cell Biol. 2003 Jul;5(7):675-9. doi: 10.1038/ncb1004.

DOI:10.1038/ncb1004

PMID:12792649

Abstract

Histone H2AX is rapidly phosphorylated in the chromatin micro-environment surrounding a DNA double-strand break (DSB). Although H2AX deficiency is not detrimental to life, H2AX is required for the accumulation of numerous essential proteins into irradiation induced foci (IRIF). However, the relationship between IRIF formation, H2AX phosphorylation (gamma-H2AX) and the detection of DNA damage is unclear. Here, we show that the migration of repair and signalling proteins to DSBs is not abrogated in H2AX(-/-) cells, or in H2AX-deficient cells that have been reconstituted with H2AX mutants that eliminate phosphorylation. Despite their initial recruitment to DSBs, numerous factors, including Nbs1, 53BP1 and Brca1, subsequently fail to form IRIF. We propose that gamma-H2AX does not constitute the primary signal required for the redistribution of repair complexes to damaged chromatin, but may function to concentrate proteins in the vicinity of DNA lesions. The differential requirements for factor recruitment to DSBs and sequestration into IRIF may explain why essential regulatory pathways controlling the ability of cells to respond to DNA damage are not abolished in the absence of H2AX.

摘要

组蛋白H2AX在DNA双链断裂（DSB）周围的染色质微环境中会迅速发生磷酸化。尽管H2AX缺陷对生命并无损害，但众多必需蛋白在辐射诱导灶（IRIF）中的积累需要H2AX。然而，IRIF形成、H2AX磷酸化（γ-H2AX）与DNA损伤检测之间的关系尚不清楚。在此，我们表明，在H2AX基因敲除（-/-）细胞中，或在用消除磷酸化的H2AX突变体重构的H2AX缺陷细胞中，修复和信号蛋白向DSB的迁移并未被消除。尽管它们最初被招募到DSB，但包括Nbs1、53BP1和Brca1在内的众多因子随后未能形成IRIF。我们提出，γ-H2AX并非修复复合物重新分布到受损染色质所需的主要信号，但其可能起到将蛋白质集中于DNA损伤附近区域的作用。因子被招募到DSB以及被隔离到IRIF的不同要求，或许可以解释为何在缺乏H2AX的情况下，控制细胞对DNA损伤作出反应能力的重要调控途径并未被消除。

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组蛋白H2AX磷酸化对于DNA断裂的初始识别并非必需。

Histone H2AX phosphorylation is dispensable for the initial recognition of DNA breaks.

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