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H2AX、NBS1和p53在ATM依赖性DNA损伤反应和肿瘤抑制中的功能相互作用。

Functional interaction of H2AX, NBS1, and p53 in ATM-dependent DNA damage responses and tumor suppression.

作者信息

Kang Jian, Ferguson David, Song Hoseok, Bassing Craig, Eckersdorff Mark, Alt Frederick W, Xu Yang

机构信息

Division of Biological Sciences, University of California, San Diego, 9500 Gilman Dr., La Jolla, CA 92093-0322, USA.

出版信息

Mol Cell Biol. 2005 Jan;25(2):661-70. doi: 10.1128/MCB.25.2.661-670.2005.

DOI:10.1128/MCB.25.2.661-670.2005
PMID:15632067
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC543410/
Abstract

Ataxia-telangiectasia (A-T) mutated (ATM) kinase signals all three cell cycle checkpoints after DNA double-stranded break (DSB) damage. H2AX, NBS1, and p53 are substrates of ATM kinase and are involved in ATM-dependent DNA damage responses. We show here that H2AX is dispensable for the activation of ATM and p53 responses after DNA DSB damage. Therefore, H2AX functions primarily as a downstream mediator of ATM functions in the parallel pathway of p53. NBS1 appears to function both as an activator of ATM and as an adapter to mediate ATM activities after DNA DSB damage. Phosphorylation of ATM and H2AX induced by DNA DSB damage is normal in NBS1 mutant/mutant (NBS1m/m) mice that express an N-terminally truncated NBS1 at lower levels. Therefore, the pleiotropic A-T-related systemic and cellular defects observed in NBS1m/m mice are due to the disruption of the adapter function of NBS1 in mediating ATM activities. While H2AX is required for the irradiation-induced focus formation of NBS1, our findings indicate that NBS1 and H2AX have distinct roles in DNA damage responses. ATM-dependent phosphorylation of p53 and p53 responses are largely normal in NBS1m/m mice after DNA DSB damage, and p53 deficiency greatly facilitates tumorigenesis in NBS1m/m mice. Therefore, NBS1, H2AX, and p53 play synergistic roles in ATM-dependent DNA damage responses and tumor suppression.

摘要

共济失调毛细血管扩张症(A-T)突变型(ATM)激酶在DNA双链断裂(DSB)损伤后对所有三个细胞周期检查点发出信号。H2AX、NBS1和p53是ATM激酶的底物,并参与依赖ATM的DNA损伤反应。我们在此表明,H2AX对于DNA DSB损伤后ATM和p53反应的激活并非必需。因此,H2AX主要作为p53平行途径中ATM功能的下游介质发挥作用。NBS1似乎既作为ATM的激活剂,又作为DNA DSB损伤后介导ATM活性的衔接蛋白发挥作用。在表达较低水平N端截短型NBS1的NBS1突变/突变(NBS1m/m)小鼠中,DNA DSB损伤诱导的ATM和H2AX磷酸化是正常的。因此,在NBS1m/m小鼠中观察到的多效性A-T相关全身和细胞缺陷是由于NBS1在介导ATM活性中的衔接蛋白功能受到破坏。虽然H2AX是辐射诱导NBS1形成焦点所必需的,但我们的研究结果表明NBS1和H2AX在DNA损伤反应中具有不同的作用。DNA DSB损伤后,NBS1m/m小鼠中依赖ATM的p53磷酸化和p53反应在很大程度上是正常的,并且p53缺陷极大地促进了NBS1m/m小鼠的肿瘤发生。因此,NBS1、H2AX和p53在依赖ATM的DNA损伤反应和肿瘤抑制中发挥协同作用。

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