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Rad50S等位基因促进依赖ATM的DNA损伤反应并抑制ATM缺陷:Mre11复合物作为DNA损伤传感器的意义。

The Rad50S allele promotes ATM-dependent DNA damage responses and suppresses ATM deficiency: implications for the Mre11 complex as a DNA damage sensor.

作者信息

Morales Monica, Theunissen Jan-Willem F, Kim Carla F Bender, Kitagawa Risa, Kastan Michael B, Petrini John H J

机构信息

Molecular Biology Program, Memorial Sloan Kettering Cancer Center and Cornell University Graduate School of Medical Sciences, New York, New York 10021, USA.

出版信息

Genes Dev. 2005 Dec 15;19(24):3043-54. doi: 10.1101/gad.1373705.

DOI:10.1101/gad.1373705
PMID:16357220
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1315407/
Abstract

Genetic and cytologic data from Saccharomyces cerevisiae and mammals implicate the Mre11 complex, consisting of Mre11, Rad50, and Nbs1, as a sensor of DNA damage, and indicate that the complex influences the activity of ataxia-telangiectasia mutated (ATM) in the DNA damage response. Rad50(S/S) mice exhibit precipitous apoptotic attrition of hematopoietic cells. We generated ATM- and Chk2-deficient Rad50(S/S) mice and found that Rad50(S/S) cellular attrition was strongly ATM and Chk2 dependent. The hypomorphic Mre11(ATLD1) and Nbs1(Delta)(B) alleles conferred similar rescue of Rad50(S/S)-dependent hematopoietic failure. These data indicate that the Mre11 complex activates an ATM-Chk2-dependent apoptotic pathway. We find that apoptosis and cell cycle checkpoint activation are parallel outcomes of the Mre11 complex-ATM pathway. Conversely, the Rad50(S) mutation mitigated several phenotypic features of ATM deficiency. We propose that the Rad50(S) allele is hypermorphic for DNA damage signaling, and that the resulting constitutive low-level activation of the DNA damage response accounts for the partial suppression of ATM deficiency in Rad50(S/S) Atm(-/-) mice.

摘要

来自酿酒酵母和哺乳动物的遗传及细胞学数据表明,由Mre11、Rad50和Nbs1组成的Mre11复合物是DNA损伤的感受器,并显示该复合物在DNA损伤应答中影响共济失调毛细血管扩张症突变基因(ATM)的活性。Rad50(S/S)小鼠表现出造血细胞的急剧凋亡损耗。我们培育了ATM和Chk2缺陷的Rad50(S/S)小鼠,发现Rad50(S/S)细胞损耗强烈依赖于ATM和Chk2。低表达的Mre11(ATLD1)和Nbs1(Delta)(B)等位基因对Rad50(S/S)依赖性造血功能衰竭具有类似的挽救作用。这些数据表明,Mre11复合物激活了一条ATM-Chk2依赖性凋亡途径。我们发现凋亡和细胞周期检查点激活是Mre11复合物-ATM途径的平行结果。相反,Rad50(S)突变减轻了ATM缺陷的一些表型特征。我们提出,Rad50(S)等位基因在DNA损伤信号传导方面是超表达的,由此产生的DNA损伤应答的组成性低水平激活解释了Rad50(S/S) Atm(-/-)小鼠中ATM缺陷的部分抑制现象。

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