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p53 在基因毒性应激反应中,于生肌调节因子阶段抑制肌肉分化。

p53 suppresses muscle differentiation at the myogenin step in response to genotoxic stress.

作者信息

Yang Z J P, Broz D Kenzelmann, Noderer W L, Ferreira J P, Overton K W, Spencer S L, Meyer T, Tapscott S J, Attardi L D, Wang C L

机构信息

Department of Chemical Engineering, Stanford University, Stanford, CA 94305, USA.

Division of Radiation and Cancer Biology, Department of Radiation Oncology, Stanford University, Stanford, CA 94305, USA.

出版信息

Cell Death Differ. 2015 Apr;22(4):560-73. doi: 10.1038/cdd.2014.189. Epub 2014 Dec 12.

DOI:10.1038/cdd.2014.189
PMID:25501595
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4356341/
Abstract

Acute muscle injury and physiological stress from chronic muscle diseases and aging lead to impairment of skeletal muscle function. This raises the question of whether p53, a cellular stress sensor, regulates muscle tissue repair under stress conditions. By investigating muscle differentiation in the presence of genotoxic stress, we discovered that p53 binds directly to the myogenin promoter and represses transcription of myogenin, a member of the MyoD family of transcription factors that plays a critical role in driving terminal muscle differentiation. This reduction of myogenin protein is observed in G1-arrested cells and leads to decreased expression of late but not early differentiation markers. In response to acute genotoxic stress, p53-mediated repression of myogenin reduces post-mitotic nuclear abnormalities in terminally differentiated cells. This study reveals a mechanistic link previously unknown between p53 and muscle differentiation, and suggests new avenues for managing p53-mediated stress responses in chronic muscle diseases or during muscle aging.

摘要

急性肌肉损伤以及慢性肌肉疾病和衰老所带来的生理压力会导致骨骼肌功能受损。这就引发了一个问题,即作为细胞应激传感器的p53是否在应激条件下调节肌肉组织修复。通过研究基因毒性应激存在时的肌肉分化,我们发现p53直接与肌细胞生成素启动子结合,并抑制肌细胞生成素的转录,肌细胞生成素是MyoD转录因子家族的成员,在驱动终末肌肉分化中起关键作用。在G1期停滞的细胞中观察到肌细胞生成素蛋白的这种减少,并导致晚期而非早期分化标志物的表达降低。响应急性基因毒性应激时,p53介导的肌细胞生成素抑制减少了终末分化细胞中分裂后核异常。这项研究揭示了p53与肌肉分化之间以前未知的机制联系,并为在慢性肌肉疾病或肌肉衰老过程中管理p53介导的应激反应提出了新途径。

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