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ATM 依赖性磷酸化 MEF2D 促进 DNA 损伤后的神经元存活。

ATM-dependent phosphorylation of MEF2D promotes neuronal survival after DNA damage.

机构信息

Del E. Webb Center for Neuroscience, Aging, and Stem Cell Research, and Proteomics Facility, Sanford-Burnham Medical Research Institute, La Jolla, California 92037.

出版信息

J Neurosci. 2014 Mar 26;34(13):4640-53. doi: 10.1523/JNEUROSCI.2510-12.2014.

DOI:10.1523/JNEUROSCI.2510-12.2014
PMID:24672010
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3965787/
Abstract

Mutations in the ataxia telangiectasia mutated (ATM) gene, which encodes a kinase critical for the normal DNA damage response, cause the neurodegenerative disorder ataxia-telangiectasia (AT). The substrates of ATM in the brain are poorly understood. Here we demonstrate that ATM phosphorylates and activates the transcription factor myocyte enhancer factor 2D (MEF2D), which plays a critical role in promoting survival of cerebellar granule cells. ATM associates with MEF2D after DNA damage and phosphorylates the transcription factor at four ATM consensus sites. Knockdown of endogenous MEF2D with a short-hairpin RNA (shRNA) increases sensitivity to etoposide-induced DNA damage and neuronal cell death. Interestingly, substitution of endogenous MEF2D with an shRNA-resistant phosphomimetic MEF2D mutant protects cerebellar granule cells from cell death after DNA damage, whereas an shRNA-resistant nonphosphorylatable MEF2D mutant does not. In vivo, cerebella in Mef2d knock-out mice manifest increased susceptibility to DNA damage. Together, our results show that MEF2D is a substrate for phosphorylation by ATM, thus promoting survival in response to DNA damage. Moreover, dysregulation of the ATM-MEF2D pathway may contribute to neurodegeneration in AT.

摘要

共济失调毛细血管扩张症突变(ATM)基因的突变,该基因编码一种对正常 DNA 损伤反应至关重要的激酶,导致神经退行性疾病共济失调毛细血管扩张症(AT)。大脑中 ATM 的底物知之甚少。在这里,我们证明 ATM 磷酸化并激活转录因子肌细胞增强因子 2D(MEF2D),MEF2D 在促进小脑颗粒细胞存活中起关键作用。ATM 在 DNA 损伤后与 MEF2D 结合,并在四个 ATM 共有位点磷酸化转录因子。用短发夹 RNA(shRNA)敲低内源性 MEF2D 会增加依托泊苷诱导的 DNA 损伤和神经元细胞死亡的敏感性。有趣的是,用 shRNA 抗性磷酸模拟 MEF2D 突变体替代内源性 MEF2D 可保护小脑颗粒细胞免受 DNA 损伤后的细胞死亡,而 shRNA 抗性非磷酸化 MEF2D 突变体则不能。在体内,Mef2d 敲除小鼠的小脑表现出对 DNA 损伤的敏感性增加。总之,我们的结果表明 MEF2D 是 ATM 磷酸化的底物,从而促进了对 DNA 损伤的存活反应。此外,ATM-MEF2D 途径的失调可能导致 AT 中的神经退行性变。

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