中介体 MED23 通过转录因子 MITF 将色素沉着与 DNA 修复联系起来。

Mediator MED23 Links Pigmentation and DNA Repair through the Transcription Factor MITF.

机构信息

State Key Laboratory of Cell Biology, CAS Center for Excellence in Molecular Cell Science, Shanghai Institute of Biochemistry and Cell Biology, Chinese Academy of Sciences, University of Chinese Academy of Sciences, 320 Yueyang Road, Shanghai 200031, China.

出版信息

Cell Rep. 2017 Aug 22;20(8):1794-1804. doi: 10.1016/j.celrep.2017.07.056.

DOI:10.1016/j.celrep.2017.07.056

PMID:28834744

Abstract

DNA repair is related to many physiological and pathological processes, including pigmentation. Little is known about the role of the transcriptional cofactor Mediator complex in DNA repair and pigmentation. Here, we demonstrate that Mediator MED23 plays an important role in coupling UV-induced DNA repair to pigmentation. The loss of Med23 specifically impairs the pigmentation process in melanocyte-lineage cells and in zebrafish. Med23 deficiency leads to enhanced nucleotide excision repair (NER) and less DNA damage following UV radiation because of the enhanced expression and recruitment of NER factors to chromatin for genomic stability. Integrative analyses of melanoma cells reveal that MED23 controls the expression of a melanocyte master regulator, Mitf, by modulating its distal enhancer activity, leading to opposing effects on pigmentation and DNA repair. Collectively, the Mediator MED23/MITF axis connects DNA repair to pigmentation, thus providing molecular insights into the DNA damage response and skin-related diseases.

摘要

DNA 修复与许多生理和病理过程有关，包括色素沉着。转录共激活因子 Mediator 复合物在 DNA 修复和色素沉着中的作用知之甚少。在这里，我们证明了转录共激活因子 Mediator MED23 在将 UV 诱导的 DNA 修复与色素沉着偶联中起着重要作用。MED23 的缺失特异性地损害黑素细胞谱系细胞和斑马鱼中的色素沉着过程。由于 NER 因子的表达增强和向染色质募集，以维持基因组稳定性，Med23 缺陷导致 UV 辐射后核苷酸切除修复 (NER) 增强和 DNA 损伤减少。对黑色素瘤细胞的综合分析表明，MED23 通过调节其远端增强子活性来控制黑素细胞主调控因子 Mitf 的表达，从而对色素沉着和 DNA 修复产生相反的影响。总之，Mediator MED23/MITF 轴将 DNA 修复与色素沉着联系起来，从而为 DNA 损伤反应和与皮肤相关的疾病提供了分子见解。

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中介体 MED23 通过转录因子 MITF 将色素沉着与 DNA 修复联系起来。

Mediator MED23 Links Pigmentation and DNA Repair through the Transcription Factor MITF.

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