多器官功能障碍综合征维持调节细胞应激反应的转录程序。

MOF maintains transcriptional programs regulating cellular stress response.

作者信息

Sheikh B N, Bechtel-Walz W, Lucci J, Karpiuk O, Hild I, Hartleben B, Vornweg J, Helmstädter M, Sahyoun A H, Bhardwaj V, Stehle T, Diehl S, Kretz O, Voss A K, Thomas T, Manke T, Huber T B, Akhtar A

机构信息

Department of Chromatin Regulation, Max Planck Institute of Immunobiology and Epigenetics, Freiburg im Breisgau, Germany.

Renal Division, University Medical Center, Freiburg, Germany.

出版信息

Oncogene. 2016 May;35(21):2698-710. doi: 10.1038/onc.2015.335. Epub 2015 Sep 21.

DOI:10.1038/onc.2015.335

PMID:26387537

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4893634/

Abstract

MOF (MYST1, KAT8) is the major H4K16 lysine acetyltransferase (KAT) in Drosophila and mammals and is essential for embryonic development. However, little is known regarding the role of MOF in specific cell lineages. Here we analyze the differential role of MOF in proliferating and terminally differentiated tissues at steady state and under stress conditions. In proliferating cells, MOF directly binds and maintains the expression of genes required for cell cycle progression. In contrast, MOF is dispensable for terminally differentiated, postmitotic glomerular podocytes under physiological conditions. However, in response to injury, MOF is absolutely critical for podocyte maintenance in vivo. Consistently, we detect defective nuclear, endoplasmic reticulum and Golgi structures, as well as presence of multivesicular bodies in vivo in podocytes lacking Mof following injury. Undertaking genome-wide expression analysis of podocytes, we uncover several MOF-regulated pathways required for stress response. We find that MOF, along with the members of the non-specific lethal but not the male-specific lethal complex, directly binds to genes encoding the lysosome, endocytosis and vacuole pathways, which are known regulators of podocyte maintenance. Thus, our work identifies MOF as a key regulator of cellular stress response in glomerular podocytes.

摘要

MOF（MYST1，KAT8）是果蝇和哺乳动物中主要的H4K16赖氨酸乙酰转移酶（KAT），对胚胎发育至关重要。然而，关于MOF在特定细胞谱系中的作用知之甚少。在此，我们分析了MOF在稳态和应激条件下在增殖组织和终末分化组织中的不同作用。在增殖细胞中，MOF直接结合并维持细胞周期进程所需基因的表达。相比之下，在生理条件下，MOF对于终末分化的有丝分裂后肾小球足细胞是可有可无的。然而，在受到损伤时，MOF对于体内足细胞的维持绝对至关重要。一致地，我们在损伤后缺乏Mof的足细胞中检测到体内核、内质网和高尔基体结构缺陷，以及多囊泡体的存在。通过对足细胞进行全基因组表达分析，我们发现了几个应激反应所需的MOF调节途径。我们发现，MOF与非特异性致死蛋白而非雄性特异性致死复合物的成员一起，直接结合编码溶酶体、内吞作用和液泡途径的基因，这些基因是已知的足细胞维持调节因子。因此，我们的工作确定MOF是肾小球足细胞中细胞应激反应的关键调节因子。

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多器官功能障碍综合征维持调节细胞应激反应的转录程序。

MOF maintains transcriptional programs regulating cellular stress response.

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