进化保守的 NSL 复合物/BRD4 轴通过组蛋白乙酰化控制转录激活。

Evolutionary conserved NSL complex/BRD4 axis controls transcription activation via histone acetylation.

机构信息

Max Planck Institute of Immunobiology and Epigenetics, Stuebeweg 51, 79108, Freiburg, Germany.

CHU Nantes, Service de Génétique Médicale, 38 Boulevard Jean Monnet, 44000, Nantes, France.

出版信息

Nat Commun. 2020 May 7;11(1):2243. doi: 10.1038/s41467-020-16103-0.

DOI:10.1038/s41467-020-16103-0

PMID:32382029

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7206058/

Abstract

Cells rely on a diverse repertoire of genes for maintaining homeostasis, but the transcriptional networks underlying their expression remain poorly understood. The MOF acetyltransferase-containing Non-Specific Lethal (NSL) complex is a broad transcription regulator. It is essential in Drosophila, and haploinsufficiency of the human KANSL1 subunit results in the Koolen-de Vries syndrome. Here, we perform a genome-wide RNAi screen and identify the BET protein BRD4 as an evolutionary conserved co-factor of the NSL complex. Using Drosophila and mouse embryonic stem cells, we characterise a recruitment hierarchy, where NSL-deposited histone acetylation enables BRD4 recruitment for transcription of constitutively active genes. Transcriptome analyses in Koolen-de Vries patient-derived fibroblasts reveals perturbations with a cellular homeostasis signature that are evoked by the NSL complex/BRD4 axis. We propose that BRD4 represents a conserved bridge between the NSL complex and transcription activation, and provide a new perspective in the understanding of their functions in healthy and diseased states.

摘要

细胞依赖多样化的基因谱来维持其体内平衡，但对于这些基因表达的转录调控网络仍知之甚少。MOF 乙酰转移酶包含的非特异性致死（NSL）复合物是一种广泛的转录调控因子。在果蝇中它是必需的，而人类 KANSL1 亚基的杂合不足导致 Koolen-de Vries 综合征。在这里，我们进行了全基因组 RNAi 筛选，并鉴定出 BET 蛋白 BRD4 是 NSL 复合物的一个进化保守的共因子。利用果蝇和小鼠胚胎干细胞，我们对招募层次进行了特征描述，其中 NSL 沉积的组蛋白乙酰化使 BRD4 募集，从而激活组成性活性基因的转录。Koolen-de Vries 患者来源成纤维细胞的转录组分析显示，NSL 复合物/BRD4 轴引发了与细胞内稳态特征相关的扰动。我们提出 BRD4 代表 NSL 复合物和转录激活之间的一个保守桥梁，并为理解它们在健康和疾病状态下的功能提供了新的视角。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a108/7206058/1df61ddb77d4/41467_2020_16103_Fig1_HTML.jpg

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进化保守的 NSL 复合物/BRD4 轴通过组蛋白乙酰化控制转录激活。

Evolutionary conserved NSL complex/BRD4 axis controls transcription activation via histone acetylation.

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