PRC2-EZH1通过协调染色质状态和RNA聚合酶II复合物稳定性来促进昼夜节律基因表达。

PRC2-EZH1 contributes to circadian gene expression by orchestrating chromatin states and RNA polymerase II complex stability.

作者信息

Liu Peng, Nadeef Seba, Serag Maged F, Paytuví-Gallart Andreu, Abadi Maram, Della Valle Francesco, Radío Santiago, Roda Xènia, Dilmé Capó Jaïr, Adroub Sabir, Hosny El Said Nadine, Fallatah Bodor, Celii Mirko, Messa Gian Marco, Wang Mengge, Li Mo, Tognini Paola, Aguilar-Arnal Lorena, Habuchi Satoshi, Masri Selma, Sassone-Corsi Paolo, Orlando Valerio

机构信息

King Abdullah University of Science and Technology, KAUST, Biological and Environmental Sciences and Engineering Division, KAUST Environmental Epigenetics Program, Thuwal, 23955-6900, Kingdom of Saudi Arabia.

King Abdullah University of Science and Technology, KAUST, Biological and Environmental Sciences and Engineering Division, Bioscience Program, Thuwal, 23955-6900, Kingdom of Saudi Arabia.

出版信息

EMBO J. 2024 Dec;43(23):6052-6075. doi: 10.1038/s44318-024-00267-2. Epub 2024 Oct 21.

DOI:10.1038/s44318-024-00267-2

PMID:39433902

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11612306/

Abstract

Circadian rhythmicity of gene expression is a conserved feature of cell physiology. This involves fine-tuning between transcriptional and post-transcriptional mechanisms and strongly depends on the metabolic state of the cell. Together these processes guarantee an adaptive plasticity of tissue-specific genetic programs. However, it is unclear how the epigenome and RNA Pol II rhythmicity are integrated. Here we show that the PcG protein EZH1 has a gateway bridging function in postmitotic skeletal muscle cells. On the one hand, the circadian clock master regulator BMAL1 directly controls oscillatory behavior and periodic assembly of core components of the PRC2-EZH1 complex. On the other hand, EZH1 is essential for circadian gene expression at alternate Zeitgeber times, through stabilization of RNA Polymerase II preinitiation complexes, thereby controlling nascent transcription. Collectively, our data show that PRC2-EZH1 regulates circadian transcription both negatively and positively by modulating chromatin states and basal transcription complex stability.

摘要

基因表达的昼夜节律性是细胞生理学的一个保守特征。这涉及转录和转录后机制之间的微调，并且强烈依赖于细胞的代谢状态。这些过程共同保证了组织特异性遗传程序的适应性可塑性。然而，尚不清楚表观基因组和RNA聚合酶II的节律性是如何整合的。在这里，我们表明多梳蛋白EZH1在有丝分裂后骨骼肌细胞中具有桥梁连接功能。一方面，昼夜节律主调节因子BMAL1直接控制PRC2-EZH1复合物核心成分的振荡行为和周期性组装。另一方面，EZH1通过稳定RNA聚合酶II预起始复合物，在交替的授时因子时间对昼夜节律基因表达至关重要，从而控制新生转录。总体而言，我们的数据表明PRC2-EZH1通过调节染色质状态和基础转录复合物稳定性，对昼夜节律转录起正向和负向调节作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2de6/11612306/5a3aff7f8830/44318_2024_267_Fig1_HTML.jpg

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PRC2-EZH1通过协调染色质状态和RNA聚合酶II复合物稳定性来促进昼夜节律基因表达。

PRC2-EZH1 contributes to circadian gene expression by orchestrating chromatin states and RNA polymerase II complex stability.

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