COMPASS家族对细胞身份相关的H3K4me3宽度的协同调控。

Coordinated regulation of cellular identity-associated H3K4me3 breadth by the COMPASS family.

作者信息

Sze Christie C, Ozark Patrick A, Cao Kaixiang, Ugarenko Michal, Das Siddhartha, Wang Lu, Marshall Stacy A, Rendleman Emily J, Ryan Caila A, Zha Didi, Douillet Delphine, Chen Fei Xavier, Shilatifard Ali

机构信息

Simpson Querrey Center for Epigenetics, Northwestern University Feinberg School of Medicine, Chicago, IL 60611, USA.

Department of Biochemistry and Molecular Genetics, Northwestern University Feinberg School of Medicine, 303 E. Superior St., Chicago, IL 60611, USA.

出版信息

Sci Adv. 2020 Jun 24;6(26):eaaz4764. doi: 10.1126/sciadv.aaz4764. eCollection 2020 Jun.

DOI:10.1126/sciadv.aaz4764

PMID:32637595

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7314515/

Abstract

Set1A and Set1B, two members of the COMPASS family of methyltransferases that methylate the histone H3 lysine 4 (H3K4) residue, have been accredited as primary depositors of global H3K4 trimethylation (H3K4me3) in mammalian cells. Our previous studies in mouse embryonic stem cells (ESCs) demonstrated that deleting the enzymatic SET domain of Set1A does not perturb bulk H3K4me3, indicating possible compensatory roles played by other COMPASS methyltransferases. Here, we generated a series of ESC lines harboring compounding mutations of COMPASS methyltransferases. We find that Set1B is functionally redundant to Set1A in implementing H3K4me3 at highly expressed genes, while Mll2 deposits H3K4me3 at less transcriptionally active promoters. While Set1A-B/COMPASS is responsible for broad H3K4me3 peaks, Mll2/COMPASS establishes H3K4me3 with narrow breadth. Additionally, Mll2 helps preserve global H3K4me3 levels and peak breadth in the absence of Set1A-B activity. Our results illustrate the biological flexibility of such enzymes in regulating transcription in a context-dependent manner to maintain stem cell identity.

摘要

Set1A和Set1B是COMPASS甲基转移酶家族的两个成员，可使组蛋白H3赖氨酸4（H3K4）残基发生甲基化，它们被认为是哺乳动物细胞中全局H3K4三甲基化（H3K4me3）的主要沉积者。我们之前在小鼠胚胎干细胞（ESC）中的研究表明，删除Set1A的酶促SET结构域不会干扰整体H3K4me3，这表明其他COMPASS甲基转移酶可能发挥了补偿作用。在这里，我们生成了一系列携带COMPASS甲基转移酶复合突变的ESC系。我们发现，在高表达基因处实现H3K4me3时，Set1B在功能上与Set1A冗余，而Mll2在转录活性较低的启动子处沉积H3K4me3。虽然Set1A - B/COMPASS负责宽泛的H3K4me3峰，但Mll2/COMPASS建立的H3K4me3峰宽度较窄。此外，在缺乏Set1A - B活性的情况下，Mll2有助于维持全局H3K4me3水平和峰宽度。我们的结果说明了这类酶在以依赖于上下文的方式调节转录以维持干细胞特性方面的生物学灵活性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b115/7314515/204f1164f518/aaz4764-F1.jpg

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COMPASS家族对细胞身份相关的H3K4me3宽度的协同调控。

Coordinated regulation of cellular identity-associated H3K4me3 breadth by the COMPASS family.

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