基质修饰对 PRMT1 和 PRMT5 的精氨酸二甲基化活性的影响。

Effects of substrate modifications on the arginine dimethylation activities of PRMT1 and PRMT5.

机构信息

Department of Pharmaceutical and Biomedical Sciences, College of Pharmacy, University of Georgia, Athens, Georgia,USA.

出版信息

Epigenetics. 2022 Jan;17(1):1-18. doi: 10.1080/15592294.2020.1864170. Epub 2020 Dec 31.

DOI:10.1080/15592294.2020.1864170

PMID:33380261

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8813082/

Abstract

Histone arginine methylation is a prevalent posttranslational modification (PTM) in eukaryotic cells and contributes to the histone codes for epigenetic regulation of gene transcription. In this study, we determined how local changes on adjacent residues in the histone H4 substrate regulate arginine asymmetric dimethylation and symmetric dimethylation catalysed by the major protein arginine methyltransferase (PRMT) enzymes PRMT1 and PRMT5, respectively. We found that phosphorylation at histone H4 Ser-1 site (H4S1) was inhibitory to activities of PRMT1 and PRMT5 in both monomethylating and dimethylating H4R3. Also, a positively charged H4K5 was important for PRMT1 catalysis because acetylation of H4K5 or the loss of the H4K5 ε-amine had a similar effect in reducing the catalytic efficiency of asymmetric dimethylation of H4R3. An opposite effect was observed in that acetylation of H4K5 or the loss of the H4K5 ε-amine enhanced PRMT5-mediated symmetric dimethylation of H4R3. Furthermore, we observed that N-terminal acetylation of H4 modestly decreased asymmetric dimethylation of H4R3 by PRMT1 and symmetric dimethylation of H4R3 by PRMT5. This work highlights the significance of local chemical changes in the substrate to regulating PRMT activity and unravels the pattern complexities and subtleties of histone codes.

摘要

组蛋白精氨酸甲基化是真核细胞中普遍存在的一种翻译后修饰（PTM），有助于组蛋白编码的表观遗传调控基因转录。在这项研究中，我们确定了组蛋白 H4 底物上相邻残基的局部变化如何调节主要的蛋白质精氨酸甲基转移酶（PRMT）酶 PRMT1 和 PRMT5 分别催化的精氨酸不对称二甲基化和对称二甲基化。我们发现组蛋白 H4 丝氨酸-1 位（H4S1）的磷酸化对 PRMT1 和 PRMT5 对 H4R3 的单甲基化和二甲基化活性均有抑制作用。此外，带正电荷的 H4K5 对 PRMT1 催化作用很重要，因为 H4K5 的乙酰化或 H4K5ε-氨基的丧失在降低 H4R3 的不对称二甲基化的催化效率方面具有相似的作用。观察到相反的效果是，H4K5 的乙酰化或 H4K5ε-氨基的丧失增强了 PRMT5 介导的 H4R3 的对称二甲基化。此外，我们观察到 H4 的 N 端乙酰化适度降低了 PRMT1 对 H4R3 的不对称二甲基化和 PRMT5 对 H4R3 的对称二甲基化。这项工作强调了底物中局部化学变化对调节 PRMT 活性的重要性，并揭示了组蛋白编码的复杂性和微妙之处。

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