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精氨酸甲基化控制癌蛋白剪接因子 SF2/ASF 的亚细胞定位和功能。

Arginine methylation controls the subcellular localization and functions of the oncoprotein splicing factor SF2/ASF.

机构信息

Cold Spring Harbor Laboratory, Cold Spring Harbor, NY 11724, USA.

出版信息

Mol Cell Biol. 2010 Jun;30(11):2762-74. doi: 10.1128/MCB.01270-09. Epub 2010 Mar 22.

DOI:10.1128/MCB.01270-09
PMID:20308322
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2876523/
Abstract

Alternative splicing and posttranslational modifications (PTMs) are major sources of protein diversity in eukaryotic proteomes. The SR protein SF2/ASF is an oncoprotein that functions in pre-mRNA splicing, with additional roles in other posttranscriptional and translational events. Functional studies of SR protein PTMs have focused exclusively on the reversible phosphorylation of Ser residues in the C-terminal RS domain. We confirmed that human SF2/ASF is methylated at residues R93, R97, and R109, which were identified in a global proteomic analysis of Arg methylation, and further investigated whether these methylated residues regulate the properties of SF2/ASF. We show that the three arginines additively control the subcellular localization of SF2/ASF and that both the positive charge and the methylation state are important. Mutations that block methylation and remove the positive charge result in the cytoplasmic accumulation of SF2/ASF. The consequent decrease in nuclear SF2/ASF levels prevents it from modulating the alternative splicing of target genes, results in higher translation stimulation, and abrogates the enhancement of nonsense-mediated mRNA decay. This study addresses the mechanisms by which Arg methylation and the associated positive charge regulate the activities of SF2/ASF and emphasizes the significance of localization control for an oncoprotein with multiple functions in different cellular compartments.

摘要

可变剪接和翻译后修饰(PTMs)是真核生物蛋白质组中蛋白质多样性的主要来源。SR 蛋白 SF2/ASF 是一种癌蛋白,在 pre-mRNA 剪接中发挥作用,在其他转录后和翻译事件中也具有额外的作用。SR 蛋白 PTM 的功能研究仅集中在 C 端 RS 结构域 Ser 残基的可逆磷酸化上。我们证实,人类 SF2/ASF 在 Arg 甲基化的全局蛋白质组分析中鉴定出的残基 R93、R97 和 R109 处被甲基化,并且进一步研究了这些甲基化残基是否调节 SF2/ASF 的性质。我们表明,这三个精氨酸分别控制 SF2/ASF 的亚细胞定位,并且正电荷和甲基化状态都很重要。阻断甲基化和去除正电荷的突变导致 SF2/ASF 在细胞质中的积累。核 SF2/ASF 水平的降低阻止了它调节靶基因的可变剪接,导致更高的翻译刺激,并消除了无意义介导的 mRNA 降解的增强。这项研究解决了 Arg 甲基化和相关正电荷调节 SF2/ASF 活性的机制,并强调了定位控制对在不同细胞区室中具有多种功能的癌蛋白的重要性。

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