The Cajal body marker protein coilin is SUMOylated and possesses SUMO E3 ligase-like activity

Katheryn E. Lett, D. Mclaurin, Sara K. Tucker, M. Hebert
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引用次数: 1

Abstract

Cajal bodies (CBs) are subnuclear domains that contribute to the biogenesis of several different classes of ribonucleoproteins (RNPs), including small nuclear RNPs. Only some cell types contain abundant CBs, such as neuronal cells and skeletal muscle, but CBs are invariant features of transformed cells. In contrast, coilin, the CB marker protein, is a ubiquitously expressed nuclear protein, but the function of coilin in cell types that lack CBs is not well understood. We have previously shown that coilin promotes microRNA biogenesis by promoting phosphorylation of DGCR8, a component of the microprocessor. Here, we identify seven additional residues of DGCR8 with decreased phosphorylation upon coilin knockdown. In addition to phosphorylation, the addition of a small ubiquitin-like modifier (SUMO) to DGCR8 also increases its stability. Because of coilin’s role in the promotion of DGCR8 phosphorylation, we investigated whether coilin is involved in DGCR8 SUMOylation. We show that coilin knockdown results in global decrease of protein SUMOylation, including decreased DGCR8 and Sp100 (a PML body client protein) SUMOylation and decreased SMN expression. Alternatively, we found that coilin expression rescued Sp100 SUMOylation and increased DGCR8 and SMN levels in a coilin knockout cell line. Furthermore, we found that coilin facilitates RanGAP1 SUMOylation, interacts directly with components of the SUMOylation machinery (Ubc9 and SUMO2), and, itself, is SUMOylated in vitro and in vivo. In summary, we have identified coilin as a regulator of DGCR8 phosphorylation and a promotor of protein SUMOylation with SUMO E3 ligase-like activity.
Cajal体标记蛋白coilin被SUMO修饰,并具有SUMO E3连接酶样活性
Cajal小体(CBs)是一种亚核结构域,参与多种不同类型的核糖核蛋白(RNPs)的生物发生,包括小核RNPs。只有一些细胞类型含有丰富的CBs,如神经细胞和骨骼肌,但CBs是转化细胞的不变特征。相比之下,作为CB标记蛋白的coilin是一种普遍表达的核蛋白,但coilin在缺乏CB的细胞类型中的功能尚不清楚。我们之前已经证明,卷曲蛋白通过促进微处理器组成部分DGCR8的磷酸化来促进microRNA的生物发生。在这里,我们鉴定了另外7个DGCR8残基,它们在卷曲蛋白敲除后磷酸化降低。除了磷酸化外,在DGCR8中加入一个小的泛素样修饰剂(SUMO)也增加了它的稳定性。由于coilin在促进DGCR8磷酸化中的作用,我们研究了coilin是否参与DGCR8的SUMOylation。我们发现,coilin敲低导致蛋白summoylation的整体降低,包括DGCR8和Sp100 (PML身体客户蛋白)summoylation的降低和SMN表达的降低。另外,我们发现,在圈蛋白敲除细胞系中,圈蛋白表达挽救了Sp100 SUMOylation,并增加了DGCR8和SMN水平。此外,我们发现coilin促进RanGAP1的SUMOylation,直接与SUMOylation机制的组件(Ubc9和SUMO2)相互作用,并且它本身在体外和体内都被SUMOylation。综上所述,我们已经确定了卷曲蛋白是DGCR8磷酸化的调节剂和具有SUMO E3连接酶样活性的蛋白SUMO酰化的启动子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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