与小泛素样修饰物和核仁蛋白 Csm1 的结合调节 Ulp2 蛋白酶的底物特异性。

Binding to small ubiquitin-like modifier and the nucleolar protein Csm1 regulates substrate specificity of the Ulp2 protease.

机构信息

Ludwig Institute for Cancer Research, San Diego Branch, University of California, San Diego, La Jolla, California 92093.

Ludwig Institute for Cancer Research, San Diego Branch, University of California, San Diego, La Jolla, California 92093; Division of Biological Sciences, University of California, San Diego, La Jolla, California 92093.

出版信息

J Biol Chem. 2018 Aug 3;293(31):12105-12119. doi: 10.1074/jbc.RA118.003022. Epub 2018 Jun 14.

DOI:10.1074/jbc.RA118.003022

PMID:29903909

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6078457/

Abstract

Ulp1 and Ulp2, in the yeast , are the founding members of deSUMOylating enzymes. These enzymes remove mall biquitin-like difier (SUMO) from proteins and are conserved in all eukaryotes. Previous studies have shown that Ulp1 deSUMOylates the bulk of intracellular SUMOylated proteins, whereas Ulp2 is a highly specific enzyme. However, the mechanism for Ulp2's substrate specificity has been insufficiently understood. Here we show that the C-terminal regulatory domain of Ulp2 contains three distinct, yet conserved, motifs that control its substrate specificity and cell growth. Among them, a SUMO-interacting motif (SIM) was found to coordinate with the domain of Ulp2 that binds to the nucleolar protein Csm1 to ensure maximal deSUMOylation of Ulp2's nucleolar substrates. We found that whereas the Csm1-binding domain of Ulp2 recruits this enzyme to the nucleolus, Ulp2's C-terminal SIM promotes its SUMO protease activity and plays a key role in mediating the specificity of Ulp2. Thus, the substrate specificity of Ulp2 is controlled by both its subcellular localization and the SUMOylation status of its substrates. These findings illustrate the highly coordinated and dynamic nature of the SUMO pathways in maintaining homeostasis of intracellular SUMOylation.

摘要

Ulp1 和 Ulp2 是酵母中去 SUMO 化酶的创始成员。这些酶从蛋白质上去除小泛素样修饰物 (SUMO)，并在所有真核生物中保守。先前的研究表明，Ulp1 去 SUMO 化大部分细胞内 SUMO 化的蛋白质，而 Ulp2 是一种高度特异性的酶。然而，Ulp2 的底物特异性的机制尚未充分了解。在这里，我们表明 Ulp2 的 C 端调节域包含三个不同但保守的基序，控制其底物特异性和细胞生长。其中，发现一个 SUMO 相互作用基序 (SIM) 与 Ulp2 结合核仁蛋白 Csm1 的结构域协同作用，以确保 Ulp2 的核仁底物的最大去 SUMO 化。我们发现，虽然 Ulp2 的 Csm1 结合结构域将这种酶募集到核仁，但 Ulp2 的 C 端 SIM 促进其 SUMO 蛋白酶活性，并在介导 Ulp2 的特异性方面发挥关键作用。因此，Ulp2 的底物特异性既受其亚细胞定位的控制，也受其底物 SUMO 化状态的控制。这些发现说明了 SUMO 途径在维持细胞内 SUMO 化的动态平衡方面的高度协调性和动态性。

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