硒代半胱氨酸插入序列结合蛋白2与运动神经元生存蛋白复合物和甲基化体相互作用，以进行硒蛋白信使核糖核蛋白的组装和翻译。

SECIS-binding protein 2 interacts with the SMN complex and the methylosome for selenoprotein mRNP assembly and translation.

作者信息

Gribling-Burrer Anne-Sophie, Leichter Michael, Wurth Laurence, Huttin Alexandra, Schlotter Florence, Troffer-Charlier Nathalie, Cura Vincent, Barkats Martine, Cavarelli Jean, Massenet Séverine, Allmang Christine

机构信息

Université de Strasbourg, Centre National de la Recherche Scientifique, Architecture et Réactivité de l'ARN, Institut de Biologie Moléculaire et Cellulaire, F-67000 Strasbourg, France.

Ingénierie Moléculaire et Physiopathologie Articulaire (IMoPA), Université de Lorraine, Centre National de la Recherche Scientifique, UMR 7365, Faculté de Médecine, 54506 Vandoeuvre-les-Nancy Cedex, France.

出版信息

Nucleic Acids Res. 2017 May 19;45(9):5399-5413. doi: 10.1093/nar/gkx031.

DOI:10.1093/nar/gkx031

PMID:28115638

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5605228/

Abstract

Selenoprotein synthesis requires the co-translational recoding of a UGASec codon. This process involves an RNA structural element, called Selenocysteine Insertion Sequence (SECIS) and the SECIS binding protein 2 (SBP2). Several selenoprotein mRNAs undergo unusual cap hypermethylation by the trimethylguanosine synthase 1 (Tgs1), which is recruited by the ubiquitous Survival of MotoNeurons (SMN) protein. SMN, the protein involved in spinal muscular atrophy, is part of a chaperone complex that collaborates with the methylosome for RNP assembly. Here, we analyze the role of individual SMN and methylosome components in selenoprotein mRNP assembly and translation. We show that SBP2 interacts directly with four proteins of the SMN complex and the methylosome core proteins. Nevertheless, SBP2 is not a methylation substrate of the methylosome. We found that both SMN and methylosome complexes are required for efficient translation of the selenoprotein GPx1 in vivo. We establish that the steady-state level of several selenoprotein mRNAs, major regulators of oxidative stress damage in neurons, is specifically reduced in the spinal cord of SMN-deficient mice and that cap hypermethylation of GPx1 mRNA is affected. Altogether we identified a new function of the SMN complex and the methylosome in selenoprotein mRNP assembly and expression.

摘要

硒蛋白的合成需要对UGA硒代半胱氨酸密码子进行共翻译重编码。这一过程涉及一种名为硒代半胱氨酸插入序列（SECIS）的RNA结构元件和SECIS结合蛋白2（SBP2）。几种硒蛋白mRNA会被三甲基鸟苷合酶1（Tgs1）进行异常的帽超甲基化，而Tgs1是由普遍存在的运动神经元存活蛋白（SMN）招募的。SMN是一种与脊髓性肌萎缩相关的蛋白，是一种伴侣复合体的一部分，该复合体与甲基osome协同进行核糖核蛋白组装。在这里，我们分析了单个SMN和甲基osome成分在硒蛋白mRNP组装和翻译中的作用。我们发现SBP2直接与SMN复合体的四种蛋白和甲基osome核心蛋白相互作用。然而，SBP2不是甲基osome的甲基化底物。我们发现SMN和甲基osome复合体在体内对硒蛋白GPx1的有效翻译都是必需的。我们证实，几种硒蛋白mRNA的稳态水平，即神经元氧化应激损伤的主要调节因子，在SMN缺陷小鼠的脊髓中特异性降低，并且GPx1 mRNA的帽超甲基化受到影响。总之，我们确定了SMN复合体和甲基osome在硒蛋白mRNP组装和表达中的新功能。

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硒代半胱氨酸插入序列结合蛋白2与运动神经元生存蛋白复合物和甲基化体相互作用，以进行硒蛋白信使核糖核蛋白的组装和翻译。

SECIS-binding protein 2 interacts with the SMN complex and the methylosome for selenoprotein mRNP assembly and translation.

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