核糖体相关质量控制机制：从细菌到人。

Ribosome-associated quality-control mechanisms from bacteria to humans.

机构信息

Zentrum für Molekulare Biologie der Universität Heidelberg, DKFZ-ZMBH Alliance, 69120 Heidelberg, Germany.

出版信息

Mol Cell. 2022 Apr 21;82(8):1451-1466. doi: 10.1016/j.molcel.2022.03.038.

DOI:10.1016/j.molcel.2022.03.038

PMID:35452614

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9034055/

Abstract

Ribosome-associated quality-control (RQC) surveys incomplete nascent polypeptides produced by interrupted translation. Central players in RQC are the human ribosome- and tRNA-binding protein, NEMF, and its orthologs, yeast Rqc2 and bacterial RqcH, which sense large ribosomal subunits obstructed with nascent chains and then promote nascent-chain proteolysis. In canonical eukaryotic RQC, NEMF stabilizes the LTN1/Listerin E3 ligase binding to obstructed ribosomal subunits for nascent-chain ubiquitylation. Furthermore, NEMF orthologs across evolution modify nascent chains by mediating C-terminal, untemplated polypeptide elongation. In eukaryotes, this process exposes ribosome-buried nascent-chain lysines, the ubiquitin acceptor sites, to LTN1. Remarkably, in both bacteria and eukaryotes, C-terminal tails also have an extra-ribosomal function as degrons. Here, we discuss recent findings on RQC mechanisms and briefly review how ribosomal stalling is sensed upstream of RQC, including via ribosome collisions, from an evolutionary perspective. Because RQC defects impair cellular fitness and cause neurodegeneration, this knowledge provides a framework for pathway-related biology and disease studies.

摘要

核糖体相关质量控制 (RQC) 检测翻译中断产生的不完全新生多肽。RQC 的核心成员是人类核糖体和 tRNA 结合蛋白 NEMF 及其同源物酵母 Rqc2 和细菌 RqcH，它们能感知到被新生链阻塞的大亚基核糖体，然后促进新生链的蛋白水解。在经典的真核 RQC 中，NEMF 稳定 LTN1/Listerin E3 连接酶与受阻核糖体亚基的结合，以实现新生链泛素化。此外，进化过程中的 NEMF 同源物通过介导 C 末端非模板化多肽延伸来修饰新生链。在真核生物中，该过程使核糖体埋藏的新生链赖氨酸（泛素接受位点）暴露于 LTN1 下。值得注意的是，在细菌和真核生物中，C 末端尾巴也具有核糖体外的功能，作为降解物。在这里，我们将讨论最近关于 RQC 机制的发现，并简要回顾从进化角度来看，核糖体停滞如何在上游被 RQC 检测到，包括通过核糖体碰撞。由于 RQC 缺陷会损害细胞活力并导致神经退行性变，因此这些知识为该途径相关的生物学和疾病研究提供了框架。

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