LARP1 和 LARP4：与 PABP 近距离作用以保护和稳定 mRNA 3' 多聚（A）。

LARP1 and LARP4: up close with PABP for mRNA 3' poly(A) protection and stabilization.

机构信息

Division of Intramural Research, Eunice Kennedy Shriver National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, MD, United States.

Department of Biochemistry & Centre for Structural Biology, McGill University, Montreal, Canada.

出版信息

RNA Biol. 2021 Feb;18(2):259-274. doi: 10.1080/15476286.2020.1868753. Epub 2021 Jan 31.

DOI:10.1080/15476286.2020.1868753

PMID:33522422

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7928012/

Abstract

La-related proteins (LARPs) share a La motif (LaM) followed by an RNA recognition motif (RRM). Together these are termed the La-module that, in the prototypical nuclear La protein and LARP7, mediates binding to the UUU-3'OH termination motif of nascent RNA polymerase III transcripts. We briefly review La and LARP7 activities for RNA 3' end binding and protection from exonucleases before moving to the more recently uncovered poly(A)-related activities of LARP1 and LARP4. Two features shared by LARP1 and LARP4 are direct binding to poly(A) and to the cytoplasmic poly(A)-binding protein (PABP, also known as PABPC1). LARP1, LARP4 and other proteins involved in mRNA translation, deadenylation, and decay, contain PAM2 motifs with variable affinities for the MLLE domain of PABP. We discuss a model in which these PABP-interacting activities contribute to poly(A) pruning of active mRNPs. Evidence that the SARS-CoV-2 RNA virus targets PABP, LARP1, LARP 4 and LARP 4B to control mRNP activity is also briefly reviewed. Recent data suggests that LARP4 opposes deadenylation by stabilizing PABP on mRNA poly(A) tails. Other data suggest that LARP1 can protect mRNA from deadenylation. This is dependent on a PAM2 motif with unique characteristics present in its La-module. Thus, while nuclear La and LARP7 stabilize small RNAs with 3' oligo(U) from decay, LARP1 and LARP4 bind and protect mRNA 3' poly(A) tails from deadenylases through close contact with PABP.: 5'TOP: 5' terminal oligopyrimidine, LaM: La motif, LARP: La-related protein, LARP1: La-related protein 1, MLLE: mademoiselle, NTR: N-terminal region, PABP: cytoplasmic poly(A)-binding protein (PABPC1), Pol III: RNA polymerase III, PAM2: PABP-interacting motif 2, PB: processing body, RRM: RNA recognition motif, SG: stress granule.

摘要

La 相关蛋白 (LARPs) 共享一个 La 基序 (LaM)，其后是一个 RNA 识别基序 (RRM)。这两者合称为 La 模块，在典型的核 La 蛋白和 LARP7 中，介导与新生 RNA 聚合酶 III 转录本的 UUU-3'OH 终止基序的结合。我们简要回顾了 La 和 LARP7 对 RNA 3' 端结合和保护免受核酸外切酶的作用，然后再讨论最近发现的 LARP1 和 LARP4 与多聚 (A) 相关的活性。LARP1 和 LARP4 具有两个共同特征，即直接结合多聚 (A) 和细胞质多聚 (A)-结合蛋白 (PABP，也称为 PABPC1)。LARP1、LARP4 和其他参与 mRNA 翻译、去腺苷酸化和衰变的蛋白质，含有与 PABP 的 MLLE 结构域具有可变亲和力的 PAM2 基序。我们讨论了一个模型，其中这些 PABP 相互作用的活性有助于活跃的 mRNP 中的多聚 (A) 修剪。SARS-CoV-2 RNA 病毒靶向 PABP、LARP1、LARP4 和 LARP4B 以控制 mRNP 活性的证据也简要回顾。最近的数据表明，LARP4 通过稳定 PABP 在 mRNA 多聚 (A) 尾部上，来阻止去腺苷酸化。其他数据表明，LARP1 可以保护 mRNA 免受去腺苷酸化。这取决于其 La 模块中存在的具有独特特征的 PAM2 基序。因此，虽然核 La 和 LARP7 稳定具有 3' 寡聚 (U) 的小 RNA 免受衰变，但 LARP1 和 LARP4 通过与 PABP 紧密接触，结合并保护 mRNA 3' 多聚 (A) 尾部免受去腺苷酸化酶的作用：5'TOP：5' 端寡嘧啶，LaM：La 基序，LARP：La 相关蛋白，LARP1：La 相关蛋白 1，MLLE：mademoiselle，NTR：N 端区域，PABP：细胞质多聚 (A)-结合蛋白 (PABPC1)，Pol III：RNA 聚合酶 III，PAM2：PABP 相互作用基序 2，PB：处理体，RRM：RNA 识别基序，SG：应激颗粒。

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