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METTL1-WDR4 调控 mG tRNA 修饰的结构基础

Structural basis of regulated mG tRNA modification by METTL1-WDR4.

机构信息

Stem Cell Program, Division of Hematology/Oncology, Boston Children's Hospital, Boston, MA, USA.

Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, Boston, MA, USA.

出版信息

Nature. 2023 Jan;613(7943):391-397. doi: 10.1038/s41586-022-05566-4. Epub 2023 Jan 4.

DOI:10.1038/s41586-022-05566-4
PMID:36599985
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11179147/
Abstract

Chemical modifications of RNA have key roles in many biological processes. N-methylguanosine (mG) is required for integrity and stability of a large subset of tRNAs. The methyltransferase 1-WD repeat-containing protein 4 (METTL1-WDR4) complex is the methyltransferase that modifies G46 in the variable loop of certain tRNAs, and its dysregulation drives tumorigenesis in numerous cancer types. Mutations in WDR4 cause human developmental phenotypes including microcephaly. How METTL1-WDR4 modifies tRNA substrates and is regulated remains elusive. Here we show,  through structural, biochemical and cellular studies of human METTL1-WDR4, that WDR4 serves as a scaffold for METTL1 and the tRNA T-arm. Upon tRNA binding, the αC region of METTL1 transforms into a helix, which together with the α6 helix secures both ends of the tRNA variable loop. Unexpectedly, we find that the predicted disordered N-terminal region of METTL1 is part of the catalytic pocket and essential for methyltransferase activity. Furthermore, we reveal that S27 phosphorylation in the METTL1 N-terminal region inhibits methyltransferase activity by locally disrupting the catalytic centre. Our results provide a molecular understanding of tRNA substrate recognition and phosphorylation-mediated regulation of METTL1-WDR4, and reveal the presumed disordered N-terminal region of METTL1 as a nexus of methyltransferase activity.

摘要

RNA 的化学修饰在许多生物过程中起着关键作用。N6-甲基鸟嘌呤(mG)是大量 tRNA 完整性和稳定性所必需的。甲基转移酶 1-WD 重复蛋白 4(METTL1-WDR4)复合物是修饰某些 tRNA 可变环中 G46 的甲基转移酶,其失调会导致多种癌症类型的肿瘤发生。WDR4 中的突变会导致人类发育表型,包括小头症。METTL1-WDR4 如何修饰 tRNA 底物以及如何受到调节仍然难以捉摸。在这里,我们通过对人 METTL1-WDR4 的结构、生化和细胞研究表明,WDR4 作为 METTL1 和 tRNA T 臂的支架。在 tRNA 结合后,METTL1 的αC 区域转变为螺旋,与α6 螺旋一起固定 tRNA 可变环的两端。出乎意料的是,我们发现 METTL1 预测的无规则 N 端区域是催化口袋的一部分,对甲基转移酶活性至关重要。此外,我们揭示了 METTL1 N 端区域中的 S27 磷酸化通过局部破坏催化中心来抑制甲基转移酶活性。我们的研究结果提供了对 tRNA 底物识别和磷酸化介导的 METTL1-WDR4 调控的分子理解,并揭示了假定的 METTL1 无规则 N 端区域作为甲基转移酶活性的枢纽。

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3
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