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人类线粒体 12S rRNA mC 甲基转移酶 METTL15 对于线粒体功能是必需的。

The human mitochondrial 12S rRNA mC methyltransferase METTL15 is required for mitochondrial function.

机构信息

Division of Newborn Medicine and Epigenetics Program, Department of Medicine, Boston Children's Hospital, Boston, Massachusetts, USA.

Department of Cell Biology, Harvard Medical School, Boston, Massachusetts, USA.

出版信息

J Biol Chem. 2020 Jun 19;295(25):8505-8513. doi: 10.1074/jbc.RA119.012127. Epub 2020 May 5.

DOI:10.1074/jbc.RA119.012127
PMID:32371392
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7307190/
Abstract

Mitochondrial DNA gene expression is coordinately regulated both pre- and post-transcriptionally, and its perturbation can lead to human pathologies. Mitochondrial rRNAs (mt-rRNAs) undergo a series of nucleotide modifications after release from polycistronic mitochondrial RNA precursors, which is essential for mitochondrial ribosomal biogenesis. Cytosine -methylation (mC) at position 839 (mC839) of the 12S small subunit mt-rRNA was identified decades ago; however, its biogenesis and function have not been elucidated in detail. Here, using several approaches, including immunofluorescence, RNA immunoprecipitation and methylation assays, and bisulfite mapping, we demonstrate that human methyltransferase-like 15 (METTL15), encoded by a nuclear gene, is responsible for 12S mt-rRNA methylation at mC839 both and We tracked the evolutionary history of RNA mC methyltransferases and identified a difference in substrate preference between METTL15 and its bacterial ortholog rsmH. Additionally, unlike the very modest impact of a loss of mC methylation in bacterial small subunit rRNA on the ribosome, we found that METTL15 depletion results in impaired translation of mitochondrial protein-coding mRNAs and decreases mitochondrial respiration capacity. Our findings reveal that human METTL15 is required for mitochondrial function, delineate the evolution of methyltransferase substrate specificities and modification patterns in rRNA, and highlight a differential impact of mC methylation on prokaryotic ribosomes and eukaryotic mitochondrial ribosomes.

摘要

线粒体 DNA 基因表达在转录前和转录后都受到协调调控,其干扰可能导致人类疾病。线粒体 rRNA(mt-rRNA)在从多顺反子线粒体 RNA 前体释放后经历一系列核苷酸修饰,这对于线粒体核糖体生物发生是必不可少的。几十年前就已经确定了 12S 小亚基 mt-rRNA 上的 839 位胞嘧啶(mC)的甲基化(mC839);然而,其生物发生和功能尚未详细阐明。在这里,我们使用包括免疫荧光、RNA 免疫沉淀和甲基化测定以及亚硫酸氢盐作图在内的几种方法,证明了由核基因编码的人类甲基转移酶样 15(METTL15)负责 12S mt-rRNA 在 mC839 处的甲基化。我们跟踪了 RNA mC 甲基转移酶的进化历史,并确定了 METTL15 和其细菌同源物 rsmH 在底物偏好上的差异。此外,与细菌小亚基 rRNA 中 mC 甲基化缺失对核糖体的影响非常轻微不同,我们发现 METTL15 耗竭会导致线粒体蛋白编码 mRNA 的翻译受损,并降低线粒体呼吸能力。我们的研究结果揭示了人类 METTL15 对于线粒体功能的重要性,描绘了甲基转移酶底物特异性和 rRNA 修饰模式的进化,并强调了 mC 甲基化对原核核糖体和真核线粒体核糖体的不同影响。

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本文引用的文献

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METTL15 introduces N4-methylcytidine into human mitochondrial 12S rRNA and is required for mitoribosome biogenesis.METTL15 将 N4-甲基胞嘧啶引入人线粒体 12S rRNA 中,并且是线粒体核糖体生物发生所必需的。
Nucleic Acids Res. 2019 Nov 4;47(19):10267-10281. doi: 10.1093/nar/gkz735.
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A trans-ancestral meta-analysis of genome-wide association studies reveals loci associated with childhood obesity.跨祖先全基因组关联研究的荟萃分析揭示了与儿童肥胖相关的位点。
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Mettl17, a regulator of mitochondrial ribosomal RNA modifications, is required for the translation of mitochondrial coding genes.Mettl17 是线粒体核糖体 RNA 修饰的调节因子,对于线粒体编码基因的翻译是必需的。
FASEB J. 2019 Nov;33(11):13040-13050. doi: 10.1096/fj.201901331R. Epub 2019 Sep 5.
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NMethyladenosine methyltransferase ZCCHC4 mediates ribosomal RNA methylation.N6-甲基腺苷甲基转移酶 ZCCHC4 介导核糖体 RNA 甲基化。
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Ribosome assembly coming into focus.核糖体组装备受关注。
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Structural and evolutionary insights into ribosomal RNA methylation.核糖体 RNA 甲基化的结构和进化见解。
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