丝氨酸分解代谢由 SHMT2 完成，这是正确的线粒体翻译起始和甲酰甲硫氨酰-tRNA 维持所必需的。

Serine Catabolism by SHMT2 Is Required for Proper Mitochondrial Translation Initiation and Maintenance of Formylmethionyl-tRNAs.

机构信息

Department of Pathology, NYU School of Medicine, New York, NY 10016, USA; Laura and Isaac Perlmutter Cancer Center, NYU School of Medicine, New York, NY 10016, USA.

Laboratory of Metabolic Regulation and Genetics, The Rockefeller University, 1230 York Avenue, New York, NY 10065, USA.

出版信息

Mol Cell. 2018 Feb 15;69(4):610-621.e5. doi: 10.1016/j.molcel.2018.01.024.

DOI:10.1016/j.molcel.2018.01.024

PMID:29452640

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5819360/

Abstract

Upon glucose restriction, eukaryotic cells upregulate oxidative metabolism to maintain homeostasis. Using genetic screens, we find that the mitochondrial serine hydroxymethyltransferase (SHMT2) is required for robust mitochondrial oxygen consumption and low glucose proliferation. SHMT2 catalyzes the first step in mitochondrial one-carbon metabolism, which, particularly in proliferating cells, produces tetrahydrofolate (THF)-conjugated one-carbon units used in cytoplasmic reactions despite the presence of a parallel cytoplasmic pathway. Impairing cytoplasmic one-carbon metabolism or blocking efflux of one-carbon units from mitochondria does not phenocopy SHMT2 loss, indicating that a mitochondrial THF cofactor is responsible for the observed phenotype. The enzyme MTFMT utilizes one such cofactor, 10-formyl THF, producing formylmethionyl-tRNAs, specialized initiator tRNAs necessary for proper translation of mitochondrially encoded proteins. Accordingly, SHMT2 null cells specifically fail to maintain formylmethionyl-tRNA pools and mitochondrially encoded proteins, phenotypes similar to those observed in MTFMT-deficient patients. These findings provide a rationale for maintaining a compartmentalized one-carbon pathway in mitochondria.

摘要

在葡萄糖限制下，真核细胞上调氧化代谢以维持体内平衡。通过遗传筛选，我们发现线粒体丝氨酸羟甲基转移酶（SHMT2）是维持强大的线粒体耗氧和低糖增殖所必需的。SHMT2 催化线粒体一碳代谢的第一步，该代谢途径特别在增殖细胞中产生四氢叶酸（THF）结合的一碳单位，用于细胞质反应，尽管存在平行的细胞质途径。抑制细胞质一碳代谢或阻止一碳单位从线粒体流出并不能模拟 SHMT2 的缺失，这表明线粒体 THF 辅因子是导致观察到的表型的原因。酶 MTFMT 利用其中一种辅因子，10-甲酰基 THF，产生甲酰甲硫氨酰-tRNA，这是一种特殊的起始 tRNA，对于正确翻译线粒体编码的蛋白质是必要的。因此，SHMT2 缺失细胞特别无法维持甲酰甲硫氨酰-tRNA 池和线粒体编码的蛋白质，其表型与 MTFMT 缺陷患者观察到的表型相似。这些发现为维持线粒体中分隔的一碳途径提供了依据。

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