在异亮氨酸缺乏期间，异亮氨酸到缬氨酸的替换维持细胞生理功能。

Isoleucine-to-valine substitutions support cellular physiology during isoleucine deprivation.

作者信息

Kok Gautam, Schene Imre F, Ilcken Eveline F, Alcaraz Paula Sobrevals, Mendes Marisa I, Smith Desiree E C, Salomons Gajja, Shehata Sawsan, Jans Judith J M, Maroofian Reza, Hoek Tim A, van Es Robert M, Rehmann Holger, Nieuwenhuis Edward E S, Vos Harmjan R, Fuchs Sabine A

机构信息

Department of Metabolic Diseases, Wilhelmina Children's Hospital, University Medical Center Utrecht, Lundlaan 6, 3584 EA Utrecht, The Netherlands.

Center for Molecular Medicine, University Medical Center Utrecht, Oncode Institute, Heidelberglaan 100, 3584 CX Utrecht, The Netherlands.

出版信息

Nucleic Acids Res. 2025 Jan 7;53(1). doi: 10.1093/nar/gkae1184.

DOI:10.1093/nar/gkae1184

PMID:39657787

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11724295/

Abstract

Aminoacyl-tRNA synthetases (ARSs) couple tRNAs with their corresponding amino acids. While ARSs can bind structurally similar amino acids, extreme specificity is ensured by subsequent editing activity. Yet, we found that upon isoleucine (I) restriction, healthy fibroblasts consistently incorporated valine (V) into proteins at isoleucine codons, resulting from misacylation of tRNAIle with valine by wildtype IARS1. Using a dual-fluorescent reporter of translation, we found that valine supplementation could fully compensate for isoleucine depletion and restore translation to normal levels in healthy, but not IARS1 deficient cells. Similarly, the antiproliferative effects of isoleucine deprivation could be fully restored by valine supplementation in healthy, but not IARS1 deficient cells. This indicates I > V substitutions help prevent translational termination and maintain cellular function in human primary cells during isoleucine deprivation. We suggest that this is an example of a more general mechanism in mammalian cells to preserve translational speed at the cost of translational fidelity in response to (local) amino acid deficiencies.

摘要

氨酰 - tRNA合成酶（ARSs）将tRNA与其相应的氨基酸连接起来。虽然ARSs能够结合结构相似的氨基酸，但随后的编辑活性确保了极高的特异性。然而，我们发现，在异亮氨酸（I）受限的情况下，健康的成纤维细胞会持续将缬氨酸（V）掺入异亮氨酸密码子处的蛋白质中，这是由野生型IARS1使tRNAIle错误地被缬氨酸酰化所致。使用翻译的双荧光报告基因，我们发现补充缬氨酸可以完全补偿异亮氨酸的消耗，并将健康细胞（而非IARS1缺陷细胞）中的翻译恢复到正常水平。同样，在健康细胞（而非IARS1缺陷细胞）中，补充缬氨酸可以完全恢复异亮氨酸剥夺的抗增殖作用。这表明在异亮氨酸剥夺期间，I > V的替换有助于防止翻译终止并维持人类原代细胞中的细胞功能。我们认为，这是哺乳动物细胞中一种更普遍机制的例子，即在响应（局部）氨基酸缺乏时，以翻译保真度为代价来保持翻译速度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/786c/11724295/c2763a9916c9/gkae1184figgra1.jpg

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Isoleucine-to-valine substitutions support cellular physiology during isoleucine deprivation.在异亮氨酸缺乏期间，异亮氨酸到缬氨酸的替换维持细胞生理功能。

Nucleic Acids Res. 2025 Jan 7;53(1). doi: 10.1093/nar/gkae1184.

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在异亮氨酸缺乏期间，异亮氨酸到缬氨酸的替换维持细胞生理功能。

Isoleucine-to-valine substitutions support cellular physiology during isoleucine deprivation.

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