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人酪氨酸-tRNA合成酶氨基酰化和细胞因子活性的突变分离

Mutational separation of aminoacylation and cytokine activities of human tyrosyl-tRNA synthetase.

作者信息

Kapoor Mili, Otero Francella J, Slike Bonnie M, Ewalt Karla L, Yang Xiang-Lei

机构信息

Department of Molecular Biology, The Scripps Research Institute, La Jolla, CA 92037, USA.

出版信息

Chem Biol. 2009 May 29;16(5):531-9. doi: 10.1016/j.chembiol.2009.03.006.

DOI:10.1016/j.chembiol.2009.03.006
PMID:19477417
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2706086/
Abstract

Aminoacyl tRNA synthetases are known for catalysis of aminoacylation. Significantly, some mammalian synthetases developed cytokine functions possibly linked to disease-causing mutations in tRNA synthetases. Not understood is how epitopes for cytokine signaling were introduced into catalytic scaffolds without disturbing aminoacylation. Here we investigate human tyrosyl-tRNA synthetase, where a catalytic-domain surface helix, next to the active site, was recruited for interleukin-8-like cytokine signaling. Taking advantage of our high resolution structure, the reciprocal impact of rational mutations designed to disrupt aminoacylation or cytokine signaling was investigated with multiple assays. The collective analysis demonstrated a protective fine-structure separation of aminoacylation from cytokine activities within the conserved catalytic domain. As a consequence, disease-causing mutations affecting cell signaling can arise without disturbing aminoacylation. These results with TyrRS also predict the previously unknown binding conformation of interleukin-8-like CXC cytokines.

摘要

氨酰-tRNA合成酶以催化氨酰化反应而闻名。值得注意的是,一些哺乳动物合成酶具有细胞因子功能,这可能与tRNA合成酶中的致病突变有关。目前尚不清楚细胞因子信号表位是如何在不干扰氨酰化反应的情况下引入催化支架的。在这里,我们研究了人类酪氨酰-tRNA合成酶,其中活性位点旁边的催化结构域表面螺旋被用于白细胞介素-8样细胞因子信号传导。利用我们的高分辨率结构,通过多种测定方法研究了旨在破坏氨酰化或细胞因子信号传导的合理突变的相互影响。综合分析表明,在保守的催化结构域内,氨酰化与细胞因子活性之间存在保护性的精细结构分离。因此,影响细胞信号传导的致病突变可以在不干扰氨酰化的情况下出现。酪氨酰-tRNA合成酶的这些结果还预测了白细胞介素-8样CXC细胞因子以前未知的结合构象。

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