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巯基化/脱巯基化和亚硝酰化/去亚硝酰化:H2S 和 NO 作为气体信号分子的共同作用模式。

S-sulfhydration/desulfhydration and S-nitrosylation/denitrosylation: a common paradigm for gasotransmitter signaling by H2S and NO.

机构信息

Department of Pharmacology, Weill Cornell College of Medicine, 1300 York Avenue, New York, NY, USA.

出版信息

Methods. 2013 Aug 1;62(2):177-81. doi: 10.1016/j.ymeth.2013.05.020. Epub 2013 Jun 27.

DOI:10.1016/j.ymeth.2013.05.020
PMID:23811297
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3923419/
Abstract

Sulfhydryl groups on protein Cys residues undergo an array of oxidative reactions and modifications, giving rise to a virtual redox zip code with physiological and pathophysiological relevance for modulation of protein structure and functions. While over two decades of studies have established NO-dependent S-nitrosylation as ubiquitous and fundamental for the regulation of diverse protein activities, proteomic methods for studying H2S-dependent S-sulfhydration have only recently been described and now suggest that this is also an abundant modification with potential for global physiological importance. Notably, protein S-sulfhydration and S-nitrosylation bear striking similarities in terms of their chemical and biological determinants, as well as reversal of these modifications via group-transfer to glutathione, followed by the removal from glutathione by enzymes that have apparently evolved to selectively catalyze denitrosylation and desulfhydration. Here we review determinants of protein and low-molecular-weight thiol S-sulfhydration/desulfhydration, similarities with S-nitrosylation/denitrosylation, and methods that are being employed to investigate and quantify these gasotransmitter-mediated cell signaling systems.

摘要

巯基基团在蛋白质半胱氨酸残基上发生一系列氧化反应和修饰,形成一个具有生理和病理生理学相关性的虚拟氧化还原邮政编码,用于调节蛋白质结构和功能。虽然超过二十年的研究已经确立了 NO 依赖性 S-亚硝化作用作为调节多种蛋白质活性的普遍和基本作用,但最近才描述了用于研究 H2S 依赖性 S-硫化的蛋白质组学方法,现在表明这也是一种丰富的修饰,具有潜在的全局生理重要性。值得注意的是,蛋白质 S-硫化和 S-亚硝化在其化学和生物学决定因素方面具有惊人的相似性,以及通过基团转移到谷胱甘肽来逆转这些修饰,然后通过显然进化为选择性催化脱亚硝化和脱硫的酶从谷胱甘肽中去除。在这里,我们回顾了蛋白质和低分子量巯基 S-硫化/脱硫的决定因素,与 S-亚硝化/脱亚硝化的相似性,以及正在用于研究和定量这些气体递质介导的细胞信号系统的方法。

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