多硫化物将 H2S 与蛋白质巯基氧化联系起来。

Polysulfides link H2S to protein thiol oxidation.

机构信息

1 Division of Redox Regulation, German Cancer Research Center (DKFZ), DKFZ-ZMBH Alliance , Heidelberg, Germany .

出版信息

Antioxid Redox Signal. 2013 Nov 20;19(15):1749-65. doi: 10.1089/ars.2012.5041. Epub 2013 Jun 20.

DOI:10.1089/ars.2012.5041

PMID:23646934

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3837443/

Abstract

AIMS

Hydrogen sulfide (H2S) is suggested to act as a gaseous signaling molecule in a variety of physiological processes. Its molecular mechanism of action was proposed to involve protein S-sulfhydration, that is, conversion of cysteinyl thiolates (Cys-S(-)) to persulfides (Cys-S-S(-)). A central and unresolved question is how H2S-that is, a molecule with sulfur in its lowest possible oxidation state (-2)-can lead to oxidative thiol modifications.

RESULTS

Using the lipid phosphatase PTEN as a model protein, we find that the "H2S donor" sodium hydrosulfide (NaHS) leads to very rapid reversible oxidation of the enzyme in vitro. We identify polysulfides formed in NaHS solutions as the oxidizing species, and present evidence that sulfane sulfur is added to the active site cysteine. Polysulfide-mediated oxidation of PTEN was induced by all "H2S donors" tested, including sodium sulfide (Na2S), gaseous H2S, and morpholin-4-ium 4-methoxyphenyl(morpholino) phosphinodithioate (GYY4137). Moreover, we show that polysulfides formed in H2S solutions readily modify PTEN inside intact cells.

INNOVATION

Our results shed light on the previously unresolved question of how H2S leads to protein thiol oxidation, and suggest that polysulfides formed in solutions of H2S mediate this process.

CONCLUSION

This study suggests that the effects that have been attributed to H2S in previous reports may in fact have been mediated by polysulfides. It also supports the notion that sulfane sulfur rather than sulfide is the actual in vivo agent of H2S signaling.

摘要

目的

硫化氢（H2S）被认为是多种生理过程中气体信号分子。其作用的分子机制被提议涉及蛋白质的 S-巯基化，即半胱氨酸硫醚（Cys-S（-））转化为过硫醚（Cys-S-S（-））。一个核心且未解决的问题是，H2S（即处于最低可能氧化态（-2）的硫分子）如何导致氧化的巯基修饰。

结果

我们使用脂质磷酸酶 PTEN 作为模型蛋白，发现“H2S 供体”硫氢化钠（NaHS）在体外导致该酶非常迅速的可逆氧化。我们确定在 NaHS 溶液中形成的多硫化物是氧化物种，并提出证据表明硫烷硫被添加到活性位点半胱氨酸。多硫化物介导的 PTEN 氧化被所有测试的“H2S 供体”诱导，包括硫化钠（Na2S）、气态 H2S 和吗啉-4-基 4-甲氧基苯基（吗啉基）膦二硫代酸酯（GYY4137）。此外，我们表明在 H2S 溶液中形成的多硫化物容易在完整细胞内修饰 PTEN。

创新

我们的结果阐明了先前未解决的问题，即 H2S 如何导致蛋白质巯基氧化，并表明在 H2S 溶液中形成的多硫化物介导了这个过程。

结论

本研究表明，以前报道中归因于 H2S 的作用实际上可能是由多硫化物介导的。它还支持了这样一种观点，即硫烷硫而不是硫氢化物是 H2S 信号的实际体内活性剂。

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