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超越气体递质:硫化氢和多硫化物在心血管健康与免疫反应中的作用

Beyond a Gasotransmitter: Hydrogen Sulfide and Polysulfide in Cardiovascular Health and Immune Response.

作者信息

Yuan Shuai, Shen Xinggui, Kevil Christopher G

机构信息

1 Department of Cell Biology and Anatomy, LSU Health Sciences Center Shreveport , Shreveport, Louisiana.

2 Department of Pathology and Translational Pathobiology, LSU Health Sciences Center Shreveport , Shreveport, Louisiana.

出版信息

Antioxid Redox Signal. 2017 Oct 1;27(10):634-653. doi: 10.1089/ars.2017.7096. Epub 2017 Jun 1.

DOI:10.1089/ars.2017.7096
PMID:28398086
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5576200/
Abstract

SIGNIFICANCE

Hydrogen sulfide (HS) metabolism leads to the formation of oxidized sulfide species, including polysulfide, persulfide, and others. Evidence is emerging that many biological effects of HS may indeed be due to polysulfide and persulfide activation of signaling pathways and reactivity with discrete small molecules. Recent Advances: Exogenous oxidized sulfide species, including polysulfides, are more reactive than HS with a wide range of molecules. Importantly, endogenous polysulfide and persulfide formation has been reported to occur via transsulfuration enzymes, cystathionine γ-lyase (CSE) and cystathionine β-synthase (CBS).

CRITICAL ISSUES

In light of the recent understanding of oxidized sulfide metabolite formation and reactivity, comparatively few studies have been reported comparing cellular biological and in vivo effects of HS donors versus polysulfide and persulfide donors. Likewise, it is equally unclear when, how, and to what extent persulfide and polysulfide formation occurs in vivo under pathophysiological conditions.

FUTURE DIRECTIONS

Additional studies regarding persulfide and polysulfide formation and molecular reactions are needed in nearly all aspects of biology to better understand how sulfide metabolites contribute to key chemical biology reactions involved in cardiovascular health and immune responses. Antioxid. Redox Signal. 27, 634-653.

摘要

意义

硫化氢(HS)代谢会导致氧化硫化物的形成,包括多硫化物、过硫化物等。越来越多的证据表明,HS的许多生物学效应可能确实归因于多硫化物和过硫化物对信号通路的激活以及与离散小分子的反应性。

最新进展

包括多硫化物在内的外源性氧化硫化物比HS与多种分子的反应性更强。重要的是,据报道内源性多硫化物和过硫化物的形成是通过转硫酶、胱硫醚γ-裂解酶(CSE)和胱硫醚β-合酶(CBS)发生的。

关键问题

鉴于最近对氧化硫化物代谢产物形成和反应性的认识,比较HS供体与多硫化物和过硫化物供体的细胞生物学和体内效应的研究报道相对较少。同样,在病理生理条件下,体内过硫化物和多硫化物何时、如何以及在多大程度上形成也同样不清楚。

未来方向

几乎在生物学的所有方面都需要进行更多关于过硫化物和多硫化物形成以及分子反应的研究,以更好地了解硫化物代谢产物如何促进参与心血管健康和免疫反应的关键化学生物学反应。《抗氧化与氧化还原信号》27卷,634 - 653页。

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Restoration of Hydrogen Sulfide Production in Diabetic Mice Improves Reparative Function of Bone Marrow Cells.恢复糖尿病小鼠体内硫化氢的生成可改善骨髓细胞的修复功能。
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S-Sulfhydration of ATP synthase by hydrogen sulfide stimulates mitochondrial bioenergetics.硫化氢对ATP合酶的S-巯基化作用可刺激线粒体生物能量学。
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