氢过硫化物及相关物种的化学生物学：在细胞保护和氧化还原信号传导中的可能作用

Chemical Biology of Hydropersulfides and Related Species: Possible Roles in Cellular Protection and Redox Signaling.

作者信息

Álvarez Lucía, Bianco Christopher L, Toscano John P, Lin Joseph, Akaike Takaaki, Fukuto Jon M

机构信息

1 Departamento de Química Inorgánica, Analítica y Química Física, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires , INQUIMAE-CONICET, Ciudad Universitaria, (C1428EGA) Buenos Aires, Argentina .

2 Department of Chemistry, Johns Hopkins University , Baltimore, Maryland.

出版信息

Antioxid Redox Signal. 2017 Oct 1;27(10):622-633. doi: 10.1089/ars.2017.7081. Epub 2017 Jun 13.

DOI:10.1089/ars.2017.7081

PMID:28398141

Abstract

SIGNIFICANCE

For >20 years, physiological signaling associated with the endogenous generation of hydrogen sulfide (HS) has been of significant interest. Despite its presumed importance, the biochemical mechanisms associated with its actions have not been elucidated. Recent Advances: Recently it has been found that HS-related or derived species are highly prevalent in mammalian systems and that these species may be responsible for some, if not the majority, of the biological actions attributed to HS. One of the most prevalent and intriguing species are hydropersulfides (RSSH), which can be present at significant levels. Indeed, it appears that HS and RSSH are intimately linked in biological systems and likely to be mutually inclusive.

CRITICAL ISSUES

The fact that HS and polysulfides such as RSSH are present simultaneously means that the biological actions previously assigned to HS can be instead because of the presence of RSSH (or other polysulfides). Thus, it remains possible that hydropersulfides are the biological effectors, and HS serves, to a certain extent, as a marker for persulfides and polysulfides. Addressing this possibility will to a large extent be based on the chemistry of these species.

FUTURE DIRECTIONS

Currently, it is known that persulfides possess unique and novel chemical properties that may explain their biological prevalence. However, significantly more work will be required to establish the possible physiological roles of these species. Moreover, an understanding of the regulation of their biosynthesis and degradation will become important topics in piecing together their biology. Antioxid. Redox Signal. 00, 000-000.

摘要

意义

二十多年来，与内源性硫化氢（HS）生成相关的生理信号一直备受关注。尽管其重要性已得到公认，但其作用相关的生化机制尚未阐明。

关键问题

HS和多硫化物如RSSH同时存在这一事实意味着，先前归因于HS的生物学作用可能实际上是由于RSSH（或其他多硫化物）的存在。因此，氢过硫化物仍有可能是生物学效应物，而HS在一定程度上充当了过硫化物和多硫化物的标志物。解决这一可能性在很大程度上将基于这些物质的化学性质。

未来方向

目前已知过硫化物具有独特的化学性质，这可能解释了它们在生物学上的普遍性。然而，要确定这些物质可能的生理作用，还需要进行大量的研究。此外，了解它们生物合成和降解的调控机制将成为拼凑其生物学特性的重要课题。《抗氧化与氧化还原信号》00, 000 - 000。

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氢过硫化物及相关物种的化学生物学：在细胞保护和氧化还原信号传导中的可能作用

Chemical Biology of Hydropersulfides and Related Species: Possible Roles in Cellular Protection and Redox Signaling.

作者信息

机构信息

出版信息

SIGNIFICANCE

CRITICAL ISSUES

FUTURE DIRECTIONS

意义

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关键问题

未来方向

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