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

Significance: For >20 years, physiological signaling associated with the endogenous generation of hydrogen sulfide (H2S) has been of significant interest. Despite its presumed importance, the biochemical mechanisms associated with its actions have not been elucidated. Recent Advances: Recentl...

Descripción completa

Guardado en:
Detalles Bibliográficos
Publicado: 2017
Materias:
hydrogen sulfide
hydropersulfide
polysulfides
thiols
radical
sulfide
thiol
unclassified drug
persulfides
cell protection
electrophilicity
heavy metal poisoning
human
nonhuman
nucleophilicity
oxidation reduction reaction
priority journal
protection
protein function
Review
animal
chemistry
metabolism
signal transduction
Animals
Cytoprotection
Humans
Hydrogen Sulfide
Oxidation-Reduction
Signal Transduction
Sulfides
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_15230864_v27_n10_p622_Alvarez
http://hdl.handle.net/20.500.12110/paper_15230864_v27_n10_p622_Alvarez
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_15230864_v27_n10_p622_Alvarez
record_format dspace
spelling paper:paper_15230864_v27_n10_p622_Alvarez2023-06-08T16:19:25Z Chemical Biology of Hydropersulfides and Related Species: Possible Roles in Cellular Protection and Redox Signaling hydrogen sulfide hydropersulfide polysulfides thiols hydrogen sulfide hydropersulfide radical sulfide thiol unclassified drug persulfides sulfide cell protection electrophilicity heavy metal poisoning human nonhuman nucleophilicity oxidation reduction reaction priority journal protection protein function Review animal cell protection chemistry metabolism signal transduction Animals Cytoprotection Humans Hydrogen Sulfide Oxidation-Reduction Signal Transduction Sulfides Significance: For >20 years, physiological signaling associated with the endogenous generation of hydrogen sulfide (H2S) 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 H2S-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 H2S. One of the most prevalent and intriguing species are hydropersulfides (RSSH), which can be present at significant levels. Indeed, it appears that H2S and RSSH are intimately linked in biological systems and likely to be mutually inclusive. Critical Issues: The fact that H2S and polysulfides such as RSSH are present simultaneously means that the biological actions previously assigned to H2S can be instead because of the presence of RSSH (or other polysulfides). Thus, it remains possible that hydropersulfides are the biological effectors, and H2S 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. © 2017, Mary Ann Liebert, Inc. 2017. 2017 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_15230864_v27_n10_p622_Alvarez http://hdl.handle.net/20.500.12110/paper_15230864_v27_n10_p622_Alvarez
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic hydrogen sulfide
hydropersulfide
polysulfides
thiols
hydrogen sulfide
hydropersulfide
radical
sulfide
thiol
unclassified drug
persulfides
sulfide
cell protection
electrophilicity
heavy metal poisoning
human
nonhuman
nucleophilicity
oxidation reduction reaction
priority journal
protection
protein function
Review
animal
cell protection
chemistry
metabolism
signal transduction
Animals
Cytoprotection
Humans
Hydrogen Sulfide
Oxidation-Reduction
Signal Transduction
Sulfides
spellingShingle hydrogen sulfide
hydropersulfide
polysulfides
thiols
hydrogen sulfide
hydropersulfide
radical
sulfide
thiol
unclassified drug
persulfides
sulfide
cell protection
electrophilicity
heavy metal poisoning
human
nonhuman
nucleophilicity
oxidation reduction reaction
priority journal
protection
protein function
Review
animal
cell protection
chemistry
metabolism
signal transduction
Animals
Cytoprotection
Humans
Hydrogen Sulfide
Oxidation-Reduction
Signal Transduction
Sulfides
Chemical Biology of Hydropersulfides and Related Species: Possible Roles in Cellular Protection and Redox Signaling
topic_facet hydrogen sulfide
hydropersulfide
polysulfides
thiols
hydrogen sulfide
hydropersulfide
radical
sulfide
thiol
unclassified drug
persulfides
sulfide
cell protection
electrophilicity
heavy metal poisoning
human
nonhuman
nucleophilicity
oxidation reduction reaction
priority journal
protection
protein function
Review
animal
cell protection
chemistry
metabolism
signal transduction
Animals
Cytoprotection
Humans
Hydrogen Sulfide
Oxidation-Reduction
Signal Transduction
Sulfides
description Significance: For >20 years, physiological signaling associated with the endogenous generation of hydrogen sulfide (H2S) 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 H2S-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 H2S. One of the most prevalent and intriguing species are hydropersulfides (RSSH), which can be present at significant levels. Indeed, it appears that H2S and RSSH are intimately linked in biological systems and likely to be mutually inclusive. Critical Issues: The fact that H2S and polysulfides such as RSSH are present simultaneously means that the biological actions previously assigned to H2S can be instead because of the presence of RSSH (or other polysulfides). Thus, it remains possible that hydropersulfides are the biological effectors, and H2S 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. © 2017, Mary Ann Liebert, Inc. 2017.
title Chemical Biology of Hydropersulfides and Related Species: Possible Roles in Cellular Protection and Redox Signaling
title_short Chemical Biology of Hydropersulfides and Related Species: Possible Roles in Cellular Protection and Redox Signaling
title_full Chemical Biology of Hydropersulfides and Related Species: Possible Roles in Cellular Protection and Redox Signaling
title_fullStr Chemical Biology of Hydropersulfides and Related Species: Possible Roles in Cellular Protection and Redox Signaling
title_full_unstemmed Chemical Biology of Hydropersulfides and Related Species: Possible Roles in Cellular Protection and Redox Signaling
title_sort chemical biology of hydropersulfides and related species: possible roles in cellular protection and redox signaling
publishDate 2017
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_15230864_v27_n10_p622_Alvarez
http://hdl.handle.net/20.500.12110/paper_15230864_v27_n10_p622_Alvarez
_version_ 1768541627692875776

Ejemplares similares