Sodium thiosulfate acts as a hydrogen sulfide mimetic to prevent intimal hyperplasia via inhibition of tubulin polymerisation.
Détails
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Etat: Public
Version: Final published version
Licence: CC BY 4.0
Etat: Public
Version: Final published version
Licence: CC BY 4.0
ID Serval
serval:BIB_29D263F9FBA9
Type
Article: article d'un périodique ou d'un magazine.
Collection
Publications
Institution
Titre
Sodium thiosulfate acts as a hydrogen sulfide mimetic to prevent intimal hyperplasia via inhibition of tubulin polymerisation.
Périodique
EBioMedicine
ISSN
2352-3964 (Electronic)
ISSN-L
2352-3964
Statut éditorial
Publié
Date de publication
04/2022
Peer-reviewed
Oui
Volume
78
Pages
103954
Langue
anglais
Notes
Publication types: Journal Article
Publication Status: ppublish
Publication Status: ppublish
Résumé
Intimal hyperplasia (IH) remains a major limitation in the long-term success of any type of revascularisation. IH is due to vascular smooth muscle cell (VSMC) dedifferentiation, proliferation and migration. The gasotransmitter Hydrogen Sulfide (H <sub>2</sub> S), mainly produced in blood vessels by the enzyme cystathionine- γ-lyase (CSE), inhibits IH in pre-clinical models. However, there is currently no H <sub>2</sub> S donor available to treat patients. Here we used sodium thiosulfate (STS), a clinically-approved source of sulfur, to limit IH.
Low density lipoprotein receptor deleted (LDLR <sup>-/-</sup> ), WT or Cse-deleted (Cse <sup>-/-</sup> ) male mice randomly treated with 4 g/L STS in the water bottle were submitted to focal carotid artery stenosis to induce IH. Human vein segments were maintained in culture for 7 days to induce IH. Further in vitro studies were conducted in primary human vascular smooth muscle cells (VSMCs).
STS inhibited IH in WT mice, as well as in LDLR <sup>-/-</sup> and Cse <sup>-/-</sup> mice, and in human vein segments. STS inhibited cell proliferation in the carotid artery wall and in human vein segments. STS increased polysulfides in vivo and protein persulfidation in vitro, which correlated with microtubule depolymerisation, cell cycle arrest and reduced VSMC migration and proliferation.
STS, a drug used for the treatment of cyanide poisoning and calciphylaxis, protects against IH in a mouse model of arterial restenosis and in human vein segments. STS acts as an H <sub>2</sub> S donor to limit VSMC migration and proliferation via microtubule depolymerisation.
This work was supported by the Swiss National Science Foundation (grant FN-310030_176158 to FA and SD and PZ00P3-185927 to AL); the Novartis Foundation to FA; and the Union des Sociétés Suisses des Maladies Vasculaires to SD, and the Fondation pour la recherche en chirurgie vasculaire et thoracique.
Low density lipoprotein receptor deleted (LDLR <sup>-/-</sup> ), WT or Cse-deleted (Cse <sup>-/-</sup> ) male mice randomly treated with 4 g/L STS in the water bottle were submitted to focal carotid artery stenosis to induce IH. Human vein segments were maintained in culture for 7 days to induce IH. Further in vitro studies were conducted in primary human vascular smooth muscle cells (VSMCs).
STS inhibited IH in WT mice, as well as in LDLR <sup>-/-</sup> and Cse <sup>-/-</sup> mice, and in human vein segments. STS inhibited cell proliferation in the carotid artery wall and in human vein segments. STS increased polysulfides in vivo and protein persulfidation in vitro, which correlated with microtubule depolymerisation, cell cycle arrest and reduced VSMC migration and proliferation.
STS, a drug used for the treatment of cyanide poisoning and calciphylaxis, protects against IH in a mouse model of arterial restenosis and in human vein segments. STS acts as an H <sub>2</sub> S donor to limit VSMC migration and proliferation via microtubule depolymerisation.
This work was supported by the Swiss National Science Foundation (grant FN-310030_176158 to FA and SD and PZ00P3-185927 to AL); the Novartis Foundation to FA; and the Union des Sociétés Suisses des Maladies Vasculaires to SD, and the Fondation pour la recherche en chirurgie vasculaire et thoracique.
Mots-clé
Animals, Cell Proliferation, Cystathionine gamma-Lyase/metabolism, Humans, Hydrogen Sulfide/metabolism, Hydrogen Sulfide/pharmacology, Hyperplasia/pathology, Male, Mice, Myocytes, Smooth Muscle/metabolism, Thiosulfates, Tubulin/metabolism, Hydrogen sulfide, Intimal hyperplasia, Proliferation, Smooth muscle cells, Sodium thiosulfate
Pubmed
Web of science
Open Access
Oui
Création de la notice
09/04/2022 18:45
Dernière modification de la notice
01/03/2024 8:06