4.3 Article

Development of sodium tetrathionate as a cyanide and methanethiol antidote

Journal

CLINICAL TOXICOLOGY
Volume 60, Issue 3, Pages 332-341

Publisher

TAYLOR & FRANCIS LTD
DOI: 10.1080/15563650.2021.1953517

Keywords

Cyanide; methanethiol; mice; rabbits; sodium tetrathionate; sodium thiosulfate

Categories

Funding

  1. Office of the Director, National Institutes of Health [U01NS105057]

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The study shows that sodium tetrathionate can effectively detoxify hydrogen cyanide and has the potential to be an effective antidote against cyanide and methanethiol poisoning.
Context Hydrogen cyanide and methanethiol are two toxic gases that inhibit mitochondrial cytochrome c oxidase. Cyanide is generated in structural fires and methanethiol is released by decaying organic matter. Current treatments for cyanide exposure do not lend themselves to treatment in the field and no treatment exists for methanethiol poisoning. Sodium tetrathionate (tetrathionate), a product of thiosulfate oxidation, could potentially serve as a cyanide antidote, and, based on its chemical structure, we hypothesized it could react with methanethiol. Results We show that tetrathionate, unlike thiosulfate, reacts directly with cyanide in vitro under physiological conditions, and based on rabbit studies where we monitor cyanide poisoning in real-time, tetrathionate likely reacts directly with cyanide in vivo. We found that tetrathionate administered by intramuscular injection rescues >80% of juvenile, young adult, and old adult mice from exposure to inhaled hydrogen cyanide gas that is >80% lethal. Tetrathionate also rescued young adult rabbits from intravenously administered sodium cyanide. Tetrathionate was reasonably well-tolerated by mice and rats, yielding a therapeutic index of similar to 5 in juvenile and young adult mice, and similar to 3.3 in old adult mice; it was non-mutagenic in Chinese Hamster ovary cells and by the Ames bacterial test. We found by gas chromatography-mass spectrometry that both tetrathionate and thiosulfate react with methanethiol to generate dimethyldisulfide, but that tetrathionate was much more effective than thiosulfate at recovering intracellular ATP in COS-7 cells and rescuing mice from a lethal exposure to methanethiol gas. Conclusion We conclude that tetrathionate has the potential to be an effective antidote against cyanide and methanethiol poisoning.

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