2017
DOI: 10.1021/acs.biochem.6b01093
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Use of Tissue Metabolite Analysis and Enzyme Kinetics To Discriminate between Alternate Pathways for Hydrogen Sulfide Metabolism

Abstract: Hydrogen sulfide (HS) is an endogenously synthesized signaling molecule that is enzymatically metabolized in mitochondria. The metabolism of HS maintains optimal concentrations of the gasotransmitter and produces sulfane sulfur (S)-containing metabolites that may be functionally important in signaling. Sulfide:quinone oxidoreductase (SQOR) catalyzes the initial two-electron oxidation of HS to S using coenzyme Q as the electron acceptor in a reaction that requires a third substrate to act as the acceptor of S. … Show more

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Cited by 31 publications
(45 citation statements)
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“…The major finding in the catabolic pathway of H 2 S is the significant elevation of thiosulfate in urine indicating a possible higher rate of H 2 S detoxification using sulfite in the TST reaction, which is indirectly supported also by non‐significantly decreased sulfite. Moreover, the slightly lower sulfite may be also due to low production of Cys sulfinate via CDO as evidenced by low Hyp and Tau and/or due to decreased formation of GSH persulfide (Augustyn et al ., ) resulting from GSH depletion, which was shown in the liver of a CBS‐deficient mouse model (Maclean et al ., ). To sum up, it is conceivable that patients with CBSD may produce slightly less H 2 S from Cys, which is compensated by production of H 2 S from Hcy and that this slightly higher H 2 S is further metabolized to thiosulfate (Figure A).…”
Section: Discussionmentioning
confidence: 94%
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“…The major finding in the catabolic pathway of H 2 S is the significant elevation of thiosulfate in urine indicating a possible higher rate of H 2 S detoxification using sulfite in the TST reaction, which is indirectly supported also by non‐significantly decreased sulfite. Moreover, the slightly lower sulfite may be also due to low production of Cys sulfinate via CDO as evidenced by low Hyp and Tau and/or due to decreased formation of GSH persulfide (Augustyn et al ., ) resulting from GSH depletion, which was shown in the liver of a CBS‐deficient mouse model (Maclean et al ., ). To sum up, it is conceivable that patients with CBSD may produce slightly less H 2 S from Cys, which is compensated by production of H 2 S from Hcy and that this slightly higher H 2 S is further metabolized to thiosulfate (Figure A).…”
Section: Discussionmentioning
confidence: 94%
“…Model of mitochondrial oxidation of H 2 S. Several models of mitochondrial H 2 S oxidation have been proposed (Augustyn et al ., ; Carter and Morton, ; Libiad et al ., ; Melideo et al ., ; Olson, ). This scheme summarizes the alternative pathways of H 2 S oxidation and interconversions of selected sulfur compounds within mitochondria.…”
Section: Introductionmentioning
confidence: 99%
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“…The sulfane can be further transferred to glutathione to form glutathione persulfide or to sulfite and form thiosulfate. The glutathione persulfide may be oxidized by ETHE1 and thiosulfate by TST to regenerate sulfite, which is oxidized by SO to sulfate [36,40,41]. Additionally, a part of H 2 S is exhaled or scavenged in the blood by methemoglobin to form sulfhemoglobin [42][43][44].…”
Section: H 2 S Excretionmentioning
confidence: 99%
“…Mitochondrial oxidation via three consecutive reactions is how much of the H 2 S is metabolized [116]. In fact, H 2 S is the only gasotransmitter that is enzymatically metabolized and the only inorganic compound that can be used by mammalian mitochondria to generate ATP [117, 118]. This oxidation requires one mole of oxygen for every mole of H 2 S oxidized along the electron transport chain.…”
Section: No and H2s Biosynthesis And Metabolismmentioning
confidence: 99%