TY - JOUR
T1 - Inhibition of mitochondrial electron transfer in rats by ethanethiol and methanethiol
AU - Vahlkamp, T.
AU - Meijer, A. J.
AU - Wilms, J.
AU - Chamuleau, R. A.
PY - 1979
Y1 - 1979
N2 - 1. We have investigated the effects of ethanethiol, methanethiol and dimethyl sulphide on some metabolic processes of isolated rat hepatocytes, isolated mitochondria from liver and brain and ox-heart submitochondrial particles. 2. Ethanethiol, but not dimethyl sulphide, inhibited both gluconeogenesis and ureogenesis from various substrates in rat hepatocytes, depressed cellular ATP content and caused an increased reduction of the mitochondria. 3. Ethanethiol inhibited respiration in isolated rat-liver mitochondria with several substrates, both in the presence of ADP and phosphate or in the presence of an uncoupling agent. Ethanethiol also inhibited respiration in isolated rat-brain mitochondria. Dimethyl sulphide was much less effective in inhibiting mitochondrial respiration. 4. In ox-heart submitochondrial particles ethanethiol inhibited electron transfer between cytochrome c and oxygen. 5. Purified cytochrome c oxidase was inhibited by ethanethiol in a non-competitive manner. 6. Methanethiol inhibited cytochrome c oxidase and was an effective inhibitor of mitochondrial electron transfer, both in liver and brain. 7. The difference in inhibitory properties between ethanethiol, methanethiol and dimethyl sulphide observed in our experiments coincides with the difference in potency to elicit coma in rats. We suggest that inhibition of mitochondrial electron transfer by mercaptans may be relevant to the mechanism by which energy production in brain is depressed during hepatic coma
AB - 1. We have investigated the effects of ethanethiol, methanethiol and dimethyl sulphide on some metabolic processes of isolated rat hepatocytes, isolated mitochondria from liver and brain and ox-heart submitochondrial particles. 2. Ethanethiol, but not dimethyl sulphide, inhibited both gluconeogenesis and ureogenesis from various substrates in rat hepatocytes, depressed cellular ATP content and caused an increased reduction of the mitochondria. 3. Ethanethiol inhibited respiration in isolated rat-liver mitochondria with several substrates, both in the presence of ADP and phosphate or in the presence of an uncoupling agent. Ethanethiol also inhibited respiration in isolated rat-brain mitochondria. Dimethyl sulphide was much less effective in inhibiting mitochondrial respiration. 4. In ox-heart submitochondrial particles ethanethiol inhibited electron transfer between cytochrome c and oxygen. 5. Purified cytochrome c oxidase was inhibited by ethanethiol in a non-competitive manner. 6. Methanethiol inhibited cytochrome c oxidase and was an effective inhibitor of mitochondrial electron transfer, both in liver and brain. 7. The difference in inhibitory properties between ethanethiol, methanethiol and dimethyl sulphide observed in our experiments coincides with the difference in potency to elicit coma in rats. We suggest that inhibition of mitochondrial electron transfer by mercaptans may be relevant to the mechanism by which energy production in brain is depressed during hepatic coma
U2 - https://doi.org/10.1042/cs0560147
DO - https://doi.org/10.1042/cs0560147
M3 - Article
C2 - 225090
SN - 0143-5221
VL - 56
SP - 147
EP - 156
JO - Clinical science (London, England
JF - Clinical science (London, England
IS - 2
ER -