Inhibition of succinate-linked respiration and complex II activity by hydrogen peroxide

Hydrogen peroxide produced from electron transport chain derived superoxide is a relatively mild oxidant, and as such, the majority of mitochondrial enzyme activities are impervious to physiological concentrations. Previous studies, however, have suggested that complex II (succinate dehydrogenase) is sensitive to H₂O₂-mediated inhibition. Nevertheless, the effects of H₂O₂ on succinate-linked respiration and complex II activity have not been examined in intact mitochondria. Results presented indicate that H₂O₂ inhibits succinate-linked state 3 mitochondrial respiration in a concentration dependent manner. H₂O₂ has no effect on complex II activity during state 2 respiration, but inhibits activity during state 3. It was found that conditions which prevent oxaloacetate accumulation during state 3 respiration, such as inclusion of rotenone, glutamate, or ATP, blunted the effect of H₂O₂ on succinate-linked respiration and complex II activity. It is concluded that H₂O₂ inhibits succinate-linked respiration indirectly by sustaining and enhancing oxaloacetate-mediated inactivation of complex II.