Interaction of electron leak and proton leak in respiratory chain of mitochondria--Proton leak induced by superoxide from an electron leak pathway of univalent reduction of oxygen
Interaction of electron leak and proton leak in respiratory chain of mitochondria——Proton leak induced by superoxide from an electron leak pathway of univalent reduction of oxygen

By incubating the isolated rat myocardial mitochondria with xanthine-xanthine oxidase, anexogenous superoxide (O2) generating system, and by ischemia-reperfusion procedure of isolated rat heart as an endogenous O2 generating system, it was found that both sources of O2 showed the same injurious effects on mitochondrial function resulting in (i) increasing proton leak rate, lowering proton pumping activity and Ht/2e ratio of respiratory chain, and (ii) decreasing transmembrane potential of energized mitochondria] inner membrane by succinate oxidation. The injurious effects of O2 on these mitochondrial bioenergitical parameters mentioned above exhibited a dosage- or reaction time-dependent mode. (X has no effects on the electron transfer activity and transmembrane potential of nonenergized mitochondria. Being a superoxide scavenger, 3, 4-dihydroxylphenyl lactate showed obvious protection effects against damage of both exogenous superoxide sources from xanthine-xanthine oxidase system and endogenous Or source from ischemia-reperfused heart on proton pumping activity, H+/2e ratio and transmembrane potential of energized mitochondria. The experimental results presented here clearly showed that O2 radicals induce an increase of proton leak in mitochondria directly related to the molecular mechanism of early phase damage of ischemia-reperfused heart, and also provide evidence to support our recent proposed hypothesis that electron leakage to oxygen to form O2 in respiratory chain is one of the mechanical cause of proton leakage in mitochondria.