| 10762084 |
Chinopoulos C, Tretter L, Adam-Vizi V: Reversible depolarization of in situ mitochondria by oxidative stress parallels a decrease in NAD (P) H level in nerve terminals. Neurochem Int. 2000 May;36(6):483-8.
We have reported recently (Chinopoulos et al., 1999 J. Neurochem. 73, 220 228) that mitochondrial membrane potential (delta (psi) m) in isolated nerve terminals is markedly reduced by H2O2 in the absence of F0F1-ATPase working as a proton pump. Here we demonstrate that delta (psi) m reduced by H2O2 (0.5 mM) in the presence of oligomycin (10 mM), an inhibitor of the F0F1-ATPase, was able to recover by the addition of catalase (2000 U). Similarly, a decrease in the NAD (P) H level due to H2O2 can be reversed by catalase. In addition, H2O2 decreased the ATP level and the [ATP]:[ADP] ratio measured in the presence of oligomycin reflecting an inhibition of glycolysis by H2O2, but this effect was not reversible. The effect of H2O2 on delta (psi) m in the presence of the complex I inhibitor, rotenone, was also unaltered by addition of catalase. These results provide circumstantial evidence for a relationship between the decreased NAD (P) H level and the inability of mitochondria to maintain delta (psi) m during oxidative stress. |
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