Oxidation of Cytochrome b5 by Hydroperoxides in Rat Liver

Abstract

1. Spectral changes following the addition of hydroperoxides to isolated hepatocytes and to perfused rat liver were observed. Cytochrome b5 is the major, if not the only, hemoprotein exhibiting redox changes under these conditions; cytochrome b5 is oxidized by added hydroperoxides, e.g. tert-butyl or cumene hydroperoxides. No spectral changes attributable to cytochrome b5 were observed with tert-butanol. 2. The effect is present also when the mitochondrial respiratory chain is inhibited by antimycin A, and it is not observable with isolated mitochondria. On the other hand, the oxidation of cytochrome b5 by hydroperoxides is readily demonstrable in microsomal fractions in presence of NADH. 3. Spectral evidence for a participation of the other microsomal hemoprotein, cytochrome P-450, in the hydroperoxide-linked effects was not obtained. Thus, in hepatocytes from phenobarbital-pretreated rats, no formation of cytochrome P-420, no displacement of a type I substrate, hexobarbital, and no major steady state redox change of cytochrome P-450 was detectable. However, when cytochrome P-450 was dithionite-reduced, an oxidation of this cytochrome occurred upon subsequent hydroperoxide addition. 4. Hydrogen peroxide addition to hepatocytes also leads to a lower steady-state degree of reduction of cytochrome b5. Evidence is provided with hepatocytes from rats pretreated with 3-amino-1,2,4-triazole that H2O2 generated intracellularly, e.g. from added glycolate, also causes a detectable oxidation of cytochrome b5. 5. The mechanism of these hydroperoxide effects remains to be established, and it is not clear whether cytochrome b5 reacts directly or indirectly. However, it is suggested that these effects may be of significance for the further study of cytochrome-b5-linked metabolic pathways.