| Abstract: | Lipophilic chelates of divalent copper, possessing superoxide dismutase-like activity, have been proposed to enhance the decay of oxycytochrome P-450 to explain their inhibitory effect on microsomal mixed-function oxidation reactions (Richter, C., Azzi, A., Weser, U., and Wendel, A. (1977) J. Biol. Chem. 252, 5061-5066). The present investigation, however, failed to provide evidence in favor of this hypothesis. In particular, it was found that the reported inhibition of cytochrome P-450-catalyzed hydroxylation reactions by copper-tyrosine is associated with an inhibition rather than a stimulation of the formation of hydrogen peroxide, the product of the dismutation of the superoxide radicals generated as a result of the decay of oxycytochrome P-450. The attenuation of both these reactions was shown to be the consequence of an impaired function of the NADPH-cytochrome P-450 reductase. Additional sites of interaction of copper chelates and the microsomal electron transport system appear to exist since divalent copper was found to undergo reduction reactions with NADPH and NADH as electron donors. These reduction reactions do not involve superoxide radicals and, therefore, are unrelated to the ability of copper chelates to function in a superoxide dismutase-like manner. |
