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The direct oxidation of ethanol by a catalase- and alcohol dehydrogenase-free reconstituted system containing cytochrome P-4501.
Authors:G T Miwa  W Levin  P E Thomas  A Y Lu
Affiliation:Department of Biochemistry and Drug Metabolism, Hoffmann-La Roche, Inc., Nutley, New Jersey 07110 U.S.A.
Abstract:Ethanol oxidation activity has been reconstituted in a system composed of NADPH-cytochrome c reductase, synthetic dilauroylglycerol-3-phosphorylcholine and cytochrome P-450 purified from liver microsomes of phenobarbital-treated rats. This system is free of alcohol dehydrogenase and catalase activities. Furthermore, sodium azide (1 mm), a catalase inhibitor, is without effect on ethanol metabolism. There is a requirement for both NADPH-cytochrome c reductase and cytochrome P-450 and a partial requirement for phospholipid for ethanol oxidation by the reconstituted system. In addition, both NADPH and O2 are required for catalysis. Under optimal reaction conditions, the rate of acetaldehyde formation if 25 to 50 nmol/min/nmol of cytochrome P-450. Cytochrome P-450 from other sources, including the homogeneous P-450LM2 from phenobarbital-treated rabbits, have also been found to catalyze ethanol oxidation in reconstituted systems. Antibody prepared against cytochrome P-450 inhibits ethanol metabolism in the reconstituted system consistent with a cytochrome P-450-mediated reaction. Furthermore, cumene hydroperoxide can replace both NADPH and NADPH-cytochrome c reductase in ethanol oxidation and catalysis can be demonstrated in a system composed of only cytochrome P-450, lipid, ethanol, and cumene hydroperoxide. These data implicate cytochrome P-450 in the direct oxidation of ethanol by this system.
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