Epoxidation reactions catalyzed by rat liver cytochromes P-450 and P-448 occur at different faces of the 8,9-double bond of 8-methylbenz[a]anthracene.

AUTOR(ES)

Yang, S K

RESUMO

8-Methylbenz[a]anthracene (8-MeBaA) transdihydrodiol metabolites were isolated by reversed-phase and normal-phase HPLCs from incubations of 8-MeBaA with liver microsomes or a reconstituted system containing purified cytochrome P-448 and epoxide hydrolase. Regardless of the enzyme source, the metabolically formed 8-MeBaA trans-3,4- and -5,6-dihydrodiols were found to be enriched in one enantiomeric isomer and differed only in the degree of optical purity. The 8-MeBaA trans-8,9-dihydrodiol formed by liver microsomes from either untreated or phenobarbital-treated rats was enriched with the (+)-enantiomer. In contrast, the 8-MeBaA trans-8,9-dihydrodiol formed either by liver microsomes from 3-methylcholanthrene-treated rats or by the reconstituted rat liver enzyme system containing cytochrome P-448 and epoxide hydrolase was enriched with the (-)enantiomer. These results indicate that, in catalyzing the formation of 3,4- and 5,6-epoxide intermediates, the interaction with the unsubstituted 3,4- and 5,6-double bonds of 8-MeBaA by the different forms of cytochrome P-450 occur preferentially on the same face of the aromatic plane and they differ only in the degree of stereoselectivity. However, different forms of cytochrome P-450 may interact with different faces of the aromatic plane at the methyl-substituted 8,9-double bond of 8-MeBaA, resulting in the formation of trans-8,9-dihydrodiols enriched in different enantiomeric forms. This demonstrates that different forms of cytochrome P-450 may catalyze the epoxidation reaction preferentially at different sides of the methyl-substituted double bond of a planar polycyclic hydrocarbon molecule. These properties may be used to further classify and to understand the enzyme-substrate interactions of the different forms of cytochrome P-450 in the drug-metabolizing enzyme systems.

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