Novel stereoselectivity of rat liver cytochrome(s) P450 toward enantiomers of the trans-1,2-dihydrodiol of triphenylene

Abstract

Metabolism of 3H-labeled (+)-( S,S)- and (−)-( R,R)-1,2-dihydrodiols of triphenylene by rat liver microsomes and 11 purified isozymes of cytochrome P450 in a reconstituted monooxygenase system has been examined. Although both enantiomers were metabolized at comparable rates, the distribution of metabolites between phenolic dihydrodiols and bay-region 1,2-diol 3,4-epoxide diastereomers varied substantially with the different systems. Treatment of rats with phenobarbital (PB) or 3-methylcholanthrene (MC) caused a slight reduction or less than a twofold increase, respectively, in the rate of total metabolism (per nanomole of cytochrome P450) of the enantiomeric dihydrodiols compared to microsomes from control rats. Among the 11 isozymes of cytochrome P450 tested, only cytochromes P450c (P450IA1) and P450d (P450IA2) had significant catalytic activity. With either enantiomer of triphenylene 1,2-dihydrodiol, both purified cytochrome P450c (P450IA1) and liver microsomes from MC-treated rats formed diol epoxides and phenolic dihydrodiols in approximately equal amounts. Purified cytochrome P450d (P450IA2), however, formed bay-region diol epoxides and phenolic dihydrodiols in an 80:20 ratio. Interestingly, liver microsomes from control or PB-treated rats produced only diol epoxides and little or no phenolic dihydrodiols. The diol epoxide diastereomers differ in that the epoxide oxygen is either cis (diol epoxide-1) or trans (diol epoxide-2) to the benzylic 1-hydroxyl group. With either purified cytochromes P450 (isozymes c or d) or liver microsomes from MC-treated rats, diol epoxide-2 is favored over diol epoxide-1 by at least 4:1 when the (−)-enantiomer is the substrate, while diol epoxide-1 is favored by at least 5:1 when the (+) enantiomer is the substrate. In contrast, with liver microsomes from control or PB-treated rats, formation of diol epoxide-1 relative to diol epoxide-2 was favored by at least 2:1 regardless of the substrate enantiomer metabolized. This is the first instance where the ratio of diol epoxide- 1/diol epoxide-2 metabolites is independent of the dihydrodiol enantiomer metabolized. Experiments with antibodies indicate that a large percentage of the metabolism by microsomes from control and PB-treated rats is catalyzed by cytochrome P450p (P450IIIA1), resulting in the altered stereoselectivity of these microsomes compared to that of the liver microsomes from MC-treated rats.