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  • Title: Differential stereoselectivity on metabolism of triphenylene by cytochromes P-450 in liver microsomes from 3-methylcholanthrene- and phenobarbital-treated rats.
    Author: Thakker DR, Boehlert C, Mirsadeghi S, Levin W, Ryan DE, Thomas PE, Yagi H, Pannell LK, Sayer JM, Jerina DM.
    Journal: J Biol Chem; 1988 Jan 05; 263(1):98-105. PubMed ID: 3335511.
    Abstract:
    Metabolism of triphenylene by liver microsomes from control, phenobarbital(PB)-treated rats and 3-methylcholanthrene(MC)-treated rats as well as by a purified system reconstituted with cytochrome P-450c in the absence or presence of purified microsomal epoxide hydrolase was examined. Control microsomes metabolized triphenylene at a rate of 1.2 nmol/nmol of cytochrome P-450/min. Treatment of rats with PB or MC resulted in a 40% reduction and a 3-fold enhancement in the rate of metabolism, respectively. Metabolites consisted of the trans-1,2-dihydrodiol as well as 1-hydroxytriphenylene, and to a lesser extent 2-hydroxytriphenylene. The (-)-1R,2R-enantiomer of the dihydrodiol predominated (70 to 92%) under all incubation conditions. Incubation of racemic triphenylene 1,2-oxide with microsomal epoxide hydrolase produced dihydrodiol which was highly enriched (80%) in the (-)-1R,2R-enantiomer. Experiments with 18O-enriched water showed that attack of water was exclusively at the allylic 2-position of the arene oxide, indicating that the 1R,2S-enantiomer of the oxide was preferentially hydrated by epoxide hydrolase. Thiol trapping experiments indicated that liver microsomes from MC-treated rats produced almost exclusively (greater than 90%) the 1R,2S-enantiomer of triphenylene 1,2-oxide whereas liver microsomes from PB-treated rats formed racemic oxide. The optically active oxide has a half-life for racemization of only approximately 20 s under the incubation conditions. This study may represent the first attempt to address stereochemical consequences of a rapidly racemizing intermediary metabolite.
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