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Biochem Pharmacol. 1995 May 11;49(9):1269-75.

Role of cytochrome P450 2C9 and an allelic variant in the 4'-hydroxylation of (R)- and (S)-flurbiprofen.

Author information

1
Department of Basic Pharmaceutical Sciences, School of Pharmacy, West Virginia University, Morgantown 26506, USA.

Abstract

Flurbiprofen is a chiral non-steroidal anti-inflammatory drug used in the treatment of pain or inflammation. The primary routes of biotransformation for (R)- and (S)-flurbiprofen are oxidation (presumably cytochrome P450) and conjugation. To date, the specific cytochrome P450 (P450) involved in the oxidative metabolism of this compound (specifically 4'-hydroxylation) has not been elucidated. Experiments were conducted to characterize the kinetic parameters (Km and Vmax) for the 4'-hydroxylation of (R)- and (S)-flurbiprofen in human liver microsomes, to determine if enantiomeric interactions occur when both enantiomers are present, and to identify the specific P450 form(s) involved in this reaction. In human liver microsomes, the Km and Vmax (mean +/- SD) for (R)-4'-hydroxy-flurbiprofen formation were 3.1 +/- 0.8 microM and 305 +/- 168 pmol.min-1.mg protein)-1, respectively. In comparison, the Km and Vmax (mean +/- SD) for (S)-4'-hydroxy-flurbiprofen formation were 1.9 +/- 0.4 microM and 343 +/- 196 pmol.min-1.mg protein-1, respectively. Enantiomeric interaction studies revealed a decrease in Km and Vmax for both enantiomers and an apparent loss of stereoselectivity. Racemic-warfarin, tolbutamide, alpha-naphthoflavone and erythromycin were studied as potential inhibitors of this process. The estimated Ki values for the inhibition of (R)- and (S)-4'-hydroxy-flurbiprofen formation by racemic-warfarin were 2.2 and 4.7 microM. This reaction was also inhibited by tolbutamide. In contrast, erythromycin and alpha-naphthoflavone had no appreciable effect on 4'-hydroxy-flurbiprofen formation. cDNA-expression of individual forms was used to determine which P450 was involved in 4'-hydroxy-flurbiprofen formation. P450 2C9 and an allelic variant (R144C) readily catalyzed the formation of 4'-hydroxy-flurbiprofen. P450 1A2 was also active albeit with a turnover rate 1/140th that of P450 2C9R144C (P450s 2C8, 2E1 and 3A4 were not active toward either enantiomer). The results of these studies indicate that the enantiomers of flurbiprofen may exhibit stereoselectivity with respect to enzyme affinity but have roughly equal maximum formation velocities. Additionally, these two enantiomers may compete for the enzyme resulting in lower maximum velocities for both enantiomers. Finally, of those P450 forms examined, only P450 2C9 and an allelic variant catalyzed the 4'-hydroxylation of both (R)- and (S)-flurbiprofen.

PMID:
7763308
DOI:
10.1016/0006-2952(95)00048-5
[Indexed for MEDLINE]

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