Polymorphic metabolism of mephenytoin in man: Pharmacokinetic interaction with a co-regulated substrate, mephobarbital

Abstract

The simultaneous dosing of two drugs with co-regulated genetic polymorphisms determined by a single cytochrome P-450 isozyme could result in competitive inhibition of metabolism. We investigated this hypothesis in vivo by studying the interaction of mephobarbital and mephenytoin in eight normal subjects with wide variability in S-mephenytoin 4-hydroxylation. Each received oral racemic mephenytoin (100 mg) alone and, on a separate occasion, 1 hour after oral racemic mephobarbital (200 mg). After mephenytoin dosing alone, the 8-hour urinary enantiomeric (R/S) ratio indicated one poor (PM), one intermediate (IM), and six extensive (EM) metabolizers. Total intrinsic clearance of S-mephenytoin varied more than 100-fold, whereas the range for R-mephenytoin was only twofold. The urinary R/S ratio correlated (r = 0.92) with the enantiomeric ratio of the plasma AUCs over the same period, indicating no stereoselectivity in renal clearance. When mephenytoin was taken in the presence of mephobarbital, peak levels and AUC of S-mephenytoin increased while those of the R-enantiomer remained unchanged. Accordingly, the R/S ratios in both plasma and urine were reduced, with the change rank order-related to the control value of the total intrinsic clearance of S-mephenytoin, (i.e., greatest in the most extensive EM). Thus the urinary R/S ratio can be used as a measure of the enantiomeric ratio of the plasma concentrations over the same time period of collection. Moreover, this ratio may be used to detect drug interactions that involve the cytochrome P-450 isozyme(s) responsible for the polymorphic 4-hydroxylation of mephenytoin. Such an interaction approach may be applied to the identification of other drugs whose metabolism may be determined in the same genetic fashion as that of S-mephenytoin.