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  • Comparative pharmacodynamics of hepatic cytochrome P450 2B induction by 5,5-diphenyl- and 5,5-diethyl-substituted barbiturates and hydantoins in the male F344/NCr rat.

Comparative pharmacodynamics of hepatic cytochrome P450 2B induction by 5,5-diphenyl- and 5,5-diethyl-substituted barbiturates and hydantoins in the male F344/NCr rat.

The Journal of pharmacology and experimental therapeutics (1994-07-01)
R W Nims, R M McClain, P S Manchand, P S Belica, P E Thomas, D W Mellini, W E Utermahlen, R A Lubet
ZUSAMMENFASSUNG

To explore further the structural requirements for ligand interaction with the putative phenobarbital receptor, the pharmacodynamics of CYP2B induction by 5,5-diphenylbarbituric acid, phenytoin (5,5-diphenylhydantoin), barbital (5,5-diethylbarbituric acid) and 5,5-diethylhydantoin were investigated in the male F344/NCr rat. Steady-state total (free plus protein-bound) serum drug concentration, measured after 14 days of administration of the compounds in the diet, was used as an approximation of intrahepatocellular drug concentration. The serum concentrations associated with half-maximal hepatic CYP2B induction (EC50 values) were 6 to 11 microM and 15 to 18 microM for the diphenyl-substituted barbiturate and hydantoin, respectively, based on measurement of pentoxy- or benzyloxyresorufin O-dealkylation activities, or immunoreactive CYP2B1 protein. The corresponding potency values for the diethyl-substituted barbiturate and hydantoin were 16 to 20 microM and > or = 500 microM, respectively. The magnitudes of the maximal CYP2B induction responses elicited by the diphenyl-substituted congeners and by barbital were 94 to 122% of the responses resulting from phenobarbital itself. In contrast, the maximum induction responses elicited by 5,5-diethylhydantoin were only 24% as great as those elicited by phenobarbital. The finding of a CYP2B inducer with a potency value 2 to 3 orders of magnitude lower than those for certain other prototype CYP2B inducers is suggestive but not proof of receptor mediation in the induction process.

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Resorufin benzyl ether, CYP450 substrate