Abstract
The relative contribution of ether and ester glucuronidation to diflunisal metabolism was assessed by studying the effects of enzyme inducers, phenobarbital (PB), 3-methylcholanthrene (3-MC) and beta-naphthoflavone (BNF). Treatment with either PB, 3-MC or BNF increased markedly the unbound intrinsic clearance of diflunisal. Saline-treated control rats showed a greater unbound intrinsic clearance of diflunisal than oil-treated controls indicating that repetitive treatment with oil had an effect on enzyme activity. Treatment with 3-MC and BNF appeared to cause a decrease in the biliary clearance of ether and ester glucuronide, but PB had little effect on the biliary clearance of glucuronides. Rats pretreated with PB showed a 3-fold increase in the fractional metabolite formation clearance of ether glucuronide and a 2-fold increase in the fractional metabolite formation clearance of ester glucuronide, suggesting differential effects of PB on ester and ether glucuronidation. A similar trend, but to a smaller extent, was also observed for 3-MC- and BNF-treated rats. These results suggest the possibility of selective induction of multiple forms of UDP-glucuronyltransferase involved in metabolism of diflunisal.
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