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Received for publication January 7, 2008.
Revised March 27, 2008.
Accepted for publication March 27, 2008.
The effect of genetic polymorphisms in drug metabolizing enzymes (e.g., CYP2C9*3) on drug clearance have been well characterized but much less is known about whether these polymorphisms alter susceptibility to drug-drug interactions. Previous in-vitro work has demonstrated genotype-dependent inhibition of CYP2C9 mediated flurbiprofen metabolism, suggesting the possibility of genotype-dependent inhibition interactions in-vivo. In the current study, flurbiprofen was used as a probe substrate and fluconazole as a prototypical inhibitor to investigate whether genotype dependent inhibition of CYP2C9 occurs in-vivo. From 189 healthy volunteers who were genotyped for CYP2C9 polymorphisms, eleven control subjects (CYP2C9*1/*1), nine heterozygous and two homozygous for the CYP2C9*3 allele participated in the pharmacokinetic drug interaction study. Subjects received a single 50 mg oral dose of flurbiprofen alone or after administration of either 200 or 400 mg fluconazole for seven days using an open, randomized, cross-over design. Flurbiprofen and fluconazole plasma concentrations along with flurbiprofen and 4'hydroxyflurbiprofen urinary excretion were monitored. Flurbiprofen apparent oral clearance differed significantly among the three genotype groups (p<0.05) at baseline but not after pretreatment with 400mg fluconazole for seven days. Changes in flurbiprofen apparent oral clearance after fluconazole co-administration were gene-dose dependent, with virtually no change occurring in *3/*3 subjects. Analysis of fractional clearances suggested that fraction metabolized by CYP2C9, as influenced by genotype, determined the degree of drug interaction observed. In summary, the presence of CYP2C9*3 alleles (either one or two alleles) can alter the degree of drug interaction observed upon co-administration of inhibitors.
Key words:
CYP inhibition, CYP2C, cytochrome P450, drug interactions, human CYP enzymes
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