Received for publication August 21, 2007.
Revised October 15, 2007.
Accepted for publication October 19, 2007.
THE INFLUENCE OF CYP3A5 EXPRESSION ON THE EXTENT OF HEPATIC CYP3A INHIBITION IS SUBSTRATE-DEPENDENT: AN IN VITRO-IN VIVO EVALUATION
Nina Isoherranen 1,
Shana R. Ludington 2,
Raymond C. Givens 2,
Jatinder K. Lamba 3,
Susan N. Pusek 2,
E. Claire Dees 2,
David K. Blough 1,
Kazunori Iwanaga 1,
Roy L. Hawke 2,
Erin G. Schuetz 3,
Paul B. Watkins 2,
Kenneth E. Thummel 1,
Mary F. Paine 2*
1 University of Washington
2 University of North Carolina - Chapel Hill
3 St. Judes Children's Hospital
* Address correspondence to: E-mail: mpaine{at}med.unc.edu
Abstract
Despite several studies suggesting that CYP3A5 expression can influence the extent of hepatic CYP3A-mediated inhibition, a systematic in vitro-in vivo evaluation of this potential clinically important issue has not been reported. Using representative probes from two distinct CYP3A substrate subgroups (midazolam, erythromycin), the inhibitory potency of fluconazole was evaluated in pooled human liver microsomes (HLM) with a low or high specific CYP3A5 content, in recombinant CYP3A enzymes (rCYP3As), and in healthy volunteers lacking or carrying the CYP3A5*1 allele. Fluconazole was a slightly more potent inhibitor of CYP3A activity in CYP3A5- HLM than in CYP3A5+ HLM with midazolam (Ki of 15 µM and 25 µM, respectively), but not with erythromycin (IC50 of 71 µM and 53 µM, respectively). In comparison, fluconazole was a much more potent inhibitor of rCYP3A4 than rCYP3A5 with both midazolam (Ki of 7.7 µM and 54 µM, respectively) and erythromycin (IC50 of 100 µM and 350 µM, respectively). As predicted from HLM, with intravenous midazolam, the average (±SD) in vivo Ki (Ki,iv) was significantly higher in CYP3A5*1 carriers (24±17 µM and 17±8 µM for homozygous and heterozygous groups, respectively) than in noncarriers (13±6 µM) (p=0.02). With the erythromycin breath test, the average Ki,iv was not different between homozygous CYP3A5*1 carriers (30±12 µM) and noncarriers (58±53 µM). In conclusion, the effect of CYP3A5 on hepatic CYP3A-mediated inhibitory drug-drug interactions is substrate-dependent, and HLM, rather than rCYP3As, are the preferred in vitro system for predicting these interactions in vivo.
Key words:
CYP inhibition, CYP3A, drug-drug interactions, enzyme kinetics, genotype, human pharmacokinetics, in vitro-in vivo prediction, inhibition, liver microsomes, pharmacokinetics
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