Literature DB >> 20565450

Potential impact of cytochrome P450 3A5 in human liver on drug interactions with triazoles.

Hiroshi Yamazaki1, Minako Nakamoto, Makiko Shimizu, Norie Murayama, Toshiro Niwa.   

Abstract

Cytochrome P450 3A is the main enzyme subfamily involved in the metabolism of a variety of marketed medicines. It is generally believed that the substrate specificity of polymorphic P450 3A5 is similar to that of the predominant P450 3A4 isoform, although some differences in catalytic properties have been found. It has been hypothesized that individuals with CYP3A5 1 (P450 3A5 expresser) might clear the HIV protease inhibitor saquinavir, administered by mouth, more rapidly than subjects lacking functional CYP3A5 alleles. Enhanced midazolam hydroxylation and cyclosporin metabolism occur in an in vitro P450 3A5 system and in liver microsomes expressing P450 3A5 in the presence of thalidomide. However, inhibition constants (K(i)) of three triazole anti-fungal drugs (itraconazole, fluconazole, and voriconazole) for liver microsomal P450 3A5 are higher than for liver microsomal P450 3A4. To predict drug interactions in vivo, we estimated increases of areas under the curves (AUC) dependent on polymorphic P450 3A5 expression, using both 1 +[Inhibitor] / K(i) (recommended in US FDA guidance), and 1 +[Inhibitor](unbound) / K(i) (as recommended by Japanese MHLW Notice). Voriconazole would be expected to cause approximately a three-fold higher increase in AUC in subjects with CYP3A5 3/3 than in those with CYP3A5 1/3, especially when estimated using the FDA guidance. We conclude that drug interactions between marketed drugs may differ substantially between individuals with genetically distinct P450 3A5 catalytic functions.

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Year:  2010        PMID: 20565450      PMCID: PMC2883751          DOI: 10.1111/j.1365-2125.2010.03656.x

Source DB:  PubMed          Journal:  Br J Clin Pharmacol        ISSN: 0306-5251            Impact factor:   4.335


  25 in total

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3.  Multiple P450 substrates in a single run: rapid and comprehensive in vitro interaction assay.

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4.  Comparison of cytochrome P450 inhibition assays for drug discovery using human liver microsomes with LC-MS, rhCYP450 isozymes with fluorescence, and double cocktail with LC-MS.

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Review 5.  Prediction of pharmacokinetic alterations caused by drug-drug interactions: metabolic interaction in the liver.

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6.  CYP3A4 substrate selection and substitution in the prediction of potential drug-drug interactions.

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7.  Roles of CYP3A4 and CYP2C19 in methyl hydroxylated and N-oxidized metabolite formation from voriconazole, a new anti-fungal agent, in human liver microsomes.

Authors:  Norie Murayama; Naoko Imai; Takahisa Nakane; Makiko Shimizu; Hiroshi Yamazaki
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8.  Role of itraconazole metabolites in CYP3A4 inhibition.

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7.  Pharmacokinetics of voriconazole administered concomitantly with fluconazole and population-based simulation for sequential use.

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8.  Autoinhibitory properties of the parent but not of the N-oxide metabolite contribute to infusion rate-dependent voriconazole pharmacokinetics.

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