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  • MDR1 gene polymorphisms and disposition of the P-glycoprotein substrate fexofenadine.

MDR1 gene polymorphisms and disposition of the P-glycoprotein substrate fexofenadine.

British journal of clinical pharmacology (2002-05-08)
Siegfried Drescher, Elke Schaeffeler, Monika Hitzl, Ute Hofmann, Matthias Schwab, Ulrich Brinkmann, Michel Eichelbaum, Martin F Fromm
ABSTRACT

The C3435T polymorphism in the human MDR1 gene is associated with lower intestinal P-glycoprotein expression, reduced protein function in peripheral blood cells and higher plasma concentrations of the P-glycoprotein substrate digoxin. Using fexofenadine, a known P-glycoprotein substrate, the hypothesis was tested whether this polymorphism also affects the disposition of other drugs in humans. Ten Caucasian subjects homozygous for the wild-type allele at position 3435 (CC) and 10 individuals homozygous for T at position 3435 participated in this study. A single oral dose of 180 mg fexofenadine HCl was administered. Plasma and urine concentrations of fexofenadine were measured up to 72 h using a sensitive LC/MS method. In addition, P-glycoprotein function was assessed using efflux of the P-glycoprotein substrate rhodamine 123 from CD56+ cells. Results Fexofenadine plasma concentrations varied considerably among the study population. However, fexofenadine disposition was not significantly different between the CC and TT groups (e.g. AUC(0,infinity) CC vs TT: 3567.1+/-1535.5 vs 3910.1+/-1894.8 ng ml-1 h, NS; 95% CI on the difference -1364.9, 2050.9). In contrast, P-glycoprotein function was significantly decreased in CD56+ cells of the TT compared with the CC group (rhodamine fluorescence CC vs TT: 45.6+/-7.2% vs 61.1+/-12.3%, P<0.05; 95% CI on the difference 5.6, 25.5). Conclusions In spite of MDR1 genotype-dependent differences in P-glycoprotein function in peripheral blood cells, there was no association of the C3435T polymorphism with the disposition of the P-glycoprotein substrate fexofenadine in this German Caucasian study population. These data indicate that other mechanisms including uptake transporter function are likely to play a role in fexofenadine disposition.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
SB-ratMdr1b-Sf9-PREDEASY-ATPase kit, membrane based kit for Rat Mdr1b ATPase Transport Assays
Sigma-Aldrich
SB-MDR1-Hi5-PREDEASY-ATPase kit, membrane based kit for Human MDR1 ATPase Transport Assays