The impact of thyroid disease on the regulation, expression, and function of ABCB1 (MDR1/P glycoprotein) and consequences for the disposition of digoxin.

The impact of thyroid dysfunction on the regulation, expression, and function of ABCB1 remains unclear. We therefore investigated ABCB1 mRNA expression and function in patients with thyroid dysfunction and studied the disposition of the ABCB1 substrate digoxin before and after treatment for thyroid disease. In patients with hypothyroidism, normalization of thyroid function was associated with a 1.8-fold increase in mRNA expression and a 26% increase in rhodamine efflux from CD56(+) cells. In hypothyroidism, digoxin clearance was significantly decreased, whereas bioavailability, volume of distribution, half-life time, and protein binding were unaltered. In hyperthyroidism, ABCB1 mRNA expression, rhodamine efflux, and disposition of digoxin were not significantly affected other than in relation to renal clearance. Experiments using the LS174T cell line indicated that the gene is a direct target of thyroid hormone receptors. In conclusion, thyroid abnormalities can exert significant effects on the expression of P-glycoprotein, thereby altering the disposition and action of drugs that are substrates of P-glycoprotein.

Variability in human hepatic MRP4 expression: influence of cholestasis and genotype.

The multidrug resistance protein 4 (MRP4) is an efflux transporter involved in the transport of endogenous substrates and xenobiotics. We measured MRP4 mRNA and protein expression in human livers and found a 38- and 45-fold variability, respectively. We sequenced 2 kb of the 5'-flanking region, all exons and intron/exon boundaries of the MRP4 gene in 95 patients and identified 74 genetic variants including 10 non-synonymous variations, seven of them being located in highly conserved regions. None of the detected polymorphisms was significantly associated with changes in the MRP4 mRNA or protein expression. Immunofluorescence microscopy indicated that none of the non-synonymous variations affected the cellular localization of MRP4. However, in cholestatic patients the MRP4 mRNA and protein expression both were significantly upregulated compared to non-cholestatic livers (protein: 299+/-138 vs 100+/-60a.u., P<0.001). Taken together, human hepatic MRP4 expression is highly variable. Genetic variations were not sufficient to explain this variability. In contrast, cholestasis is one major determinant of human hepatic MRP4 expression.

Predictive value of known and novel alleles of CYP2B6 for efavirenz plasma concentrations in HIV-infected individuals.

To assess the association of CYP2B6 allelic diversity with efavirenz (EFV) pharmacokinetics, we performed extensive genotyping of 15 relevant single nucleotide polymorphism in 169 study participants, and full resequencing of CYP2B6 in individuals with abnormal EFV plasma levels. Seventy-seven (45.5%) individuals carried a known (CYP2B6*6, *11, *15, or *18) or new loss/diminished-function alleles. Resequencing defined two new loss-of-function alleles: allele *27 (marked by 593T>C [M198T]), that results in 85% decrease in enzyme activity and allele *28 (marked by 1132C>T), that results in protein truncation at arginine 378. Median AUC levels were 188.5 microg h/ml for individuals homozygous for a loss/diminished-function allele, 58.6 microg h/ml for carriers, and 43.7 microg h/ml for noncarriers (P<0.0001). Individuals with a poor metabolizer genotype had a likelihood ratio of 35 (95% CI, 11-110) of presenting very high EFV plasma levels. CYP2B6 poor metabolizer genotypes explain to a large extent EFV pharmacokinetics and identify individuals at risk of extremely elevated EFV plasma levels.