Influence of SLCO1B1 and CYP2C8 gene polymorphisms on rosiglitazone pharmacokinetics in healthy volunteers.

Polymorphisms in drug transporter genes and/or drug-metabolising enzyme genes may contribute to inter-individual variability in rosiglitazone pharmacokinetics in humans. We sought to determine the joint effects of polymorphisms in the SLCO1B1 drug transporter gene and the cytochrome P450 ( CYP ) 2C8-metabolising enzyme gene on rosiglitazone pharmacokinetics in healthy volunteers. Healthy Caucasian subjects were prospectively enrolled on the basis of SLCO1B1 521 T > C genotype. Additionally, subjects were genotyped for SLCO1B1 -11187 G > A, -10499 A > C and 388 A > G polymorphisms, and the CYP2C8*3 polymorphism. SLCO1B1 haplotypes and diplotypes were computationally assigned. Rosiglitazone plasma concentrations were determined by high-performance liquid chromatography and analysed using non-compartmental methods. The study population consisted of 26 subjects, with a mean age of 33 +/- 9 years, and a mean weight of 66.6 +/- 11.7 kg. There were no significant differences in rosiglitazone pharmacokinetic parameters between SLCO1B1 diplotype groups. Subjects with the CYP2C8*1/*3 genotype ( n = 7), however, had significantly lower rosiglitazone area under the plasma concentration-time curve (AUC) and significantly higher rosiglitazone oral clearance, compared with CYP2C8 wild-type homozygotes ( n = 19). Stepwise linear regression analysis revealed that CYP2C8 genotype ( p = 0.006) and weight ( p = 0.022) were significant predictors of rosiglitazone AUC (overall p = 0.002; R 2 = 41.6 per cent). We concluded that polymorphisms in the CYP2C8 drug-metabolising enzyme gene, but not the SLCO1B1 drug transporter gene, significantly influence rosiglitazone disposition in humans. Future studies examining the influence of CYP2C8 genotypes and haplotypes on thiazolidinedione disposition and response in patients with type 2 diabetes are warranted.

Pharmacodynamic effects of rosiglitazone in nondiabetic patients with metabolic syndrome.

STUDY OBJECTIVES: To determine the effects of the thiazolidinedione rosiglitazone on the adipocyte-derived cytokines adiponectin (an antiinflammatory and insulin-sensitizing cytokine; low levels have been associated with metabolic syndrome) and resistin (an inflammation mediator; high levels have been associated with metabolic syndrome) in nondiabetic patients with metabolic syndrome, and to characterize the effects of rosiglitazone on other components of the metabolic syndrome phenotype in this population. DESIGN: Prospective, randomized, double-blind, placebo-controlled study. SETTING: Outpatient general clinical research center. PATIENTS: Thirty-two nondiabetic men and women with a clinical diagnosis of metabolic syndrome (as defined in the American Heart Association-National Heart, Lung, and Blood Institute scientific statement). INTERVENTION: Patients were randomly assigned to receive either oral rosiglitazone 4 mg/day or matching placebo for 12 weeks. MEASUREMENTS AND MAIN RESULTS: The primary end point was change in serum adiponectin concentrations from baseline to week 12. Secondary end points were changes in serum resistin concentrations, insulin resistance, fasting glucose level, fasting insulin level, body weight, lipid levels, systolic and diastolic blood pressure, and waist circumference from baseline to week 12. Also, changes from baseline in adiponectin and resistin concentrations and insulin resistance were assessed over time at weeks 2, 4, 8, and 12. Rosiglitazone was associated with a significant increase in serum adiponectin concentration after 12 weeks compared with placebo (45.8% vs 2.6%, p=0.002). The increase in adiponectin concentration occurred quickly, with a significant difference observed after 2 weeks of therapy. Compared with placebo, rosiglitazone was not associated with significant 12-week changes in serum resistin concentrations, insulin resistance, fasting glucose level, fasting insulin level, body weight, lipid levels, systolic or diastolic blood pressure, or waist circumference. CONCLUSION: Rosiglitazone had beneficial effects on adiponectin concentrations without significantly affecting other components of the metabolic syndrome phenotype. Additional studies that further elucidate the time course of thiazolidinedione pharmacodynamic effects, along with their effects on cardiovascular end points, are warranted in nondiabetic patients with metabolic syndrome.