Pharmacokinetics/genotype associations for major cytochrome P450 enzymes in native and first- and third-generation Japanese populations: comparison with Korean, Chinese, and Caucasian populations.

Application of foreign clinical data across geographic regions can accelerate drug development. Drug disposition can be variable, and identification of factors influencing responsible pharmacokinetic/pharmacogenomic approaches could facilitate the universal application of foreign data and reduce the total amount of phase III clinical trials evaluating risks in different populations. Our objective was to establish and compare genotype (major cytochrome P450 (CYP) enzymes)/phenotype associations for Japanese (native and first- and third-generation Japanese living abroad), Caucasian, Chinese, and Korean populations using a standard drug panel. The mean metabolic ratios (MRs) for the four ethnic groups were similar except for a lower activity of CYP2D6 in Caucasians and CYP2C19 in Asians. Genotype, not ethnicity, impacted the MR for CYP2C9, CYP2C19, and CYP2D6; neither affected CYP1A2, CYP2E1, and CYP3A4/5 activities. We conclude that equivalent plasma drug concentrations and metabolic profiles can be expected for native Japanese, first- and third-generation Japanese, Koreans, and Chinese for compounds handled through these six CYP enzymes.

POWER_SAGE: comparing statistical tests for SAGE experiments.

MOTIVATION: The Serial Analysis of Gene Expression (SAGE) technology determines the expression level of a gene by measuring the frequency of a sequence tag derived from the corresponding mRNA transcript. Several statistical tests have been developed to detect significant differences in tag frequency between two samples. However, which one of these tests has the greatest power to detect real changes remains undetermined. RESULTS: This paper compares three statistical tests for detecting significant changes of gene expression in SAGE experiments. The comparison makes use of Monte Carlo simulation that, in essence, generates "virtual" SAGE experiments. Our analysis shows that the Chi-square test has the best power and robustness. Since the POWER_ SAGE program can easily run "virtual" SAGE studies with different combinations of sample size and tag frequency and determine the power for each combination, it can serve as a useful tool for planning SAGE experiments. AVAILABILITY: The POWER_ SAGE software is available upon request from the authors. CONTACT: michael.man@pfizer.com

Regulation of the murine adipocyte fatty acid transporter gene by insulin.

A cDNA encoding a novel fatty acid transport protein (FATP) was identified recently using expression cloning methodologies. We have studied the expression of FATP in differentiating 3T3-L1 cells and adipose tissue in vivo. When 3T3-L1 preadipocytes are treated with a combination of methylisobutylxanthine, dexamethasone, and insulin to induce differentiation, the abundance of FATP mRNA decreases within 24 h to less than one-third that of preadipocytes and increases subsequently, such that mature adipocytes have 5-7 times more FATP mRNA than fibroblastic precursors. In fully differentiated 3T3-L1 adipocytes, insulin alone is sufficient to down-regulate FATP mRNA levels 10-fold. The concentration of insulin necessary for half-maximal repression (I0.5) is approximately 1 nM and is specific for insulin; insulin-like growth factor I (IGF-I) has little effect at similar concentrations. Kinetic analysis indicates that the reduction in expression of FATP mRNA by insulin is rapid (t1/2 = approximately 4 h) and reversible upon withdrawal of insulin. The half-lives of FATP mRNA are 2.9 h and 4.4 h in the absence and presence of insulin, respectively. The insulin-mediated decrease in FATP steady state mRNA level correlates with a decrease in its transcription rate as measured by nuclear run-on transcription assay. To determine whether physiological conditions that alter insulin concentration in vivo affect adipose FATP levels, feeding/fasting studies are employed. Fasting of C57BL/6J mice for 48 h results in an 11-fold up-regulation of FATP mRNA expression in adipose tissue. Refeeding of fasted animals for 72 h results in a return of FATP mRNA to basal levels. In sum, these results indicate that the expression of FATP gene is negatively regulated by insulin at the transcriptional level in cultured adipocytes and that transporter mRNA expression in murine adipose tissue is altered in a manner consistent with insulin being a negative regulator of gene activity.