Your search keyword '"Vets E"' showing total 2 results

1. UGT2B17 genetic polymorphisms dramatically affect the pharmacokinetics of MK-7246 in healthy subjects in a first-in-human study.

Author

Wang YH, Trucksis M, McElwee JJ, Wong PH, Maciolek C, Thompson CD, Prueksaritanont T, Garrett GC, Declercq R, Vets E, Willson KJ, Smith RC, Klappenbach JA, Opiteck GJ, Tsou JA, Gibson C, Laethem T, Panorchan P, Iwamoto M, Shaw PM, Wagner JA, and Harrelson JC

Subjects

Administration, Oral, Adult, Area Under Curve, Double-Blind Method, Drug Monitoring, Genotype, Glucuronides metabolism, Half-Life, Humans, Male, Minor Histocompatibility Antigens, Pharmacogenetics methods, Polymorphism, Genetic, Receptors, Antigen, T-Cell antagonists & inhibitors, Carbolines pharmacokinetics, Glucuronosyltransferase genetics

Abstract

MK-7246, an antagonist of the chemoattractant receptor on T helper type 2 (Th2) cells, is being developed for the treatment of respiratory diseases. In a first-in-human study, we investigated whether genetic polymorphisms contributed to the marked intersubject variability in the pharmacokinetics of MK-7246 and its glucuronide metabolite M3. Results from in vitro enzyme kinetic studies suggested that UGT2B17 is probably the major enzyme responsible for MK-7246 metabolism in both the liver and the intestine. As compared with those with the UGT2B17*1/*1 wild-type genotype, UGT2B17*2/*2 carriers, who possess no UGT2B17 protein, had 25- and 82-fold greater mean dose-normalized values of area under the plasma concentration-time curve (AUC) and peak concentration of MK-7246, respectively, and a 24-fold lower M3-to-MK-7246 AUC ratio. The apparent half-life of MK-7246 was not as variable between these two genotypes. Therefore, the highly variable pharmacokinetics of MK-7246 is attributable primarily to the impact of UGT2B17 genetic polymorphisms and extensive first-pass metabolism of MK-7246.

Published

2012

2. UGT2B17 Genetic Polymorphisms Dramatically Affect the Pharmacokinetics of MK-7246 in Healthy Subjects in a First-in-Human Study

Author

Thompson Cd, Maciolek C, Declercq R, Christopher R. Gibson, Tsou Ja, Roger Smith, Wang Yh, Michele Trucksis, Joel A. Klappenbach, Joshua McElwee, Panorchan P, T Laethem, Peggy H. Wong, Jane Harrelson, Vets E, Marian Iwamoto, Peter M. Shaw, John A. Wagner, Gregory J. Opiteck, Garrett Gc, Willson Kj, and Prueksaritanont T

Subjects

Adult, Male, Genotype, Metabolite, Receptors, Antigen, T-Cell, Administration, Oral, Pharmacology, Biology, Minor Histocompatibility Antigens, chemistry.chemical_compound, Glucuronides, Double-Blind Method, Pharmacokinetics, Humans, Pharmacology (medical), Glucuronosyltransferase, Respiratory system, Polymorphism, Genetic, Antagonist, Articles, Metabolism, In vitro, chemistry, Pharmacogenetics, Area Under Curve, Drug Monitoring, Glucuronide, Carbolines, Half-Life

Abstract

MK-7246, an antagonist of the chemoattractant receptor on T helper type 2 (Th2) cells, is being developed for the treatment of respiratory diseases. In a first-in-human study, we investigated whether genetic polymorphisms contributed to the marked intersubject variability in the pharmacokinetics of MK-7246 and its glucuronide metabolite M3. Results from in vitro enzyme kinetic studies suggested that UGT2B17 is probably the major enzyme responsible for MK-7246 metabolism in both the liver and the intestine. As compared with those with the UGT2B17*1/*1 wild-type genotype, UGT2B17*2/*2 carriers, who possess no UGT2B17 protein, had 25- and 82-fold greater mean dose-normalized values of area under the plasma concentration–time curve (AUC) and peak concentration of MK-7246, respectively, and a 24-fold lower M3-to-MK-7246 AUC ratio. The apparent half-life of MK-7246 was not as variable between these two genotypes. Therefore, the highly variable pharmacokinetics of MK-7246 is attributable primarily to the impact of UGT2B17 genetic polymorphisms and extensive first-pass metabolism of MK-7246.

Published

2012