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Pharmacogenetics-based population pharmacokinetic analysis of etravirine in HIV-1 infected individuals
JournalArticle (Originalarbeit in einer wissenschaftlichen Zeitschrift)
 
ID 3704216
Author(s) Lubomirov, Rubin; Arab-Alameddine, Mona; Rotger, Margalida; Fayet-Mello, Aurélie; Martinez, Raquel; Guidi, Monia; di Iulio, Julia; Cavassini, Matthias; Günthard, Huldrych F.; Furrer, Hansjakob; Marzolini, Catia; Bernasconi, Enos; Calmy, Alexandra; Buclin, Thierry; Decosterd, Laurent A.; Csajka, Chantal; Telenti, Amalio; Swiss HIV Cohort Study,
Author(s) at UniBasel Marzolini, Catia
Year 2013
Title Pharmacogenetics-based population pharmacokinetic analysis of etravirine in HIV-1 infected individuals
Journal Pharmacogenetics and Genomics
Volume 23
Number 1
Pages / Article-Number 9-18
Mesh terms Adolescent; Adult; Aged; Aryl Hydrocarbon Hydroxylases, genetics; Cytochrome P-450 CYP2C19; Cytochrome P-450 CYP3A, genetics; Female; HIV Infections, genetics; HIV Protease Inhibitors, pharmacology; HIV-1, genetics; Humans; Male; Middle Aged; Models, Statistical; Pharmacogenetics; Polymorphism, Single Nucleotide, genetics; Prognosis; Prospective Studies; Pyridazines, pharmacology; Switzerland, epidemiology; Tissue Distribution; Young Adult
Abstract Etravirine (ETV) is metabolized by cytochrome P450 (CYP) 3A, 2C9, and 2C19. Metabolites are glucuronidated by uridine diphosphate glucuronosyltransferases (UGT). To identify the potential impact of genetic and non-genetic factors involved in ETV metabolism, we carried out a two-step pharmacogenetics-based population pharmacokinetic study in HIV-1 infected individuals.; The study population included 144 individuals contributing 289 ETV plasma concentrations and four individuals contributing 23 ETV plasma concentrations collected in a rich sampling design. Genetic variants [n=125 single-nucleotide polymorphisms (SNPs)] in 34 genes with a predicted role in ETV metabolism were selected. A first step population pharmacokinetic model included non-genetic and known genetic factors (seven SNPs in CYP2C, one SNP in CYP3A5) as covariates. Post-hoc individual ETV clearance (CL) was used in a second (discovery) step, in which the effect of the remaining 98 SNPs in CYP3A, P450 cytochrome oxidoreductase (POR), nuclear receptor genes, and UGTs was investigated.; A one-compartment model with zero-order absorption best characterized ETV pharmacokinetics. The average ETV CL was 41 (l/h) (CV 51.1%), the volume of distribution was 1325 l, and the mean absorption time was 1.2 h. The administration of darunavir/ritonavir or tenofovir was the only non-genetic covariate influencing ETV CL significantly, resulting in a 40% [95% confidence interval (CI): 13-69%] and a 42% (95% CI: 17-68%) increase in ETV CL, respectively. Carriers of rs4244285 (CYP2C19*2) had 23% (8-38%) lower ETV CL. Co-administered antiretroviral agents and genetic factors explained 16% of the variance in ETV concentrations. None of the SNPs in the discovery step influenced ETV CL.; ETV concentrations are highly variable, and co-administered antiretroviral agents and genetic factors explained only a modest part of the interindividual variability in ETV elimination. Opposing effects of interacting drugs effectively abrogate genetic influences on ETV CL, and vice-versa.
Publisher Lippincott Williams & Wilkins
ISSN/ISBN 1744-6872 ; 1744-6880
URL https://journals.lww.com/jpharmacogenetics/Fulltext/2013/01000/Pharmacogenetics_based_population_pharmacokinetic.2.aspx
edoc-URL https://edoc.unibas.ch/69520/
Full Text on edoc No
Digital Object Identifier DOI 10.1097/FPC.0b013e32835ade82
PubMed ID http://www.ncbi.nlm.nih.gov/pubmed/23111422
ISI-Number WOS:000312499800002
Document type (ISI) Journal Article
 
   

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