Literature DB >> 23111422

Pharmacogenetics-based population pharmacokinetic analysis of etravirine in HIV-1 infected individuals.

Rubin Lubomirov1, Mona Arab-Alameddine, Margalida Rotger, Aurélie Fayet-Mello, Raquel Martinez, Monia Guidi, Julia di Iulio, Matthias Cavassini, Huldrych F Günthard, Hansjakob Furrer, Catia Marzolini, Enos Bernasconi, Alexandra Calmy, Thierry Buclin, Laurent A Decosterd, Chantal Csajka, Amalio Telenti.   

Abstract

OBJECTIVES: 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.
MATERIALS AND METHODS: 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.
RESULTS: 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.
CONCLUSION: 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.
© 2012 Wolters Kluwer Health | Lippincott Williams & Wilkins.

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Year:  2013        PMID: 23111422     DOI: 10.1097/FPC.0b013e32835ade82

Source DB:  PubMed          Journal:  Pharmacogenet Genomics        ISSN: 1744-6872            Impact factor:   2.089


  10 in total

Review 1.  Genetic Polymorphisms Affecting the Pharmacokinetics of Antiretroviral Drugs.

Authors:  Andrea Calcagno; Jessica Cusato; Antonio D'Avolio; Stefano Bonora
Journal:  Clin Pharmacokinet       Date:  2017-04       Impact factor: 6.447

2.  Genetic variation in the UGT1A locus is associated with simvastatin efficacy in a clinical practice setting.

Authors:  Otito F Iwuchukwu; QiPing Feng; Wei-Qi Wei; Lan Jiang; Min Jiang; Hua Xu; Joshua C Denny; Russell A Wilke; Ronald M Krauss; Dan M Roden; C Michael Stein
Journal:  Pharmacogenomics       Date:  2014-11       Impact factor: 2.533

3.  Evaluation of Concomitant Antiretrovirals and CYP2C9/CYP2C19 Polymorphisms on the Pharmacokinetics of Etravirine.

Authors:  Bruce Green; Herta Crauwels; Thomas N Kakuda; Simon Vanveggel; Anne Brochot
Journal:  Clin Pharmacokinet       Date:  2017-05       Impact factor: 6.447

Review 4.  Clinical Pharmacokinetics and Pharmacodynamics of Etravirine: An Updated Review.

Authors:  Joshua P Havens; Anthony T Podany; Kimberly K Scarsi; Courtney V Fletcher
Journal:  Clin Pharmacokinet       Date:  2020-02       Impact factor: 6.447

5.  A Lead-In with Silibinin Prior to Triple-Therapy Translates into Favorable Treatment Outcomes in Difficult-To-Treat HIV/Hepatitis C Coinfected Patients.

Authors:  Dominique L Braun; Andri Rauch; Manel Aouri; Nina Durisch; Nadia Eberhard; Alexia Anagnostopoulos; Bruno Ledergerber; Beat Müllhaupt; Karin J Metzner; Laurent Decosterd; Jürg Böni; Rainer Weber; Jan Fehr
Journal:  PLoS One       Date:  2015-07-15       Impact factor: 3.240

6.  Therapeutic drug monitoring of cefepime in a non-critically ill population: retrospective assessment and potential role for model-based dosing.

Authors:  Véronique Suttels; Pascal André; Yann Thoma; François Veuve; Laurent Decosterd; Benoît Guery; Thierry Buclin
Journal:  JAC Antimicrob Resist       Date:  2022-04-21

Review 7.  Pharmacogenomics of Antiretroviral Drug Metabolism and Transport.

Authors:  Zaikuan J Yu; Eric P Mosher; Namandjé N Bumpus
Journal:  Annu Rev Pharmacol Toxicol       Date:  2020-09-22       Impact factor: 13.820

8.  Privacy-preserving genomic testing in the clinic: a model using HIV treatment.

Authors:  Paul J McLaren; Jean Louis Raisaro; Manel Aouri; Margalida Rotger; Erman Ayday; István Bartha; Maria B Delgado; Yannick Vallet; Huldrych F Günthard; Matthias Cavassini; Hansjakob Furrer; Thanh Doco-Lecompte; Catia Marzolini; Patrick Schmid; Caroline Di Benedetto; Laurent A Decosterd; Jacques Fellay; Jean-Pierre Hubaux; Amalio Telenti
Journal:  Genet Med       Date:  2016-01-14       Impact factor: 8.822

9.  Etravirine Pharmacokinetics in HIV-Infected Pregnant Women.

Authors:  Nikki Mulligan; Stein Schalkwijk; Brookie M Best; Angela Colbers; Jiajia Wang; Edmund V Capparelli; José Moltó; Alice M Stek; Graham Taylor; Elizabeth Smith; Carmen Hidalgo Tenorio; Nahida Chakhtoura; Marjo van Kasteren; Courtney V Fletcher; Mark Mirochnick; David Burger
Journal:  Front Pharmacol       Date:  2016-08-04       Impact factor: 5.810

Review 10.  HIV-1 and human genetic variation.

Authors:  Paul J McLaren; Jacques Fellay
Journal:  Nat Rev Genet       Date:  2021-06-24       Impact factor: 53.242
  10 in total

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