Literature DB >> 27378609

Effect of ABCB1 diplotype on tacrolimus disposition in renal recipients depends on CYP3A5 and CYP3A4 genotype.

T Vanhove1,2, P Annaert3, D Lambrechts4,5, D R J Kuypers1,2.   

Abstract

The relevance of most genetic polymorphisms beyond CYP3A5*1 on tacrolimus disposition remains unclear. We constructed a predictive mixed model for tacrolimus dose-corrected trough concentration (C0/dose) at months 3, 12 and 24 after transplantation in a retrospective cohort of 766 predominantly Causasian adult renal recipients (n=2042 trough concentrations). All patients were genotyped for 32 single-nucleotide polymorphisms with a proven or possible relevance to tacrolimus disposition based on the previous studies. Of these, ABCB1, ABCC2, OATP1B1, COMT, FMO, PPARA and APOA5 were analyzed as (functional) diplotype groups. Predictors of C0/dose were CYP3A5*1, hematocrit, age, CYP3A4*22, use of concomitant CYP3A4 inhibitor or inducer, ALT, estimated glomerular filtration rate, tacrolimus formulation (once vs twice daily), ABCB1 diplotype and time after transplantation. The effect of ABCB1 diplotype was small but strongly accentuated in CYP3A4*22 carriers and non-existent in CYP3A5 expressors. ABCC2 diplotype had a limited effect on C0/dose that was only statistically significant in CYP3A5 non-expressors.

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Year:  2016        PMID: 27378609     DOI: 10.1038/tpj.2016.49

Source DB:  PubMed          Journal:  Pharmacogenomics J        ISSN: 1470-269X            Impact factor:   3.550


  45 in total

1.  Impact of the CYP3A4*1G polymorphism and its combination with CYP3A5 genotypes on tacrolimus pharmacokinetics in renal transplant patients.

Authors:  Masatomo Miura; Shigeru Satoh; Hideaki Kagaya; Mitsuru Saito; Kazuyuki Numakura; Norihiko Tsuchiya; Tomonori Habuchi
Journal:  Pharmacogenomics       Date:  2011-06-02       Impact factor: 2.533

2.  Impact of ABCB1 (MDR1) haplotypes on tacrolimus dosing in adult lung transplant patients who are CYP3A5 *3/*3 non-expressors.

Authors:  Jian Wang; Adriana Zeevi; Kenneth McCurry; Erin Schuetz; Hongxia Zheng; Aldo Iacono; Kevin McDade; Diana Zaldonis; Steven Webber; Richard M Watanabe; Gilbert J Burckart
Journal:  Transpl Immunol       Date:  2005-09-08       Impact factor: 1.708

3.  The P450 oxidoreductase *28 SNP is associated with low initial tacrolimus exposure and increased dose requirements in CYP3A5-expressing renal recipients.

Authors:  Hylke de Jonge; Christoph Metalidis; Maarten Naesens; Diether Lambrechts; Dirk R J Kuypers
Journal:  Pharmacogenomics       Date:  2011-07-19       Impact factor: 2.533

4.  The CYP3A4*22 allele affects the predictive value of a pharmacogenetic algorithm predicting tacrolimus predose concentrations.

Authors:  Laure Elens; Dennis A Hesselink; Ron H N van Schaik; Teun van Gelder
Journal:  Br J Clin Pharmacol       Date:  2013-06       Impact factor: 4.335

5.  Population pharmacokinetic and pharmacogenomic analysis of tacrolimus in pediatric living-donor liver transplant recipients.

Authors:  Masahide Fukudo; Ikuko Yano; Satohiro Masuda; Maki Goto; Miwa Uesugi; Toshiya Katsura; Yasuhiro Ogura; Fumitaka Oike; Yasutsugu Takada; Hiroto Egawa; Shinji Uemoto; Ken-ichi Inui
Journal:  Clin Pharmacol Ther       Date:  2006-10       Impact factor: 6.875

6.  Hepatic drug interaction between tacrolimus and lansoprazole in a bone marrow transplant patient receiving voriconazole and harboring CYP2C19 and CYP3A5 heterozygous mutations.

Authors:  Takuya Iwamoto; Fumihiko Monma; Atsushi Fujieda; Kaname Nakatani; Naoyuki Katayama; Masahiro Okuda
Journal:  Clin Ther       Date:  2011-07-29       Impact factor: 3.393

Review 7.  Current understanding of drug disposition in kidney disease.

Authors:  Judith Naud; Thomas D Nolin; Francois A Leblond; Vincent Pichette
Journal:  J Clin Pharmacol       Date:  2012-01       Impact factor: 3.126

8.  Disposition of tacrolimus (FK 506) in rabbits. Role of red blood cell binding in hepatic clearance.

Authors:  W Piekoszewski; F S Chow; W J Jusko
Journal:  Drug Metab Dispos       Date:  1993 Jul-Aug       Impact factor: 3.922

9.  Sequence diversity and haplotype structure in the human ABCB1 (MDR1, multidrug resistance transporter) gene.

Authors:  Deanna L Kroetz; Christiane Pauli-Magnus; Laura M Hodges; Conrad C Huang; Michiko Kawamoto; Susan J Johns; Doug Stryke; Thomas E Ferrin; Joseph DeYoung; Travis Taylor; Elaine J Carlson; Ira Herskowitz; Kathleen M Giacomini; Andrew G Clark
Journal:  Pharmacogenetics       Date:  2003-08

10.  Population pharmacokinetics of tacrolimus in adult kidney transplant recipients.

Authors:  Christine E Staatz; Charlene Willis; Paul J Taylor; Susan E Tett
Journal:  Clin Pharmacol Ther       Date:  2002-12       Impact factor: 6.875
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  7 in total

Review 1.  Genetics of acute rejection after kidney transplantation.

Authors:  Casey R Dorr; William S Oetting; Pamala A Jacobson; Ajay K Israni
Journal:  Transpl Int       Date:  2017-11-08       Impact factor: 3.782

2.  A New CYP3A5*3 and CYP3A4*22 Cluster Influencing Tacrolimus Target Concentrations: A Population Approach.

Authors:  Franc Andreu; Helena Colom; Laure Elens; Teun van Gelder; Ronald H N van Schaik; Dennis A Hesselink; Oriol Bestard; Joan Torras; Josep M Cruzado; Josep M Grinyó; Nuria Lloberas
Journal:  Clin Pharmacokinet       Date:  2017-08       Impact factor: 6.447

3.  Tacrolimus troughs and genetic determinants of metabolism in kidney transplant recipients: A comparison of four ancestry groups.

Authors:  Moataz E Mohamed; David P Schladt; Weihua Guan; Baolin Wu; Jessica van Setten; Brendan J Keating; David Iklé; Rory P Remmel; Casey R Dorr; Roslyn B Mannon; Arthur J Matas; Ajay K Israni; William S Oetting; Pamala A Jacobson
Journal:  Am J Transplant       Date:  2019-05-13       Impact factor: 8.086

4.  Composite CYP3A phenotypes influence tacrolimus dose-adjusted concentration in lung transplant recipients.

Authors:  Michelle Liu; Ciara M Shaver; Kelly A Birdwell; Stephanie A Heeney; Christian M Shaffer; Sara L Van Driest
Journal:  Pharmacogenet Genomics       Date:  2022-04-07       Impact factor: 2.000

5.  Flat Pattern Peaks of Tacrolimus Absorption and Associated Pharmacogenomic Variants in Kidney Transplantation Recipients.

Authors:  Suh Min Kim; Younggyun Lim; Sangil Min; Byung-Joo Min; Myung-Eui Seo; Kye Hwa Lee; Ju Han Kim; Jongwon Ha
Journal:  J Korean Med Sci       Date:  2022-02-07       Impact factor: 2.153

6.  Pharmacogene Variants Associated with Liver Transplant in a Twelve-Year Clinical Follow-Up.

Authors:  Luis Sendra; Gladys G Olivera; Rafael López-Andújar; Cristina Serrano; Luis E Rojas; Eva María Montalvá; María José Herrero; Salvador F Aliño
Journal:  Pharmaceutics       Date:  2022-02-03       Impact factor: 6.321

7.  The association between use of proton-pump inhibitors and excess mortality after kidney transplantation: A cohort study.

Authors:  Rianne M Douwes; António W Gomes-Neto; Michele F Eisenga; Elisabet Van Loon; Joëlle C Schutten; Rijk O B Gans; Maarten Naesens; Else van den Berg; Ben Sprangers; Stefan P Berger; Gerjan Navis; Hans Blokzijl; Björn Meijers; Stephan J L Bakker; Dirk Kuypers
Journal:  PLoS Med       Date:  2020-06-15       Impact factor: 11.069
  7 in total

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