Clinical and Translational Science (Mar 2023)

The impact of genetic variability in urate transporters on oxypurinol pharmacokinetics

  • Hailemichael Z. Hishe,
  • Sophie L. Stocker,
  • Lisa K. Stamp,
  • Nicola Dalbeth,
  • Tony R. Merriman,
  • Amanda Phipps‐Green,
  • Daniel F. B. Wright

DOI
https://doi.org/10.1111/cts.13460
Journal volume & issue
Vol. 16, no. 3
pp. 422 – 428

Abstract

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Abstract The genetic determinants of the allopurinol dose‐concentration relationship have not been extensively studied. We aimed to clarify what factors, including genetic variation in urate transporters, influence oxypurinol pharmacokinetics (PKs). A population PK model for oxypurinol was developed with NONMEM (version 7.3). The influence of urate transporter genetic variants for ABCG2 (rs2231142 and rs10011796), SLC2A9/GLUT9 (rs11942223), SLC17A1/NPT1 (rs1183201), SLC22A12/URAT1 (rs3825018), SLC22A11/OAT4 (rs17300741), and ABCC4/MRP4 (rs4148500), as well as other participant factors on oxypurinol PKs was assessed. Data from 325 people with gout were available. The presence of the T allele for ABCG2 (rs2231142) and SLC17A1/NPT1 (rs1183201) was associated with a 24% and 22% increase in oxypurinol clearance, respectively, in univariate analysis. This effect was not significant in the multivariate analysis. In the final model, oxypurinol PKs were predicted by creatinine clearance, diuretic use, ethnicity, and body weight. We have found that genetic variability in the transporters examined does not appear to influence oxypurinol PKs.