Abstract
Introduction: Although thiazide diuretics are common therapies for the treatment of hypertension, evidence suggests that they are also associated with elevated blood lipid concentrations after their initiation. Pharmacogenomics studies could help identify potential biological pathways underlying this phenomenon, but few well-powered studies have been conducted. Methods: In participants of European ancestry from the UK Biobank, we conducted a genome-wide association study (GWAS) to examine whether common variants (minor allele frequency [MAF] >1%) modified the effect of thiazide diuretic use on three lipid measures: low density lipoprotein cholesterol (LDL-C), high-density lipoprotein cholesterol (HDL-C), and triglyceride (TG) concentrations (mmol/L). TG concentrations were natural log transformed, and LDL-C concentrations were adjusted for statin use. Given the conflicting evidence about the impact of loop diuretics on blood lipid concentrations, unexposed participants were defined as those taking neither thiazides nor loop diuretics. GWAS of UK10K plus 1000-Genomes Phase 3 imputed data were performed using SAIGE, adjusting for age, sex, fasting status, body mass index, study center, and the first 10 ancestral principal components. Results: Approximately 7.1% (n=27,971) of participants (n=395,058; mean age=57 years; 54% female [n=214,334]) used thiazides at study baseline. The thiazide-LDL-C GWAS (n=9,680,686 variants) identified one chromosome 19 locus harboring several genome-wide significant variants that modified the effect of thiazide diuretic use on LDL-C. The lead variant rs2199576 (MAF = 0.18) had an effect estimate (standard error) of 0.159 (0.013) among participants exposed to thiazides, and an effect estimate of 0.083 (0.003) among participants unexposed to any diuretic, yielding a significant variant-by-thiazide interaction effect estimate of 0.076 (0.013) ( p = 1.62 x 10 -9 ). These effect estimates are comparable to previously identified main effects of blood lipids loci. The rs2199576 variant resides near the PVRL2 locus, a cholesterol-responsive gene that is located within 100 kb of TOMM40 and the APO cluster, which have both been associated with blood lipid concentrations and Alzheimer’s disease. Conclusion: Our results may provide insights into pathways that influence the adverse effects of thiazide diuretic use and highlight the large sample sizes needed to detect modest pharmacogenetic effects.
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