Hypertension and Genetic Variation in Endothelial-Specific Genes

Erik Larsson,Per Lindahl,Bo Hedblad,Olle Melander,Sverre E Kjeldsen,Björn Wahlstrand,Thomas Hedner,Tanja Zeller

doi:10.1371/journal.pone.0062035

Erik Larsson, Per Lindahl + Show 6 more

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https://doi.org/10.1371/journal.pone.0062035

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Abstract

Genome-wide association (GWA) studies usually detect common genetic variants with low-to-medium effect sizes. Many contributing variants are not revealed, since they fail to reach significance after strong correction for multiple comparisons. The WTCCC study for hypertension, for example, failed to identify genome-wide significant associations. We hypothesized that genetic variation in genes expressed specifically in the endothelium may be important for hypertension development. Results from the WTCCC study were combined with previously published gene expression data from mice to specifically investigate SNPs located within endothelial-specific genes, bypassing the requirement for genome-wide significance. Six SNPs from the WTCCC study were selected for independent replication in 5205 hypertensive patients and 5320 population-based controls, and successively in a cohort of 16537 individuals. A common variant (rs10860812) in the DRAM (damage-regulated autophagy modulator) locus showed association with hypertension (P = 0.008) in the replication study. The minor allele (A) had a protective effect (OR = 0.93; 95% CI 0.88–0.98 per A-allele), which replicates the association in the WTCCC GWA study. However, a second follow-up, in the larger cohort, failed to reveal an association with blood pressure. We further tested the endothelial-specific genes for co-localization with a panel of newly discovered SNPs from large meta-GWAS on hypertension or blood pressure. There was no significant overlap between those genes and hypertension or blood pressure loci. The result does not support the hypothesis that genetic variation in genes expressed in endothelium plays an important role for hypertension development. Moreover, the discordant association of rs10860812 with blood pressure in the case control study versus the larger Malmö Preventive Project–study highlights the importance of rigorous replication in multiple large independent studies.

Highlights

Hypertension is the major global risk factor for coronary heart disease and stroke
Based on the hypothesis that genetic variation in endothelium-specific genes may influence blood pressure (BP), we combined data from the Welcome Trust Case Control Consortium (WTCCC) genome-wide association (GWA) study with previously published microarray gene expression data from mice [12], to select a subset of six single nucleotide polymorphisms (SNPs), all located within endothelial marker genes, for independent replication in a case control study comprising more than 10,000 individuals
Since the endothelium has a functional role in BP regulation, we tested the hypothesis that genetic variation in genes expressed in the endothelium may influence hypertension development

Summary

Introduction

Hypertension is the major global risk factor for coronary heart disease and stroke. The pathogenesis is poorly understood and the primary cause is unknown in 90–95% of cases. While genome-wide association (GWA) studies have been effective at identifying novel genetic risk loci for a wide range of diseases, hypertension has proved more challenging. Based on the hypothesis that genetic variation in endothelium-specific genes may influence BP, we combined data from the WTCCC GWA study with previously published microarray gene expression data from mice [12], to select a subset of six SNPs, all located within endothelial marker genes, for independent replication in a case control study comprising more than 10,000 individuals.

Results

Conclusion