- Yu, Bing;
- Pulit, Sara L;
- Hwang, Shih-Jen;
- Brody, Jennifer A;
- Amin, Najaf;
- Auer, Paul L;
- Bis, Joshua C;
- Boerwinkle, Eric;
- Burke, Gregory L;
- Chakravarti, Aravinda;
- Correa, Adolfo;
- Dreisbach, Albert W;
- Franco, Oscar H;
- Ehret, Georg B;
- Franceschini, Nora;
- Hofman, Albert;
- Lin, Dan-Yu;
- Metcalf, Ginger A;
- Musani, Solomon K;
- Muzny, Donna;
- Palmas, Walter;
- Raffel, Leslie;
- Reiner, Alex;
- Rice, Ken;
- Rotter, Jerome I;
- Veeraraghavan, Narayanan;
- Fox, Ervin;
- Guo, Xiuqing;
- North, Kari E;
- Gibbs, Richard A;
- van Duijn, Cornelia M;
- Psaty, Bruce M;
- Levy, Daniel;
- Newton-Cheh, Christopher;
- Morrison, Alanna C
Background
Rare genetic variants influence blood pressure (BP).Methods and results
Whole-exome sequencing was performed on DNA samples from 17 956 individuals of European ancestry and African ancestry (14 497, first-stage discovery and 3459, second-stage discovery) to examine the effect of rare variants on hypertension and 4 BP traits: systolic BP, diastolic BP, pulse pressure, and mean arterial pressure. Tests of ≈170 000 common variants (minor allele frequency, ≥1%; statistical significance, P≤2.9×10(-7)) and gene-based tests of rare variants (minor allele frequency, <1%; ≈17 000 genes; statistical significance, P≤1.5×10(-6)) were evaluated for each trait and ancestry, followed by multiethnic meta-analyses. In the first-stage discovery, rare coding variants (splicing, stop-gain, stop-loss, nonsynonymous variants, or indels) in CLCN6 were associated with lower diastolic BP (cumulative minor allele frequency, 1.3%; β=-3.20; P=4.1×10(-6)) and were independent of a nearby common variant (rs17367504) previously associated with BP. CLCN6 rare variants were also associated with lower systolic BP (β=-4.11; P=2.8×10(-4)), mean arterial pressure (β=-3.50; P=8.9×10(-6)), and reduced hypertension risk (odds ratio, 0.72; P=0.017). Meta-analysis of the 2-stage discovery samples showed that CLCN6 was associated with lower diastolic BP at exome-wide significance (cumulative minor allele frequency, 1.1%; β=-3.30; P=5.0×10(-7)).Conclusions
These findings implicate the effect of rare coding variants in CLCN6 in BP variation and offer new insights into BP regulation.