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Genome-wide association analysis identifies multiple loci related to resting heart rate.


ABSTRACT: Higher resting heart rate is associated with increased cardiovascular disease and mortality risk. Though heritable factors play a substantial role in population variation, little is known about specific genetic determinants. This knowledge can impact clinical care by identifying novel factors that influence pathologic heart rate states, modulate heart rate through cardiac structure and function or by improving our understanding of the physiology of heart rate regulation. To identify common genetic variants associated with heart rate, we performed a meta-analysis of 15 genome-wide association studies (GWAS), including 38,991 subjects of European ancestry, estimating the association between age-, sex- and body mass-adjusted RR interval (inverse heart rate) and approximately 2.5 million markers. Results with P < 5 × 10(-8) were considered genome-wide significant. We constructed regression models with multiple markers to assess whether results at less stringent thresholds were likely to be truly associated with RR interval. We identified six novel associations with resting heart rate at six loci: 6q22 near GJA1; 14q12 near MYH7; 12p12 near SOX5, c12orf67, BCAT1, LRMP and CASC1; 6q22 near SLC35F1, PLN and c6orf204; 7q22 near SLC12A9 and UfSp1; and 11q12 near FADS1. Associations at 6q22 400 kb away from GJA1, at 14q12 MYH6 and at 1q32 near CD34 identified in previously published GWAS were confirmed. In aggregate, these variants explain approximately 0.7% of RR interval variance. A multivariant regression model including 20 variants with P < 10(-5) increased the explained variance to 1.6%, suggesting that some loci falling short of genome-wide significance are likely truly associated. Future research is warranted to elucidate underlying mechanisms that may impact clinical care.

SUBMITTER: Eijgelsheim M 

PROVIDER: S-EPMC3657480 | biostudies-literature | 2010 Oct

REPOSITORIES: biostudies-literature

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Genome-wide association analysis identifies multiple loci related to resting heart rate.

Eijgelsheim Mark M   Newton-Cheh Christopher C   Sotoodehnia Nona N   de Bakker Paul I W PI   Müller Martina M   Morrison Alanna C AC   Smith Albert V AV   Isaacs Aaron A   Sanna Serena S   Dörr Marcus M   Navarro Pau P   Fuchsberger Christian C   Nolte Ilja M IM   de Geus Eco J C EJ   Estrada Karol K   Hwang Shih-Jen SJ   Bis Joshua C JC   Rückert Ina-Maria IM   Alonso Alvaro A   Launer Lenore J LJ   Hottenga Jouke Jan JJ   Rivadeneira Fernando F   Noseworthy Peter A PA   Rice Kenneth M KM   Perz Siegfried S   Arking Dan E DE   Spector Tim D TD   Kors Jan A JA   Aulchenko Yurii S YS   Tarasov Kirill V KV   Homuth Georg G   Wild Sarah H SH   Marroni Fabio F   Gieger Christian C   Licht Carmilla M CM   Prineas Ronald J RJ   Hofman Albert A   Rotter Jerome I JI   Hicks Andrew A AA   Ernst Florian F   Najjar Samer S SS   Wright Alan F AF   Peters Annette A   Fox Ervin R ER   Oostra Ben A BA   Kroemer Heyo K HK   Couper David D   Völzke Henry H   Campbell Harry H   Meitinger Thomas T   Uda Manuela M   Witteman Jacqueline C M JC   Psaty Bruce M BM   Wichmann H-Erich HE   Harris Tamara B TB   Kääb Stefan S   Siscovick David S DS   Jamshidi Yalda Y   Uitterlinden André G AG   Folsom Aaron R AR   Larson Martin G MG   Wilson James F JF   Penninx Brenda W BW   Snieder Harold H   Pramstaller Peter P PP   van Duijn Cornelia M CM   Lakatta Edward G EG   Felix Stephan B SB   Gudnason Vilmundur V   Pfeufer Arne A   Heckbert Susan R SR   Stricker Bruno H Ch BH   Boerwinkle Eric E   O'Donnell Christopher J CJ  

Human molecular genetics 20100716 19


Higher resting heart rate is associated with increased cardiovascular disease and mortality risk. Though heritable factors play a substantial role in population variation, little is known about specific genetic determinants. This knowledge can impact clinical care by identifying novel factors that influence pathologic heart rate states, modulate heart rate through cardiac structure and function or by improving our understanding of the physiology of heart rate regulation. To identify common genet  ...[more]

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