Genetic determinants of daytime napping and effects on cardiometabolic health

Hassan S. Dashti; Iyas Daghlas; Jacqueline M. Lane; Yunru Huang; Miriam S. Udler; Heming Wang; Hanna M. Ollila; Samuel E. Jones; Jaegil Kim; Andrew R. Wood; Michelle Agee; Adam Auton; Robert K. Bell; Katarzyna Bryc; Sarah Clark; Sarah L. Elson; Kipper Fletez‐Brant; Pierre Fontanillas; Nicholas A. Furlotte; Pooja Gandhi; Karl Heilbron; Barry Hicks; David A. Hinds; Karen E. Huber; Ethan M. Jewett; Yunxuan Jiang; Aaron Kleinman; Keng‐Han Lin; Nadia K. Litterman; Marie K. Luff; Jennifer C. McCreight; Matthew H. McIntyre; Kimberly F. McManus; Joanna L. Mountain; Sahar V. Mozaffari; Priyanka Nandakumar; Elizabeth S. Noblin; Carrie A. M. Northover; Jared O’Connell; Aaron A. Petrakovitz; Steven J. Pitts; G. David Poznik; J. Fah Sathirapongsasuti; Anjali J. Shastri; Janie F. Shelton; Suyash Shringarpure; Chao Tian; Joyce Y. Tung; Robert J. Tunney; Vladimir Vacic; Xin Wang; Amir S. Zare; Michael N. Weedon; Stella Aslibekyan; Marta Garaulet; Richa Saxena

doi:10.1038/s41467-020-20585-3

Genetic determinants of daytime napping and effects on cardiometabolic health

Hassan S. Dashti(Broad Institute), Iyas Daghlas(Broad Institute), Jacqueline M. Lane(Broad Institute), Yunru Huang(23andMe (United States)), Miriam S. Udler(Broad Institute), Heming Wang(Broad Institute), Hanna M. Ollila(Broad Institute), Samuel E. Jones(University of Helsinki), Jaegil Kim(GlaxoSmithKline (United States)), Andrew R. Wood(University of Exeter), Michelle Agee(23andMe (United States)), Adam Auton(23andMe (United States)), Robert K. Bell(23andMe (United States)), Katarzyna Bryc(23andMe (United States)), Sarah Clark(23andMe (United States)), Sarah L. Elson(23andMe (United States)), Kipper Fletez‐Brant(23andMe (United States)), Pierre Fontanillas(23andMe (United States)), Nicholas A. Furlotte(23andMe (United States)), Pooja Gandhi(23andMe (United States)), Karl Heilbron(23andMe (United States)), Barry Hicks(23andMe (United States)), David A. Hinds(23andMe (United States)), Karen E. Huber(23andMe (United States)), Ethan M. Jewett(23andMe (United States)), Yunxuan Jiang(23andMe (United States)), Aaron Kleinman(23andMe (United States)), Keng‐Han Lin(23andMe (United States)), Nadia K. Litterman(23andMe (United States)), Marie K. Luff(23andMe (United States)), Jennifer C. McCreight(23andMe (United States)), Matthew H. McIntyre(23andMe (United States)), Kimberly F. McManus(23andMe (United States)), Joanna L. Mountain(23andMe (United States)), Sahar V. Mozaffari(23andMe (United States)), Priyanka Nandakumar(23andMe (United States)), Elizabeth S. Noblin(23andMe (United States)), Carrie A. M. Northover(23andMe (United States)), Jared O’Connell(23andMe (United States)), Aaron A. Petrakovitz(23andMe (United States)), Steven J. Pitts(23andMe (United States)), G. David Poznik(23andMe (United States)), J. Fah Sathirapongsasuti(23andMe (United States)), Anjali J. Shastri(23andMe (United States)), Janie F. Shelton(23andMe (United States)), Suyash Shringarpure(23andMe (United States)), Chao Tian(23andMe (United States)), Joyce Y. Tung(23andMe (United States)), Robert J. Tunney(23andMe (United States)), Vladimir Vacic(23andMe (United States)), Xin Wang(23andMe (United States)), Amir S. Zare(23andMe (United States)), Michael N. Weedon(University of Exeter), Stella Aslibekyan(23andMe (United States)), Marta Garaulet(Brigham and Women's Hospital), Richa Saxena(Broad Institute)

Nature Communications

February 10, 2021

10.1038/s41467-020-20585-3

Cited by 569Open Access

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Abstract

Daytime napping is a common, heritable behavior, but its genetic basis and causal relationship with cardiometabolic health remain unclear. Here, we perform a genome-wide association study of self-reported daytime napping in the UK Biobank (n = 452,633) and identify 123 loci of which 61 replicate in the 23andMe research cohort (n = 541,333). Findings include missense variants in established drug targets for sleep disorders (HCRTR1, HCRTR2), genes with roles in arousal (TRPC6, PNOC), and genes suggesting an obesity-hypersomnolence pathway (PNOC, PATJ). Association signals are concordant with accelerometer-measured daytime inactivity duration and 33 loci colocalize with loci for other sleep phenotypes. Cluster analysis identifies three distinct clusters of nap-promoting mechanisms with heterogeneous associations with cardiometabolic outcomes. Mendelian randomization shows potential causal links between more frequent daytime napping and higher blood pressure and waist circumference.

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