Genome-wide association study identifies 48 common genetic variants associated with handedness
Partida GC., Tung J., Eriksson N., Albrecht E., Aliev F., Andreassen O., Barroso I., Beckmann J., Boks M., Boomsma D., Boyd H., Breteler MMB., Campbell H., Chasman D., Cherkas L., Davies G., de Geus EJC., Deary I., Deloukas P., Dick D., Duffy D., Eriksson J., Esko T., Feenstra B., Geller F., Gieger C., Giegling I., Gordon S., Han J., Hansen T., Hartmann A., Hayward C., Heikkilä K., Hicks A., Hirschhorn J., Hottenga J-J., Huffman J., Hwang L-D., Ikram M., Kaprio J., Kemp J., Khaw K-T., Klopp N., Konte B., Kutalik Z., Lahti J., Li X., Loos RJF., Luciano M., Magnusson S., Mangino M., Marques-Vidal P., Martin N., McArdle W., McCarthy M., Medina-Gomez C., Melbye M., Melville S., Metspalu A., Milani L., Mooser V., Nelis M., Nyholt D., O’Connell K., Ophoff R., Palmer C., Palotie A., Palviainen T., Pare G., Paternoster L., Peltonen L., Penninx BWJH., Polasek O., Pramstaller P., Prokopenko I., Raikkonen K., Ripatti S., Rivadeneira F., Rudan I., Rujescu D., Smit J., Smith GD., Smoller J., Soranzo N., Spector T., St Pourcain B., Starr J., Stefánsson H., Steinberg S., Teder-Laving M., Thorleifsson G., Stefansson K., Timpson N., Uitterlinden A., van Duijn C., van Rooij FJA., Vink J., Vollenweider P., Vuoksimaa E., Waeber G., Wareham N., Warrington N., Waterworth D., Werge T., Wichmann H-E., Widen E., Willemsen G., Wright A., Wright M., Xu M., Zhao JH., Kraft P., Hinds D., Lindgren C., Magi R., Neale B., Evans D., Medland S.
Handedness, a consistent asymmetry in skill or use of the hands, has been studied extensively because of its relationship with language and the over-representation of left-handers in some neurodevelopmental disorders. Using data from the UK Biobank, 23andMe and 32 studies from the International Handedness Consortium, we conducted the world’s largest genome-wide association study of handedness (1,534,836 right-handed, 194,198 (11.0%) left-handed and 37,637 (2.1%) ambidextrous individuals). We found 41 genetic loci associated with left-handedness and seven associated with ambidexterity at genome-wide levels of significance (P < 5×10 −8 ). Tissue enrichment analysis implicated the central nervous system and brain tissues including the hippocampus and cerebrum in the etiology of left-handedness. Pathways including regulation of microtubules, neurogenesis, axonogenesis and hippocampus morphology were also highlighted. We found suggestive positive genetic correlations between being left-handed and some neuropsychiatric traits including schizophrenia and bipolar disorder. SNP heritability analyses indicated that additive genetic effects of genotyped variants explained 5.9% (95% CI = 5.8% – 6.0%) of the underlying liability of being left-handed, while the narrow sense heritability was estimated at 12% (95% CI = 7.2% – 17.7%). Further, we show that genetic correlation between left-handedness and ambidexterity is low (r g = 0.26; 95% CI = 0.08 – 0.43) implying that these traits are largely influenced by different genetic mechanisms. In conclusion, our findings suggest that handedness, like many other complex traits is highly polygenic, and that the genetic variants that predispose to left-handedness may underlie part of the association with some psychiatric disorders that has been observed in multiple observational studies.