Genetic meta-analysis of twin birth weight shows high genetic correlation with singleton birth weight
Title | Genetic meta-analysis of twin birth weight shows high genetic correlation with singleton birth weight |
Publication Type | Journal Article |
Year of Publication | 2021 |
Authors | Beck, JJ, Pool, R, van de Weijer, M, Chen, X, Krapohl, E, Gordon, SD, Nygaard, M, Debrabant, B, Palviainen, T, van der Zee, MD, Baselmans, B, Finnicum, CT, Yi, L, Lundström, S, van Beijsterveldt, T, Christiansen, L, Heikkilä, K, Kittelsrud, J, Loukola, A, Ollikainen, M, Christensen, K, Martin, NG, Plomin, R, Nivard, M, Bartels, M, Dolan, C, Willemsen, G, de Geus, E, Almqvist, C, Magnusson, PKE, Mbarek, H, Ehli, EA, Boomsma, DI, Hottenga, J-J |
Journal | Human Molecular Genetics |
Volume | 30 |
Pagination | 1894–1905 |
Abstract | Birth weight (BW) is an important predictor of newborn survival and health and has associations with many adult health outcomes, including cardiometabolic disorders, autoimmune diseases and mental health. On average, twins have a lower BW than singletons as a result of a different pattern of fetal growth and shorter gestational duration. Therefore, investigations into the genetics of BW often exclude data from twins, leading to a reduction in sample size and remaining ambiguities concerning the genetic contribution to BW in twins. In this study, we carried out a genome-wide association meta-analysis of BW in 42 212 twin individuals and found a positive correlation of beta values (Pearson's r = 0.66, 95% confidence interval [CI]: 0.47-0.77) with 150 previously reported genome-wide significant variants for singleton BW. We identified strong positive genetic correlations between BW in twins and numerous anthropometric traits, most notably with BW in singletons (genetic correlation [rg] = 0.92, 95% CI: 0.66-1.18). Genetic correlations of BW in twins with a series of health-related traits closely resembled those previously observed for BW in singletons. Polygenic scores constructed from a genome-wide association study on BW in the UK Biobank demonstrated strong predictive power in a target sample of Dutch twins and singletons. Together, our results indicate that a similar genetic architecture underlies BW in twins and singletons and that future genome-wide studies might benefit from including data from large twin registers. |
DOI | 10.1093/hmg/ddab121 |