RT Journal Article
SR Electronic
T1 GWAS of 19,629 individuals identifies novel genetic variants for regional brain volumes and refines their genetic co-architecture with cognitive and mental health traits
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 586339
DO 10.1101/586339
A1 Bingxin Zhao
A1 Tianyou Luo
A1 Tengfei Li
A1 Yun Li
A1 Jingwen Zhang
A1 Yue Shan
A1 Xifeng Wang
A1 Liuqing Yang
A1 Fan Zhou
A1 Ziliang Zhu
A1 Hongtu Zhu
YR 2019
UL http://biorxiv.org/content/early/2019/03/25/586339.abstract
AB Volumetric variations of human brain are heritable and are associated with many brain-related complex traits. Here we performed genome-wide association studies (GWAS) and post-GWAS analyses of 101 brain volumetric phenotypes using the UK Biobank (UKB) sample including 19,629 participants. GWAS identified 287 independent SNPs exceeding genome-wide significance threshold of 4.9*10−10, adjusted for testing multiple phenotypes. Gene-based association study found 142 associated genes (113 new) and functional gene mapping analysis linked 122 more genes. Many of the discovered genetic variants have previously been implicated with cognitive and mental health traits (such as cognitive performance, education, mental disease/disorders), and significant genetic correlations were detected for 29 pairs of traits. The significant SNPs discovered in the UKB sample were supported by a joint analysis with other four independent studies (total sample size 2,192), and we performed a meta-analysis of five samples to provide GWAS summary statistics with sample size larger than 20,000. Using genome-wide polygenic risk scores prediction, up to 4.36% of phenotypic variance (p-value=2.97*10−22) in the four independent studies can be explained by the UKB GWAS results. In conclusion, our study identifies many new genetic variants at SNP, locus and gene levels and advances our understanding of the pleiotropy and genetic co-architecture between brain volumes and other traits.