Cross-ancestry genome-wide association meta-analyses of hippocampal and subfield volumes.
Nana LiuLong Jiang ZhangTian TianJingliang ChengBing ZhangShijun QiuZuojun GengGuangbin CuiQuan ZhangWeihua LiaoYongqiang YuHui ZhangBo GaoXiao-Jun XuTong HanZhenwei YaoWen QinFeng LiuMeng LiangQiang XuJilian FuJiayuan XuWenzhen ZhuPeng ZhangWei LiDapeng ShiCaihong WangSu LuiZhihan YanFeng ChenJiance LiJing ZhangDawei WangWen ShenYanwei MiaoJunfang XianJia-Hong GaoXiaochu ZhangMulin Jun LiKai XuXi-Nian ZuoMeiyun WangZhaoxiang YeChunshui Yunull nullPublished in: Nature genetics (2023)
The hippocampus is critical for memory and cognition and neuropsychiatric disorders, and its subfields differ in architecture and function. Genome-wide association studies on hippocampal and subfield volumes are mainly conducted in European populations; however, other ancestral populations are under-represented. Here we conduct cross-ancestry genome-wide association meta-analyses in 65,791 individuals for hippocampal volume and 38,977 for subfield volumes, including 7,009 individuals of East Asian ancestry. We identify 339 variant-trait associations at P < 1.13 × 10 -9 for 44 hippocampal traits, including 23 new associations. Common genetic variants have similar effects on hippocampal traits across ancestries, although ancestry-specific associations exist. Cross-ancestry analysis improves the fine-mapping precision and the prediction performance of polygenic scores in under-represented populations. These genetic variants are enriched for Wnt signaling and neuron differentiation and affect cognition, emotion and neuropsychiatric disorders. These findings may provide insight into the genetic architectures of hippocampal and subfield volumes.
Keyphrases
- genome wide association
- meta analyses
- cerebral ischemia
- systematic review
- temporal lobe epilepsy
- genome wide
- genome wide association study
- randomized controlled trial
- depressive symptoms
- brain injury
- autism spectrum disorder
- multiple sclerosis
- air pollution
- genetic diversity
- high resolution
- gene expression
- subarachnoid hemorrhage
- mild cognitive impairment
- mass spectrometry
- cognitive impairment
- working memory
- copy number