Trans-ethnic genome-wide association study of severe COVID-19.

Peng WuLin DingXiaodong LiSiyang LiuFanjun ChengQing HeMingzhong XiaoPing WuHongyan HouMinghui JiangPinpin LongHao WangLinlin LiuMinghan QuXian ShiQin JiangTingting MoWencheng DingYu FuShi HanXixiang HuoYingchun ZengYana ZhouQing ZhangJia KeXi XuWei NiZuoyu ShaoJingzhi WangPanhong LiuZilong LiYan JinFang ZhengFang WangLei LiuWending LiKang LiuRong PengXuedan XuYuhui LinHui GaoLimei ShiZiyue GengXuanwen MuYu YanKai WangDegang WuXingjie HaoShanshan ChengGaokun QiuHuan GuoKezhen LiGang ChenZiyong SunXihong LinXin JinFeng WangChaoyang Sun Chaolong Wang

Published in: Communications biology (2021)

COVID-19 has caused numerous infections with diverse clinical symptoms. To identify human genetic variants contributing to the clinical development of COVID-19, we genotyped 1457 (598/859 with severe/mild symptoms) and sequenced 1141 (severe/mild: 474/667) patients of Chinese ancestry. We further incorporated 1401 genotyped and 948 sequenced ancestry-matched population controls, and tested genome-wide association on 1072 severe cases versus 3875 mild or population controls, followed by trans-ethnic meta-analysis with summary statistics of 3199 hospitalized cases and 897,488 population controls from the COVID-19 Host Genetics Initiative. We identified three significant signals outside the well-established 3p21.31 locus: an intronic variant in FOXP4-AS1 (rs1853837, odds ratio OR = 1.28, P = 2.51 × 10-10, allele frequencies in Chinese/European AF = 0.345/0.105), a frameshift insertion in ABO (rs8176719, OR = 1.19, P = 8.98 × 10-9, AF = 0.422/0.395) and a Chinese-specific intronic variant in MEF2B (rs74490654, OR = 8.73, P = 1.22 × 10-8, AF = 0.004/0). These findings highlight an important role of the adaptive immunity and the ABO blood-group system in protection from developing severe COVID-19.

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