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Meta-Analysis
. 2022 Apr;54(4):374-381.
doi: 10.1038/s41588-022-01042-x. Epub 2022 Apr 11.

Expanded COVID-19 phenotype definitions reveal distinct patterns of genetic association and protective effects

Genevieve H L Roberts #  1 Raghavendran Partha #  2 Brooke Rhead #  2 Spencer C Knight  2 Danny S Park  2 Marie V Coignet  2 Miao Zhang  2 Nathan Berkowitz  2 David A Turrisini  2 Michael Gaddis  2 Shannon R McCurdy  2 Milos Pavlovic  1 Luong Ruiz  2 Chodon Sass  1 AncestryDNA Science TeamAsher K Haug Baltzell  1 Harendra Guturu  2 Ahna R Girshick  2 Catherine A Ball  2 Eurie L Hong  2 Kristin A Rand  3
Affiliations
Meta-Analysis

Expanded COVID-19 phenotype definitions reveal distinct patterns of genetic association and protective effects

Genevieve H L Roberts et al. Nat Genet. 2022 Apr.

Abstract

Multiple COVID-19 genome-wide association studies (GWASs) have identified reproducible genetic associations indicating that there is a genetic component to susceptibility and severity risk. To complement these studies, we collected deep coronavirus disease 2019 (COVID-19) phenotype data from a survey of 736,723 AncestryDNA research participants. With these data, we defined eight phenotypes related to COVID-19 outcomes: four phenotypes that align with previously studied COVID-19 definitions and four 'expanded' phenotypes that focus on susceptibility given exposure, mild clinical manifestations and an aggregate score of symptom severity. We performed a replication analysis of 12 previously reported COVID-19 genetic associations with all eight phenotypes in a trans-ancestry meta-analysis of AncestryDNA research participants. In this analysis, we show distinct patterns of association at the 12 loci with the eight outcomes that we assessed. We also performed a genome-wide discovery analysis of all eight phenotypes, which did not yield new genome-wide significant loci but did suggest that three of the four 'expanded' COVID-19 phenotypes have enhanced power to capture protective genetic associations relative to the previously studied phenotypes. Thus, we conclude that continued large-scale ascertainment of deep COVID-19 phenotype data would likely represent a boon for COVID-19 therapeutic target identification.

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