Multi-ancestry genome-wide association study and meta-analysis of lung function decline
Bonnie K. Patchen, Jingwen Zhang, Nathan Gaddis, Traci M. Bartz, Jing Chen, Catherine Debban, Hampton Leonard, Ngoc Quynh H. Nguyen, Jungkyun Seo, Courtney Tern, Richard Allen, Dawn L. DeMeo, Myriam Fornage, Carl Melbourne, Melyssa Minto, Matthew Moll, George T. O’Connor

TL;DR
This study identifies genetic variants linked to lung function decline across multiple ancestries and suggests potential drug targets for slowing this decline.
Contribution
The study presents a multi-ancestry GWAS of lung function decline and identifies novel genetic loci and drug repurposing opportunities.
Findings
361 genome-wide significant variants were identified for lung function decline traits.
Four variants showed nominal association with decline in COPD-enriched cohorts.
38 genes and 43 approved compounds were implicated as potential drug targets.
Abstract
Despite evidence for a genetic component, few genetic associations with lung function decline have been identified. We aimed to evaluate genome-wide associations and putative downstream functionality of genetic variants for lung function decline. We conducted genome-wide association study (GWAS) analyses of decline in FEV1, FVC, and FEV1/FVC in 52,056 White (N = 44,988), Black (N = 5,788), Hispanic (N = 550), and Chinese American (N = 730) participants across seven general population cohorts. GWAS analyses were stratified by cohort, ancestry, and sex. Results were combined in cross-ancestry and ancestry-specific meta-analyses. Significant variants available in two independent COPD-enriched cohorts were tested for replication. We identified 361 distinct genome-wide significant (p < 5E-08) variants for one or more of the FEV1, FVC, and FEV1/FVC decline phenotypes, which overlapped with…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsGenetic Associations and Epidemiology · Chronic Obstructive Pulmonary Disease (COPD) Research · Genetics and Physical Performance
