Genome-wide study identifies two loci associated with lung function decline in mild to moderate COPD.

Publication Type Academic Article
Authors Hansel N, Ruczinski I, Rafaels N, Sin D, Daley D, Malinina A, Huang L, Sandford A, Murray T, Kim Y, Vergara C, Heckbert S, Psaty B, Li G, Elliott W, Aminuddin F, Dupuis J, O'Connor G, Doheny K, Scott A, Boezen H, Postma D, Smolonska J, Zanen P, Mohamed Hoesein F, de Koning H, Crystal R, Tanaka T, Ferrucci L, Silverman E, Wan E, Vestbo J, Lomas D, Connett J, Wise R, Neptune E, Mathias R, Paré P, Beaty T, Barnes K
Journal Hum Genet
Volume 132
Issue 1
Pagination 79-90
Date Published 09/18/2012
ISSN 1432-1203
Keywords Ankyrins, Hepatocyte Nuclear Factor 3-alpha, Lung, Membrane Proteins, Polymorphism, Single Nucleotide, Pulmonary Disease, Chronic Obstructive
Abstract Accelerated lung function decline is a key COPD phenotype; however, its genetic control remains largely unknown. We performed a genome-wide association study using the Illumina Human660W-Quad v.1_A BeadChip. Generalized estimation equations were used to assess genetic contributions to lung function decline over a 5-year period in 4,048 European American Lung Health Study participants with largely mild COPD. Genotype imputation was performed using reference HapMap II data. To validate regions meeting genome-wide significance, replication of top SNPs was attempted in independent cohorts. Three genes (TMEM26, ANK3 and FOXA1) within the regions of interest were selected for tissue expression studies using immunohistochemistry. Two intergenic SNPs (rs10761570, rs7911302) on chromosome 10 and one SNP on chromosome 14 (rs177852) met genome-wide significance after Bonferroni. Further support for the chromosome 10 region was obtained by imputation, the most significantly associated imputed SNPs (rs10761571, rs7896712) being flanked by observed markers rs10761570 and rs7911302. Results were not replicated in four general population cohorts or a smaller cohort of subjects with moderate to severe COPD; however, we show novel expression of genes near regions of significantly associated SNPS, including TMEM26 and FOXA1 in airway epithelium and lung parenchyma, and ANK3 in alveolar macrophages. Levels of expression were associated with lung function and COPD status. We identified two novel regions associated with lung function decline in mild COPD. Genes within these regions were expressed in relevant lung cells and their expression related to airflow limitation suggesting they may represent novel candidate genes for COPD susceptibility.
DOI 10.1007/s00439-012-1219-6
PubMed ID 22986903
PubMed Central ID PMC3536920
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