The clinical and genetic features of COPD-asthma overlap syndrome

Individuals with chronic obstructive pulmonary disease (COPD) and asthma are an important but poorly characterised group. The genetic determinants of COPD and asthma overlap have not been studied. The aim of this study was to identify clinical features and genetic risk factors for COPD and asthma overlap. Subjects were current or former smoking non-Hispanic whites or African–Americans with COPD. Overlap subjects reported a history of physician-diagnosed asthma before the age of 40 years. We compared clinical and radiographic features between COPD and overlap subjects. We performed genome-wide association studies (GWAS) in the non-Hispanic whites and African–American populations, and combined these results in a meta-analysis. More females and African–Americans reported a history of asthma. Overlap subjects had more severe and more frequent respiratory exacerbations, less emphysema and greater airway wall thickness compared to subjects with COPD alone. The non-Hispanic white GWAS identified single nucleotide polymorphisms in the genes CSMD1 (rs11779254, p=1.57×10−6) and SOX5 (rs59569785, p=1.61×10−6) and the meta-analysis identified single nucleotide polymorphisms in the gene GPR65 (rs6574978, p=1.18×10−7) associated with COPD and asthma overlap. Overlap subjects have more exacerbations, less emphysema and more airway disease for any degree of lung function impairment compared to COPD alone. We identified novel genetic variants associated with this syndrome. COPD and asthma overlap is an important syndrome and may require distinct clinical management. We identified distinct clinical features and possible genetic risk factors for subjects with both COPD and asthma http://ow.ly/uWWBc

[1]  Cornelia Woll The United States and the United Kingdom , 2014 .

[2]  R. de Marco,et al.  The Coexistence of Asthma and Chronic Obstructive Pulmonary Disease (COPD): Prevalence and Risk Factors in Young, Middle-aged and Elderly People from the General Population , 2013, PloS one.

[3]  E. Antón,et al.  Prevalence and characteristics of three clinical phenotypes of chronic obstructive pulmonary disease (COPD). , 2013, Respiratory medicine.

[4]  J. Soriano,et al.  A new approach to grading and treating COPD based on clinical phenotypes: summary of the Spanish COPD guidelines (GesEPOC) , 2013, Primary care respiratory journal : journal of the General Practice Airways Group.

[5]  Milan Sonka,et al.  3D Slicer as an image computing platform for the Quantitative Imaging Network. , 2012, Magnetic resonance imaging.

[6]  J. Marchini,et al.  Fast and accurate genotype imputation in genome-wide association studies through pre-phasing , 2012, Nature Genetics.

[7]  J. Celedón,et al.  Genes and chronic obstructive pulmonary disease. , 2012, The Medical clinics of North America.

[8]  Edwin K Silverman,et al.  Identification of a chronic obstructive pulmonary disease genetic determinant that regulates HHIP. , 2012, Human molecular genetics.

[9]  A. Nagai [Guidelines for the diagnosis and management of chronic obstructive pulmonary disease: 3rd edition]. , 2011, Nihon rinsho. Japanese journal of clinical medicine.

[10]  Joyce D. Schroeder,et al.  The clinical features of the overlap between COPD and asthma , 2011, Respiratory research.

[11]  Raúl San José Estépar,et al.  Gender Differences of Airway Dimensions in Anatomically Matched Sites on CT in Smokers , 2011, COPD.

[12]  Ryan D. Hernandez,et al.  Meta-analysis of Genome-wide Association Studies of Asthma In Ethnically Diverse North American Populations , 2011, Nature Genetics.

[13]  D. Postma,et al.  Asthma and chronic obstructive pulmonary disease: common genes, common environments? , 2011, American journal of respiratory and critical care medicine.

[14]  Edwin K Silverman,et al.  SOX5 is a candidate gene for chronic obstructive pulmonary disease susceptibility and is necessary for lung development. , 2011, American journal of respiratory and critical care medicine.

[15]  Edwin K Silverman,et al.  Genome-wide association study identifies BICD1 as a susceptibility gene for emphysema. , 2011, American journal of respiratory and critical care medicine.

[16]  M. Tamari,et al.  Genome-wide association studies of asthma. , 2011, Allergology international : official journal of the Japanese Society of Allergology.

[17]  E. Regan,et al.  Genetic Epidemiology of COPD (COPDGene) Study Design , 2011, COPD.

[18]  G. Abecasis,et al.  MaCH: using sequence and genotype data to estimate haplotypes and unobserved genotypes , 2010, Genetic epidemiology.

[19]  Florence Demenais,et al.  A large-scale, consortium-based genomewide association study of asthma. , 2010, The New England journal of medicine.

[20]  J. Wedzicha,et al.  Susceptibility to exacerbation in chronic obstructive pulmonary disease. , 2010, The New England journal of medicine.

[21]  Yun Li,et al.  METAL: fast and efficient meta-analysis of genomewide association scans , 2010, Bioinform..

[22]  L. Fabbri,et al.  Fixed airflow obstruction due to asthma or chronic obstructive pulmonary disease: 5-year follow-up. , 2010, The Journal of allergy and clinical immunology.

[23]  D. Postma,et al.  Airway epithelial changes in smokers but not in ex-smokers with asthma. , 2009, American journal of respiratory and critical care medicine.

[24]  O. Witte,et al.  Eosinophil viability is increased by acidic pH in a cAMP- and GPR65-dependent manner. , 2009, Blood.

[25]  T. Ishizuka,et al.  Involvement of Proton-Sensing TDAG8 in Extracellular Acidification-Induced Inhibition of Proinflammatory Cytokine Production in Peritoneal Macrophages1 , 2009, The Journal of Immunology.

[26]  E. Hoffman,et al.  A multivariate analysis of risk factors for the air-trapping asthmatic phenotype as measured by quantitative CT analysis. , 2009, Chest.

[27]  Andrew D. Johnson,et al.  SNAP: a web-based tool for identification and annotation of proxy SNPs using HapMap , 2008, Bioinform..

[28]  Manuel A. R. Ferreira,et al.  PLINK: a tool set for whole-genome association and population-based linkage analyses. , 2007, American journal of human genetics.

[29]  Sean Keenan,et al.  Canadian Thoracic Society recommendations for management of chronic obstructive pulmonary disease - 2007 update. , 2007, Canadian respiratory journal.

[30]  D. Reich,et al.  Principal components analysis corrects for stratification in genome-wide association studies , 2006, Nature Genetics.

[31]  E. Hoffman,et al.  Advanced emphysema in African-American and white patients: do differences exist? , 2006, Chest.

[32]  W. Bailey,et al.  Racial and gender differences in susceptibility to tobacco smoke among patients with chronic obstructive pulmonary disease. , 2004, Respiratory medicine.

[33]  J. Hankinson,et al.  Standardisation of spirometry , 2005, European Respiratory Journal.

[34]  Yasutaka Nakano,et al.  The prediction of small airway dimensions using computed tomography. , 2005, American journal of respiratory and critical care medicine.

[35]  Dirkje S Postma,et al.  Rationale for the Dutch hypothesis. Allergy and airway hyperresponsiveness as genetic factors and their interaction with environment in the development of asthma and COPD. , 2004, Chest.

[36]  Deborah A Meyers,et al.  Genetics of asthma and COPD. Similar results for different phenotypes. , 2004, Chest.

[37]  Joan B Soriano,et al.  The proportional Venn diagram of obstructive lung disease: two approximations from the United States and the United Kingdom. , 2003, Chest.

[38]  L. Corbetta,et al.  Differences in airway inflammation in patients with fixed airflow obstruction due to asthma or chronic obstructive pulmonary disease. , 2003, American journal of respiratory and critical care medicine.

[39]  D. Postma,et al.  Chronic obstructive pulmonary disease. , 2002, Clinical evidence.

[40]  D. Tashkin,et al.  Gender bias in the diagnosis of COPD. , 2001, Chest.