Genome-wide association analyses for lung function and chronic obstructive pulmonary disease identify new loci and potential druggable targets.
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- Authors
- Wain, Louise V; Shrine, Nick; Artigas, MarΓa Soler; Erzurumluoglu, A Mesut; Noyvert, Boris; Bossini-Castillo, Lara; Obeidat, Ma'en; Henry, Amanda P; Portelli, Michael A; Hall, Robert J; Billington, Charlotte K; Rimington, Tracy L; Fenech, Anthony G; John, Catherine; Blake, Tineka; Jackson, Victoria E; Allen, Richard J; Prins, Bram P; Understanding Society Scientific Group; Campbell, Archie; Porteous, David J; Jarvelin, Marjo-Riitta; Wielscher, Matthias; James, Alan L; Hui, Jennie; Wareham, Nicholas J; Zhao, Jing Hua; Wilson, James F; Joshi, Peter K; Stubbe, Beate; Rawal, Rajesh; Schulz, Holger; Imboden, Medea; Probst-Hensch, Nicole M; Karrasch, Stefan; Gieger, Christian; Deary, Ian J; Harris, Sarah E; Marten, Jonathan; Rudan, Igor; Enroth, Stefan; Gyllensten, Ulf; Kerr, Shona M; Polasek, Ozren; KΓ€hΓΆnen, Mika; Surakka, Ida; Vitart, Veronique; Hayward, Caroline; LehtimΓ€ki, Terho; Raitakari, Olli T; Evans, David M; Henderson, A John; Pennell, Craig E; Wang, Carol A; Sly, Peter D; Wan, Emily S; Busch, Robert; Hobbs, Brian D; Litonjua, Augusto A; Sparrow, David W; Gulsvik, Amund; Bakke, Per S; Crapo, James D; Beaty, Terri H; Hansel, Nadia N; Mathias, Rasika A; Ruczinski, Ingo; Barnes, Kathleen C; BossΓ©, Yohan; Joubert, Philippe; van den Berge, Maarten; Brandsma, Corry-Anke; ParΓ©, Peter D; Sin, Don D; Nickle, David C; Hao, Ke; Gottesman, Omri; Dewey, Frederick E; Bruse, Shannon E; Carey, David J; Kirchner, H Lester; Geisinger-Regeneron DiscovEHR Collaboration; Jonsson, Stefan; Thorleifsson, Gudmar; Jonsdottir, Ingileif; Gislason, Thorarinn; Stefansson, Kari; Schurmann, Claudia; Nadkarni, Girish; Bottinger, Erwin P; Loos, Ruth J F; Walters, Robin G; Chen, Zhengming; Millwood, Iona Y; Vaucher, Julien; Kurmi, Om P; Li, Liming; Hansell, Anna L; Brightling, Chris; Zeggini, Eleftheria; Cho, Michael H; Silverman, Edwin K; Sayers, Ian; Trynka, Gosia; Morris, Andrew P; Strachan, David P; Hall, Ian P; Tobin, Martin D
- Year
- 2017
- Journal
- Nature genetics
- PMID
- 28166213
- DOI
- 10.1038/ng.3787
- PMCID
- PMC5326681
Chronic obstructive pulmonary disease (COPD) is characterized by reduced lung function and is the third leading cause of death globally. Through genome-wide association discovery in 48,943 individuals, selected from extremes of the lung function distribution in UK Biobank, and follow-up in 95,375 individuals, we increased the yield of independent signals for lung function from 54 to 97. A genetic risk score was associated with COPD susceptibility (odds ratio per 1 s.d. of the risk score (βΌ6 alleles) (95% confidence interval) = 1.24 (1.20-1.27), P = 5.05 Γ 10), and we observed a 3.7-fold difference in COPD risk between individuals in the highest and lowest genetic risk score deciles in UK Biobank. The 97 signals show enrichment in genes for development, elastic fibers and epigenetic regulation pathways. We highlight targets for drugs and compounds in development for COPD and asthma (genes in the inositol phosphate metabolism pathway and CHRM3) and describe targets for potential drug repositioning from other clinical indications.
Manhattan plots of genome-wide association results for FEV1 (top), FEV1/FVC (middle) and FVC (bottom). Previously reported signals are highlighted in dark blue (except signals with P>5x10-4in this study); and novel signals are coloured in red. Signals are highlighted for the trait with which they showed strongest association only. The red and blue lines correspond to the genome-wide significance level (P=5x10-8, -log10P=7.3) and the threshold used to select signals for follow up in stage 2 (P=5x10-7, -log10P=6.3) respectively. Labels show the nearest gene to the novel sentinel variants. There were 2 independent novel signals near CDC7 and TGFBR3 on chromosome 1 (labelled as CDC7/TGFBR3). See Supplementary Table 3 for full results. Image was created using a modified version of the R package qqman.
Genetic Risk Score associations with COPD susceptibility (a) Forest plot of COPD results for the risk score analysis. Odds ratios per standard deviation of the risk score (~6 alleles) are presented for each study. Studies are grouped according to study design and phenotyping: βeMRβ, electronic medical records, which used ICD codes to define COPD (DiscovEHR also used spirometry to refine the COPD definition); βcase-controlβ, COPD case-control, which used post-bronchodilator spirometry to define COPD; βlung resection cohortβ, which used a combination of pre and post-bronchodilator spirometry to define COPD; the Icelandic Biobank, deCODE, where cases were selected from a population based study and a study of COPD patients and defined using a spirometric definition, controls were selected as individuals within the cohort that were not known cases (no spirometric definition was used for controls); and UK Biobank (excluding UK BiLEVE), which used spirometry to define both COPD cases and controls. Further details are provided in the Supplementary Note. (b) Odds ratios for spirometrically-defined COPD for weighted genetic risk score deciles in UK Biobank (10,547 cases, pre-bronchodilator % predicted FEV1<80% and FEV1/FVC<0.7, and 53,948 controls, FEV1/FVC>0.7 and % predicted FEV1>80%, weights derived from non-discovery populations). For each decile, odds ratios were obtained using a logistic regression adjusted for age, age2, sex, height, smoking status, pack-years and the first 10 ancestry principal components. The OR comparing the 10th and the 1st decile in ever-smokers only was 3.35 (95% CI 2.93 to 3.84) and in never-smokers only was 4.27 (95% CI 3.61 to 5.06).
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| Title | Year | PMID |
|---|---|---|
| Meta-analysis of up to 622,409 individuals identifies 40 novel smoking behaviour associated genetic loci. | 2020 | 30617275 |
External
| Title | Authors | Journal | Year | Link |
|---|---|---|---|---|
| Fueling the fire: metabolic dysfunction and senescence as drivers of lung aging and disease. | Kliment CR et al. | β | 2026 | β |
| Genome-wide analysis of gene and air pollution interactions on COPD in the CLSA cohort. | Odimba U et al. | β | 2026 | β |
| Multi-ancestry genome-wide association study and meta-analysis of lung function decline. | Patchen BK et al. | β | 2026 | β |
| Multi-omics biomarker detection in smoking induced COPD. | Syed RU et al. | β | 2026 | β |
| TP53/TAU axis regulates microtubule bundling to control alveolar stem cell-mediated regeneration. | Konishi S et al. | β | 2026 | β |
| Characterisation of a COPD-associated nephronectin (<i>NPNT</i>) functional splicing genetic variant in human lung tissue <i>via</i> long-read sequencing. | Saferali A et al. | β | 2025 | β |
| Epigenomic study of the lower airway reveals COPD-associated methylation patterns and potential microbiota links. | Cao S et al. | β | 2025 | β |
| Hub Genes PRPF19 and PPIB: Molecular Pathways and Potential Biomarkers in COPD. | Zhao J et al. | β | 2025 | β |
| Identification of clinically meaningful, overlapping obstructive respiratory disease subtypes via data-driven approaches in a primary care population. | Pikoula M et al. | β | 2025 | β |
| Integrating Network Pharmacology, Machine Learning, and Experimental Validation to Elucidate the Mechanism of Cardamonin in Treating Idiopathic Pulmonary Fibrosis. | Zhang W et al. | β | 2025 | β |
| Interactive Effects of Genetic Susceptibility and Early-Life Tobacco Smoke Exposure on the Asthma-Eczema Complex Phenotype in Children: 6-Year Follow-Up Case-Control Study. | DΔbiΕska A et al. | β | 2025 | β |
| Matrix metalloproteinases and disease severity among PI*MZ and PI*ZZ individuals in the Genomic Research in Alpha-1 Antitrypsin Deficiency and Sarcoidosis (GRADS) cohort. | Tejwani V et al. | β | 2025 | β |
| Polygenic Risk Score Is Associated with Developing and Dying from Lung Cancer in the National Lung Screening Trial. | Young RP et al. | β | 2025 | β |
| Prevalence of Respiratory Symptoms in Individuals With Down's Syndrome in Saudi Arabia: A Cross-Sectional Study. | Alqazlan S et al. | β | 2025 | β |
| Proteomic Risk Score of Increased Respiratory Susceptibility: A Multicohort Study. | Liu GY et al. | β | 2025 | β |
| Role of the TGF-Ξ² cytokine and its gene polymorphisms in asthma etiopathogenesis. | Plichta J et al. | β | 2025 | β |
| Sex, Gender, and COPD. | DeMeo DL | β | 2025 | β |
| The genetics of severe depression. | Franklin CE et al. | β | 2025 | β |
| Towards early detection and disease interception of COPD across the lifespan. | Faner R et al. | β | 2025 | β |
| Adam19 Deficiency Impacts Pulmonary Function: Human GWAS Follow-up in a Mouse Knockout Model. | Li H et al. | β | 2024 | β |
| Blood Biomarkers of Emphysema: What Can They Really Tell Us? | van den Berge M et al. | β | 2024 | β |
| Breathing new life into the study of COPD with genes identified from genome-wide association studies. | Werder RB et al. | β | 2024 | β |
| Exploring the genetics of airflow limitation in lung function across the lifespan - a polygenic risk score study. | Hernandez-Pacheco N et al. | β | 2024 | β |
| Genetics of chronic respiratory disease. | Sayers I et al. | β | 2024 | β |
| Genetic Variants of Adrenoceptors. | Ahles A et al. | β | 2024 | β |
| Genome-wide analysis in northern Chinese twins identifies twelve new susceptibility loci for pulmonary function. | Wang T et al. | β | 2024 | β |
| Genome-wide Association Study of Susceptibility to Respiratory Syncytial Virus Hospitalization in Young Children <5 Years of age. | Egeskov-Cavling AM et al. | β | 2024 | β |
| Human genetic associations of the airway microbiome in chronic obstructive pulmonary disease. | Gao J et al. | β | 2024 | β |
| Identification of factors directly linked to incident chronic obstructive pulmonary disease: A causal graph modeling study. | Gregg RW et al. | β | 2024 | β |
| Identifying key genes in COPD risk via multiple population data integration and gene prioritization. | Zainab A et al. | β | 2024 | β |
| Lipid metabolism-related genes are involved in the occurrence of asthma and regulate the immune microenvironment. | Jia Y et al. | β | 2024 | β |
| Sex Differences in the Relationship Between Self-Reporting of Snoring and Cardiovascular Risk:An Analysis of NHANES. | Wang J et al. | β | 2024 | β |
| The genetics and epidemiology of N- and O-immunoglobulin A glycomics. | Visconti A et al. | β | 2024 | β |
| Uncovering the action mechanism of Shenqi Tiaoshen formula in the treatment of chronic obstructive pulmonary disease through network pharmacology, molecular docking, and experimental verification. | Qinjun Y et al. | β | 2024 | β |
| A genome-wide association study identifies distinct variants associated with pulmonary function among European and African ancestries from the UK Biobank. | Sinkala M et al. | β | 2023 | β |
| Alpha-1-antitrypsin antagonizes COVID-19: a review of the epidemiology, molecular mechanisms, and clinical evidence. | Bai X et al. | β | 2023 | β |
| Causal associations of sleep apnea and snoring with type 2 diabetes and glycemic traits and the role of BMI. | Wang J et al. | β | 2023 | β |
| Causal associations of sleep apnea, snoring with cardiovascular diseases, and the role of body mass index: a two-sample Mendelian randomization study. | Wang J et al. | β | 2023 | β |
| Contribution of adaptive immunity to human COPD and experimental models of emphysema. | Kheradmand F et al. | β | 2023 | β |
| Exacerbations in Chronic Obstructive Pulmonary Disease: Clinical, Genetic, and Mycobiome Risk Factors. | Matsumoto K et al. | β | 2023 | β |
| Genetic insights into lung function inform better management of respiratory diseases. | Qin N et al. | β | 2023 | β |
| GenIDA, a participatory patient registry for genetic forms of intellectual disability provides detailed caregiver-reported information on 237 individuals with Koolen-de Vries syndrome. | Colin F et al. | β | 2023 | β |
| Genome-wide association studies: utility and limitations for research in physiology. | Pereira Ciochetti N et al. | β | 2023 | β |
| Genome-wide association study of chronic sputum production implicates loci involved in mucus production and infection. | Packer RJ et al. | β | 2023 | β |
| Genotyping and population characteristics of the China Kadoorie Biobank. | Walters RG et al. | β | 2023 | β |
| Integrating Genetics, Transcriptomics, and Proteomics in Lung Tissue to Investigate Chronic Obstructive Pulmonary Disease. | Zhang YH et al. | β | 2023 | β |
| Multi-ancestry genome-wide association analyses improve resolution of genes and pathways influencing lung function and chronic obstructive pulmonary disease risk. | Shrine N et al. | β | 2023 | β |
| Multi-omic association study identifies DNA methylation-mediated genotype and smoking exposure effects on lung function in children living in urban settings. | Dapas M et al. | β | 2023 | β |
| Prediction and stratification of longitudinal risk for chronic obstructive pulmonary disease across smoking behaviors. | He Y et al. | β | 2023 | β |
| Role of Th17 cells, Treg cells, and Th17/Treg imbalance in immune homeostasis disorders in patients with chronic obstructive pulmonary disease. | Ma R et al. | β | 2023 | β |
| Systemic Markers of Lung Function and Forced Expiratory Volume in 1 Second Decline across Diverse Cohorts. | Ngo D et al. | β | 2023 | β |
| The COPD GWAS gene ADGRG6 instructs function and injury response in human iPSC-derived type II alveolar epithelial cells. | Werder RB et al. | β | 2023 | β |
| TNS1 and NRXN1 Genes Interacting With Early-Life Smoking Exposure in Asthma-Plus-Eczema Susceptibility. | Margaritte-Jeannin P et al. | β | 2023 | β |
| Airway Aging and Methylation Disruptions in HIV-associated Chronic Obstructive Pulmonary Disease. | HernΓ‘ndez Cordero AI et al. | β | 2022 | β |
| A polygenic risk score and age of diagnosis of COPD. | Zhang J et al. | β | 2022 | β |
| A small-molecule inhibitor and degrader of the RNF5 ubiquitin ligase. | Ruan J et al. | β | 2022 | β |
| Causal Relations between Exposome and Stroke: A Mendelian Randomization Study. | Li HQ et al. | β | 2022 | β |
| Chronic obstructive pulmonary disease. | Christenson SA et al. | β | 2022 | β |
| Chronic obstructive pulmonary disease and the modulation of CFTR by acute exposure to cigarette smoke. | Hanrahan JW et al. | β | 2022 | β |
| CNest: A novel copy number association discovery method uncovers 862 new associations from 200,629 whole-exome sequence datasets in the UK Biobank. | Fitzgerald T et al. | β | 2022 | β |
| Correlation between hs-CRP, IL-6, IL-10, ET-1, and Chronic Obstructive Pulmonary Disease Combined with Pulmonary Hypertension. | Yang D et al. | β | 2022 | β |
| CRISPR interference interrogation of COPD GWAS genes reveals the functional significance of desmoplakin in iPSC-derived alveolar epithelial cells. | Werder RB et al. | β | 2022 | β |
| Genetic pleiotropy between pulmonary function and age-related traits: The Long Life Family Study. | Feitosa MF et al. | β | 2022 | β |
| Genetics of chronic obstructive pulmonary disease: understanding the pathobiology and heterogeneity of a complex disorder. | Cho MH et al. | β | 2022 | β |
| Lung- and liver-dominant phenotypes of Korean eight constitution medicine have different profiles of genotype associated with each organ function. | Kim C et al. | β | 2022 | β |
| Mechanisms of Lung Damage and Development of COPD Due to Household Biomass-Smoke Exposure: Inflammation, Oxidative Stress, MicroRNAs, and Gene Polymorphisms. | Ortiz-Quintero B et al. | β | 2022 | β |
| Olfactory neuronal cells as a promising tool to realize the "druggable genome" approach for drug discovery in neuropsychiatric disorders. | Mihaljevic M et al. | β | 2022 | β |
| Patterns of Convergence and Divergence Between Bipolar Disorder Type I and Type II: Evidence From Integrative Genomic Analyses. | Huang Y et al. | β | 2022 | β |
| Polygenic transcriptome risk scores for COPD and lung function improve cross-ethnic portability of prediction in the NHLBI TOPMed program. | Hu X et al. | β | 2022 | β |
| The causal association between genetically regulated 25OHD and chronic obstructive pulmonary disease: A meta-analysis and Mendelian randomization study. | Yang M et al. | β | 2022 | β |
| Update on the Etiology, Assessment, and Management of COPD Cachexia: Considerations for the Clinician. | De Brandt J et al. | β | 2022 | β |
| A genome wide association study for lung function in the Korean population using an exome array. | Lee KS et al. | β | 2021 | β |
| A large-scale genome-wide association analysis of lung function in the Chinese population identifies novel loci and highlights shared genetic aetiology with obesity. | Zhu Z et al. | β | 2021 | β |
| Aryl hydrocarbon receptor deficiency causes the development of chronic obstructive pulmonary disease through the integration of multiple pathogenic mechanisms. | Guerrina N et al. | β | 2021 | β |
| A systematic analysis of protein-altering exonic variants in chronic obstructive pulmonary disease. | Moll M et al. | β | 2021 | β |
| Chromatin Landscapes of Human Lung Cells Predict Potentially Functional Chronic Obstructive Pulmonary Disease Genome-Wide Association Study Variants. | Benway CJ et al. | β | 2021 | β |
| Contemporary perspectives in COPD: Patient burden, the role of gender and trajectories of multimorbidity. | Buttery SC et al. | β | 2021 | β |
| Effect of terbutaline plus doxofylline on chronic obstructive pulmonary disease. | Luo Q et al. | β | 2021 | β |
| Effects of genetics and altitude on lung function. | Talaminos-Barroso A et al. | β | 2021 | β |
| Elastic Correlation Adjusted Regression (ECAR) scores for high dimensional variable importance measuring. | Zhou Y et al. | β | 2021 | β |
| Genetic correlation and causal relationships between cardio-metabolic traits and lung function impairment. | Wielscher M et al. | β | 2021 | β |
| Genetic loci for lung function in Japanese adults with adjustment for exhaled nitric oxide levels as airway inflammation indicator. | Yamada M et al. | β | 2021 | β |
| Genome-Wide Association Studies of Schizophrenia and Bipolar Disorder in a Diverse Cohort of US Veterans. | Bigdeli TB et al. | β | 2021 | β |
| Identification of hub genes and key pathways in the emphysema phenotype of COPD. | Zuo Q et al. | β | 2021 | β |
| Interaction of Cigarette Smoking and Polygenic Risk Score on Reduced Lung Function. | Kim W et al. | β | 2021 | β |
| Natural history and mechanisms of COPD. | Lange P et al. | β | 2021 | β |
| Rare and low-frequency exonic variants and gene-by-smoking interactions in pulmonary function. | Yang T et al. | β | 2021 | β |
| Resolving Clinical Phenotypes into Endotypes in Allergy: Molecular and Omics Approaches. | Mersha TB et al. | β | 2021 | β |
| Sex and Gender Omic Biomarkers in Men and Women With COPD: Considerations for Precision Medicine. | DeMeo DL | β | 2021 | β |
| Sex-specific longitudinal association of DNA methylation with lung function. | Sunny SK et al. | β | 2021 | β |
| Soluble receptor for advanced glycation end products (sRAGE) as a biomarker of COPD. | Pratte KA et al. | β | 2021 | β |
| The different phenotypes of COPD. | Yousuf A et al. | β | 2021 | β |
| Using common genetic variants to find drugs for common epilepsies. | Mirza N et al. | β | 2021 | β |
| A cross-omics integrative study of metabolic signatures of chronic obstructive pulmonary disease. | ProkiΔ I et al. | β | 2020 | β |
| A genome-wide by PM<sub>10</sub> interaction study identifies novel loci for lung function near BICD1 and IL1RN-IL1F10 genes in Korean adults. | Kim HJ et al. | β | 2020 | β |
| Amerindian Ancestry Influences Genetic Susceptibility to Chronic Obstructive Pulmonary Disease. | DΓaz-PeΓ±a R et al. | β | 2020 | β |
| Associations between high blood pressure and DNA methylation. | Kazmi N et al. | β | 2020 | β |
| Cardiac Imaging of Aortic Valve Area From 34 287 UK Biobank Participants Reveals Novel Genetic Associations and Shared Genetic Comorbidity With Multiple Disease Phenotypes. | CΓ³rdova-Palomera A et al. | β | 2020 | β |
| Chronic obstructive pulmonary disease and related phenotypes: polygenic risk scores in population-based and case-control cohorts. | Moll M et al. | β | 2020 | β |
| COVID-19 Susceptibility in chronic obstructive pulmonary disease. | Olloquequi J | β | 2020 | β |
| Cytokine-induced molecular responses in airway smooth muscle cells inform genome-wide association studies of asthma. | Thompson EE et al. | β | 2020 | β |
| Epithelial cell-specific loss of function of <i>Miz1</i> causes a spontaneous COPD-like phenotype and up-regulates <i>Ace2</i> expression in mice. | Do-Umehara HC et al. | β | 2020 | β |
| Expression and clinical significance of serum amyloid A and interleukin-6 in patients with acute exacerbation of chronic obstructive pulmonary disease. | Wei Y et al. | β | 2020 | β |
| Genetic contributions to two special factors of neuroticism are associated with affluence, higher intelligence, better health, and longer life. | Hill WD et al. | β | 2020 | β |
| Genetic Determinants of Lung Cancer Prognosis in Never Smokers: A Pooled Analysis in the International Lung Cancer Consortium. | Brhane Y et al. | β | 2020 | β |
| Genetics of COPD. | Silverman EK | β | 2020 | β |
| Genetic variants entail type 2 diabetes as an innate immune disorder. | Bandesh K et al. | β | 2020 | β |
| Genome-wide association identifies seven loci for pelvic organ prolapse in Iceland and the UK Biobank. | Olafsdottir T et al. | β | 2020 | β |
| Host, Gender, and Early-Life Factors as Risks for Chronic Obstructive Pulmonary Disease. | Han MK et al. | β | 2020 | β |
| Influence of Genetic Variation in <i>PDE3A</i> on Endothelial Function and Stroke. | Traylor M et al. | β | 2020 | β |
| Insights into the aetiology of snoring from observational and genetic investigations in the UK Biobank. | Campos AI et al. | β | 2020 | β |
| Lung functional development and asthma trajectories. | Decrue F et al. | β | 2020 | β |
| Lung Function in African American Children with Asthma Is Associated with Novel Regulatory Variants of the KIT Ligand <i>KITLG/SCF</i> and Gene-By-Air-Pollution Interaction. | Mak ACY et al. | β | 2020 | β |
| Macromolecular biomarkers of chronic obstructive pulmonary disease in exhaled breath condensate. | Kazeminasab S et al. | β | 2020 | β |
| Maternal-Fetal Inflammation in the Placenta and the Developmental Origins of Health and Disease. | Goldstein JA et al. | β | 2020 | β |
| Meta-analysis of up to 622,409 individuals identifies 40 novel smoking behaviour associated genetic loci. | Erzurumluoglu AM et al. | β | 2020 | β |
| Obstructive lung diseases and risk of rheumatoid arthritis. | Friedlander HM et al. | β | 2020 | β |
| Pharmacogenetics of Pediatric Asthma: Current Perspectives. | Perez-Garcia J et al. | β | 2020 | β |
| Recent advances in chronic obstructive pulmonary disease pathogenesis: from disease mechanisms to precision medicine. | Brandsma CA et al. | β | 2020 | β |
| Relative contributions of family history and a polygenic risk score on COPD and related outcomes: COPDGene and ECLIPSE studies. | Moll M et al. | β | 2020 | β |
| Smoking, DNA Methylation, and Lung Function: a Mendelian Randomization Analysis to Investigate Causal Pathways. | Jamieson E et al. | β | 2020 | β |
| Sonic hedgehog signalling as a potential endobronchial biomarker in COPD. | Ancel J et al. | β | 2020 | β |
| The Utility of Resolving Asthma Molecular Signatures Using Tissue-Specific Transcriptome Data. | Ghosh D et al. | β | 2020 | β |
| Whole genome sequence analysis of pulmonary function and COPD in 19,996 multi-ethnic participants. | Zhao X et al. | β | 2020 | β |
| Why is Disease Penetration So Variable? Role of Genetic Modifiers of Lung Function in Alpha-1 Antitrypsin Deficiency. | Hobbs BD et al. | β | 2020 | β |
| A Genetic Risk Score Associated with Chronic Obstructive Pulmonary Disease Susceptibility and Lung Structure on Computed Tomography. | Oelsner EC et al. | β | 2019 | β |
| Airway inflammation in COPD: progress to precision medicine. | Brightling C et al. | β | 2019 | β |
| Association study in African-admixed populations across the Americas recapitulates asthma risk loci in non-African populations. | Daya M et al. | β | 2019 | β |
| Cohort Profile: Extended Cohort for E-health, Environment and DNA (EXCEED). | John C et al. | β | 2019 | β |
| Defining a role for lung function associated gene GSTCD in cell homeostasis. | Henry AP et al. | β | 2019 | β |
| Discovering myeloid cell heterogeneity in the lung by means of next generation sequencing. | Ji JJ et al. | β | 2019 | β |
| Endotype-driven prediction of acute exacerbations in chronic obstructive pulmonary disease (EndAECOPD): protocol for a prospective cohort study. | Xiao W et al. | β | 2019 | β |
| European Respiratory Society International Congress 2018: four shades of epidemiology and tobacco control. | de Vries M et al. | β | 2019 | β |
| FKBP5 rs4713916: A Potential Genetic Predictor of Interindividual Different Response to Inhaled Corticosteroids in Patients with Chronic Obstructive Pulmonary Disease in a Real-Life Setting. | Russo P et al. | β | 2019 | β |
| Genetic Advances in Chronic Obstructive Pulmonary Disease. Insights from COPDGene. | Ragland MF et al. | β | 2019 | β |
| Genetic landscape of chronic obstructive pulmonary disease identifies heterogeneous cell-type and phenotype associations. | Sakornsakolpat P et al. | β | 2019 | β |
| Genetic profiling for disease stratification in chronic obstructive pulmonary disease and asthma. | Rathnayake SNH et al. | β | 2019 | β |
| Genetic risk factors for the development of pulmonary disease identified by genome-wide association. | Hall R et al. | β | 2019 | β |
| Genetics, Chronic Obstructive Pulmonary Disease, and the Arrow of Time. | Calverley PMA et al. | β | 2019 | β |
| Genetic underpinnings of lung function and COPD. | Ranjan A et al. | β | 2019 | β |
| Genetic variation in <i>PLEKHG1</i> is associated with white matter hyperintensities (n = 11,226). | Traylor M et al. | β | 2019 | β |
| Genome-wide analysis identifies molecular systems and 149 genetic loci associated with income. | Hill WD et al. | β | 2019 | β |
| Genome-Wide Association Analysis of Single-Breath Dl<sub>CO</sub>. | Sakornsakolpat P et al. | β | 2019 | β |
| Genotype-by-environment interactions inferred from genetic effects on phenotypic variability in the UK Biobank. | Wang H et al. | β | 2019 | β |
| GWAS and systems biology analysis of depressive symptoms among smokers from the COPDGene cohort. | Heinzman JT et al. | β | 2019 | β |
| Identification of an emphysema-associated genetic variant near <i>TGFB2</i> with regulatory effects in lung fibroblasts. | Parker MM et al. | β | 2019 | β |
| Identification of Functional Variants in the FAM13A Chronic Obstructive Pulmonary Disease Genome-Wide Association Study Locus by Massively Parallel Reporter Assays. | Castaldi PJ et al. | β | 2019 | β |
| Identification of novel differentially methylated sites with potential as clinical predictors of impaired respiratory function and COPD. | Bermingham ML et al. | β | 2019 | β |
| Identifying Chronic Obstructive Pulmonary Disease Genes: Shining the Light on Dark DNA. | Radder JE et al. | β | 2019 | β |
| Leveraging Big Data to Transform Drug Discovery. | Glicksberg BS et al. | β | 2019 | β |
| Limited overlap in significant hits between genome-wide association studies on two airflow obstruction definitions in the same population. | van der Plaat DA et al. | β | 2019 | β |
| Low miR-150-5p and miR-320b Expression Predicts Reduced Survival of COPD Patients. | Keller A et al. | β | 2019 | β |
| Mitochondrial DNA variants and pulmonary function in older persons. | Vaz Fragoso CA et al. | β | 2019 | β |
| Neoantigens in Chronic Obstructive Pulmonary Disease and Lung Cancer: A Point of View. | Zeneyedpour L et al. | β | 2019 | β |
| New genetic signals for lung function highlight pathways and chronic obstructive pulmonary disease associations across multiple ancestries. | Shrine N et al. | β | 2019 | β |
| Omega-3 Fatty Acids and Genome-Wide Interaction Analyses Reveal DPP10-Pulmonary Function Association. | Xu J et al. | β | 2019 | β |
| Pneumonia: host susceptibility and shared genetics with pulmonary function and other traits. | Khadzhieva MB et al. | β | 2019 | β |
| RNA-sequencing across three matched tissues reveals shared and tissue-specific gene expression and pathway signatures of COPD. | Morrow JD et al. | β | 2019 | β |
| Systematic Review and Meta-Analysis to Establish the Association of Common Genetic Variations in Vitamin D Binding Protein With Chronic Obstructive Pulmonary Disease. | Khanna R et al. | β | 2019 | β |
| Update on the Pathogenesis of Chronic Obstructive Pulmonary Disease. | AgustΓ A et al. | β | 2019 | β |
| Ξ²2 adrenergic receptor polymorphisms and COPD exacerbations: a complicated story. | Labaki WW et al. | β | 2019 | β |
| A 3D Human Airway Model Enables Prediction of Respiratory Toxicity of Inhaled Drugs In Vitro. | Balogh Sivars K et al. | β | 2018 | β |
| A Genome-Wide Association Study in Hispanics/Latinos Identifies Novel Signals for Lung Function. The Hispanic Community Health Study/Study of Latinos. | Burkart KM et al. | β | 2018 | β |
| A Genome-Wide Linkage Study for Chronic Obstructive Pulmonary Disease in a Dutch Genetic Isolate Identifies Novel Rare Candidate Variants. | Nedeljkovic I et al. | β | 2018 | β |
| Applying Functional Genomics to Chronic Obstructive Pulmonary Disease. | Silverman EK | β | 2018 | β |
| Big asthma data: getting bigger and more beautiful? | Diver S et al. | β | 2018 | β |
| COPD beyond smoking: new paradigm, novel opportunities. | AgustΓ A et al. | β | 2018 | β |
| COPD is accompanied by co-ordinated transcriptional perturbation in the quadriceps affecting the mitochondria and extracellular matrix. | Willis-Owen SAG et al. | β | 2018 | β |
| COPD: time to improve its taxonomy? | Celli BR et al. | β | 2018 | β |
| Dissecting respiratory disease heterogeneity through the genetics of diffusing capacity. | Hobbs BD et al. | β | 2018 | β |
| Elastin in lung development and disease pathogenesis. | Mecham RP | β | 2018 | β |
| Gene expression profile of human lung in a relatively early stage of COPD with emphysema. | Jeong I et al. | β | 2018 | β |
| Genome-wide analysis of self-reported risk-taking behaviour and cross-disorder genetic correlations in the UK Biobank cohort. | Strawbridge RJ et al. | β | 2018 | β |
| Genome-wide MicroRNA Expression Profiles in COPD: Early Predictors for Cancer Development. | Keller A et al. | β | 2018 | β |
| Granulocyte-CSF links destructive inflammation and comorbidities in obstructive lung disease. | Tsantikos E et al. | β | 2018 | β |
| Heritability and genome-wide association study of diffusing capacity of the lung. | Terzikhan N et al. | β | 2018 | β |
| Highlights from the European Respiratory Society 2018 Annual Congress: environment and epidemiology (assembly 6). | Amaral AFS | β | 2018 | β |
| Human <i>CCL3L1</i> copy number variation, gene expression, and the role of the CCL3L1-CCR5 axis in lung function | Adewoye AB et al. | β | 2018 | β |
| Human <i>CCL3L1</i> copy number variation, gene expression, and the role of the CCL3L1-CCR5 axis in lung function. | Adewoye AB et al. | β | 2018 | β |
| Human Lung DNA Methylation Quantitative Trait Loci Colocalize with Chronic Obstructive Pulmonary Disease Genome-Wide Association Loci. | Morrow JD et al. | β | 2018 | β |
| Integrative genomics identifies new genes associated with severe COPD and emphysema. | Sakornsakolpat P et al. | β | 2018 | β |
| Leveraging lung tissue transcriptome to uncover candidate causal genes in COPD genetic associations. | Lamontagne M et al. | β | 2018 | β |
| Lung function trajectories from pre-school age to adulthood and their associations with early life factors: a retrospective analysis of three population-based birth cohort studies. | Belgrave DCM et al. | β | 2018 | β |
| Meta-analysis of exome array data identifies six novel genetic loci for lung function. | Jackson VE et al. | β | 2018 | β |
| Metastable DNA methylation sites associated with longitudinal lung function decline and aging in humans: an epigenome-wide study in the NAS and KORA cohorts. | Carmona JJ et al. | β | 2018 | β |
| Multiethnic meta-analysis identifies ancestry-specific and cross-ancestry loci for pulmonary function. | Wyss AB et al. | β | 2018 | β |
| Nasal epithelium as a proxy for bronchial epithelium for smoking-induced gene expression and expression Quantitative Trait Loci. | Imkamp K et al. | β | 2018 | β |
| Neutrophilic Inflammation in the Pathogenesis of Chronic Obstructive Pulmonary Disease. | Butler A et al. | β | 2018 | β |
| Of pleiotropy and trajectories: Does the TGF-Ξ² pathway link childhood asthma and chronic obstructive pulmonary disease? | DeVries A et al. | β | 2018 | β |
| Physical fitness and dementia risk in the very old: a study of the Lothian Birth Cohort 1921. | Sibbett RA et al. | β | 2018 | β |
| Picking the Right Fruit: Intersecting Chronic Obstructive Pulmonary Disease Genome-Wide Association Study Discoveries with Epigenetics. | Ortega VE | β | 2018 | β |
| Prognostic Significance of Large Airway Dimensions on Computed Tomography in the General Population. The Multi-Ethnic Study of Atherosclerosis (MESA) Lung Study. | Oelsner EC et al. | β | 2018 | β |
| RNAseq analysis of bronchial epithelial cells to identify COPD-associated genes and SNPs. | Yeo J et al. | β | 2018 | β |
| SERPINA1 methylation and lung function in tobacco-smoke exposed European children and adults: a meta-analysis of ALEC population-based cohorts. | Beckmeyer-Borowko A et al. | β | 2018 | β |
| The Genetics and Genomics of Asthma. | Willis-Owen SAG et al. | β | 2018 | β |
| Trade-offs in aging lung diseases: a review on shared but opposite genetic risk variants in idiopathic pulmonary fibrosis, lung cancer and chronic obstructive pulmonary disease. | van Moorsel CHM | β | 2018 | β |
| Update in Chronic Obstructive Pulmonary Disease 2017. | Zhang WZ et al. | β | 2018 | β |
| Whole exome sequencing analysis in severe chronic obstructive pulmonary disease. | Qiao D et al. | β | 2018 | β |
| Whole-Genome Sequencing in Severe Chronic Obstructive Pulmonary Disease. | Prokopenko D et al. | β | 2018 | β |
| A comparison of methods for inferring causal relationships between genotype and phenotype using additional biological measurements. | Ainsworth HF et al. | β | 2017 | β |
| Association between <i>RTEL1</i> gene polymorphisms and COPD susceptibility in a Chinese Han population. | Ding Y et al. | β | 2017 | β |
| Chronic Obstructive Pulmonary Disease Meta Genome-Wide Association Studies. New Insights into the Genetics of Chronic Obstructive Pulmonary Disease. | Rajput C | β | 2017 | β |
| Comparative Transcriptome Profiling Reveals Coding and Noncoding RNA Differences in NSCLC from African Americans and European Americans. | Mitchell KA et al. | β | 2017 | β |
| Genetic Pleiotropy between Nicotine Dependence and Respiratory Outcomes. | Zhang J et al. | β | 2017 | β |
| Genetic polymorphism and chronic obstructive pulmonary disease. | Yuan C et al. | β | 2017 | β |
| Recent advances in understanding lung function development. | MelΓ©n E et al. | β | 2017 | β |
| What do polymorphisms tell us about the mechanisms of COPD? | Li Y et al. | β | 2017 | β |