Your search keyword '"Dirkje S, Postma"' showing total 819 results

1. Limited overlap in significant hits between genome-wide association studies on two airflow obstruction definitions in the same population

Author

Diana A. van der Plaat, Judith M. Vonk, Lies Lahousse, Kim de Jong, Alen Faiz, Ivana Nedeljkovic, Najaf Amin, Cleo C. van Diemen, Guy G. Brusselle, Yohan Bossé, Corry-Anke Brandsma, Ke Hao, Peter D. Paré, Cornelia M. van Duijn, Dirkje S. Postma, and H. Marike Boezen

Subjects

Genome-wide association study, Genetics, Airflow obstruction, COPD, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Airflow obstruction is a hallmark of chronic obstructive pulmonary disease (COPD), and is defined as either the ratio between forced expiratory volume in one second and forced vital capacity (FEV1/FVC)

Published

2019

2. Predictors of clinical response to extrafine and non-extrafine particle inhaled corticosteroids in smokers and ex-smokers with asthma

Author

Fajri Gafar, Ilse M. Boudewijn, Claire A. Cox, Judith M. Vonk, Siebrig Schokker, Anne J. Lexmond, Henderik W. Frijlink, Paul Hagedoorn, Dirkje S. Postma, and Maarten van den Berge

Subjects

Asthma, Inhaled corticosteroids, Extrafine particle, Non-extrafine particle, Small airways, Smoking, Diseases of the respiratory system, RC705-779

Abstract

Abstract We performed a post-hoc analysis of the OLiVIA-study investigating whether current and ex-smoking asthmatics with small airways dysfunction (SAD) show a better response in airway hyperresponsiveness (AHR) to small particle adenosine after treatment with extrafine compared to non-extrafine particle inhaled corticosteroids (ICS), and to investigate which clinical parameters predict a favorable response to both treatments. We show that smoking and ex-smoking asthmatics with and without SAD have a similar treatment response with either extrafine or non-extrafine particle ICS. We also found that lower blood neutrophils are associated with a smaller ICS-response in smokers and ex-smokers with asthma, independent from the level of blood eosinophils.

Published

2018

3. Nasal gene expression differentiates COPD from controls and overlaps bronchial gene expression

Author

Ilse M. Boudewijn, Alen Faiz, Katrina Steiling, Erica van der Wiel, Eef D. Telenga, Susan J. M. Hoonhorst, Nick H. T. ten Hacken, Corry-Anke Brandsma, Huib A. M. Kerstjens, Wim Timens, Irene H. Heijink, Marnix R. Jonker, Harold G. de Bruin, J. Sebastiaan Vroegop, Henk R. Pasma, Wim G. Boersma, Pascal Wielders, Frank van den Elshout, Khaled Mansour, Avrum Spira, Marc E. Lenburg, Victor Guryev, Dirkje S. Postma, and Maarten van den Berge

Subjects

COPD, Nasal epithelium, Bronchial epithelium, Genome wide gene expression, Microarray, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Nasal gene expression profiling is a promising method to characterize COPD non-invasively. We aimed to identify a nasal gene expression profile to distinguish COPD patients from healthy controls. We investigated whether this COPD-associated gene expression profile in nasal epithelium is comparable with the profile observed in bronchial epithelium. Methods Genome wide gene expression analysis was performed on nasal epithelial brushes of 31 severe COPD patients and 22 controls, all current smokers, using Affymetrix Human Gene 1.0 ST Arrays. We repeated the gene expression analysis on bronchial epithelial brushes in 2 independent cohorts of mild-to-moderate COPD patients and controls. Results In nasal epithelium, 135 genes were significantly differentially expressed between severe COPD patients and controls, 21 being up- and 114 downregulated in COPD (false discovery rate

Published

2017

4. CT-Based Local Distribution Metric Improves Characterization of COPD

Author

Benjamin A. Hoff, Esther Pompe, Stefanie Galbán, Dirkje S. Postma, Jan-Willem J. Lammers, Nick H. T. ten Hacken, Leo Koenderman, Timothy D. Johnson, Stijn E. Verleden, Pim A. de Jong, Firdaus A. A. Mohamed Hoesein, Maarten van den Berge, Brian D. Ross, and Craig J. Galbán

Subjects

Medicine, Science

Abstract

Abstract Parametric response mapping (PRM) of paired CT lung images has been shown to improve the phenotyping of COPD by allowing for the visualization and quantification of non-emphysematous air trapping component, referred to as functional small airways disease (fSAD). Although promising, large variability in the standard method for analyzing PRMfSAD has been observed. We postulate that representing the 3D PRMfSAD data as a single scalar quantity (relative volume of PRMfSAD) oversimplifies the original 3D data, limiting its potential to detect the subtle progression of COPD as well as varying subtypes. In this study, we propose a new approach to analyze PRM. Based on topological techniques, we generate 3D maps of local topological features from 3D PRMfSAD classification maps. We found that the surface area of fSAD (SfSAD) was the most robust and significant independent indicator of clinically meaningful measures of COPD. We also confirmed by micro-CT of human lung specimens that structural differences are associated with unique SfSAD patterns, and demonstrated longitudinal feature alterations occurred with worsening pulmonary function independent of an increase in disease extent. These findings suggest that our technique captures additional COPD characteristics, which may provide important opportunities for improved diagnosis of COPD patients.

Published

2017

5. Sulfatase modifying factor 1 (SUMF1) is associated with Chronic Obstructive Pulmonary Disease

Author

Julie Weidner, Linnea Jarenbäck, Kim de Jong, Judith M. Vonk, Maarten van den Berge, Corry-Anke Brandsma, H. Marike Boezen, Don Sin, Yohan Bossé, David Nickle, Jaro Ankerst, Leif Bjermer, Dirkje S. Postma, Alen Faiz, and Ellen Tufvesson

Subjects

Chronic obstructive pulmonary disease, Lung fibroblast, Single nucleotide polymorphism, Sputum, Sulfatase modifying factor 1, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background It has been observed that mice lacking the sulfatase modifying factor (Sumf1) developed an emphysema-like phenotype. However, it is unknown if SUMF1 may play a role in Chronic Obstructive Pulmonary Disease (COPD) in humans. The aim was to investigate if the expression and genetic regulation of SUMF1 differs between smokers with and without COPD. Methods SUMF1 mRNA was investigated in sputum cells and whole blood from controls and COPD patients (all current or former smokers). Expression quantitative trait loci (eQTL) analysis was used to investigate if single nucleotide polymorphisms (SNPs) in SUMF1 were significantly associated with SUMF1 expression. The association of SUMF1 SNPs with COPD was examined in a population based cohort, Lifelines. SUMF1 mRNA from sputum cells, lung tissue, and lung fibroblasts, as well as lung function parameters, were investigated in relation to genotype. Results Certain splice variants of SUMF1 showed a relatively high expression in lung tissue compared to many other tissues. SUMF1 Splice variant 2 and 3 showed lower levels in sputum cells from COPD patients as compared to controls. Twelve SNPs were found significant by eQTL analysis and overlapped with the array used for genotyping of Lifelines. We found alterations in mRNA expression in sputum cells and lung fibroblasts associated with SNP rs11915920 (top hit in eQTL), which validated the results of the lung tissue eQTL analysis. Of the twelve SNPs, two SNPs, rs793391 and rs308739, were found to be associated with COPD in Lifelines. The SNP rs793391 was also confirmed to be associated with lung function changes. Conclusions We show that SUMF1 expression is affected in COPD patients compared to controls, and that SNPs in SUMF1 are associated with an increased risk of COPD. Certain COPD-associated SNPs have effects on either SUMF1 gene expression or on lung function. Collectively, this study shows that SUMF1 is associated with an increased risk of developing COPD.

Published

2017

6. Supplementary Table 1 from Molecular Signature of Smoking in Human Lung Tissues

Author

Michel Laviolette, Peter D. Paré, Wim Timens, Andrew J. Sandford, James C. Hogg, Gregory J. Opiteck, Jeffrey A. Tsou, Vladislav Malkov, Catherine Tribouley, Corry A. Brandsma, Maarten van den Berge, Mark Elliott, Vivien Wong, Philippe Joubert, Nathalie Gaudreault, Christian Couture, Maxime Lamontagne, Don D. Sin, Dirkje S. Postma, and Yohan Bossé

Abstract

PDF file - 589K, Probe sets significantly associated with smoking in the discovery set

Published

2023

7. Supplementary Methods, Tables 2-3, Figures 1-6 from Molecular Signature of Smoking in Human Lung Tissues

Author

Michel Laviolette, Peter D. Paré, Wim Timens, Andrew J. Sandford, James C. Hogg, Gregory J. Opiteck, Jeffrey A. Tsou, Vladislav Malkov, Catherine Tribouley, Corry A. Brandsma, Maarten van den Berge, Mark Elliott, Vivien Wong, Philippe Joubert, Nathalie Gaudreault, Christian Couture, Maxime Lamontagne, Don D. Sin, Dirkje S. Postma, and Yohan Bossé

Abstract

PDF file - 242K, Table S2. Clinical characteristics of patients in the first replication set (UBC). Table S3. Clinical characteristics of patients in the second replication set (Groningen). Figure S1. Volcano plots showing the impact of smoking, COPD, and lung cancer on gene expression in the lung. Figure S2. Comparison of gene expression recovery following smoking cessation between the discovery set (Laval) and UBC. Figure S3. Comparison of gene expression recovery following smoking cessation between the discovery set (Laval) and Groningen. Figure S4. Expression of SERPIND1 in lung parenchyma of smoker and never-smoker by immunochemistry. Figure S5. Enrichment plot for slowly reversible gene in UBC. Figure S6. Enrichment plot for slowly reversible gene in Groningen

Published

2023

8. A Genome-Wide Linkage Study for Chronic Obstructive Pulmonary Disease in a Dutch Genetic Isolate Identifies Novel Rare Candidate Variants

Author

Ivana Nedeljkovic, Natalie Terzikhan, Judith M. Vonk, Diana A. van der Plaat, Lies Lahousse, Cleo C. van Diemen, Brian D. Hobbs, Dandi Qiao, Michael H. Cho, Guy G. Brusselle, Dirkje S. Postma, H. M. Boezen, Cornelia M. van Duijn, and Najaf Amin

Subjects

COPD, genetic linkage analysis, genetic isolate, rare variants, chromosome 11, Genetics, QH426-470

Abstract

Chronic obstructive pulmonary disease (COPD) is a complex and heritable disease, associated with multiple genetic variants. Specific familial types of COPD may be explained by rare variants, which have not been widely studied. We aimed to discover rare genetic variants underlying COPD through a genome-wide linkage scan. Affected-only analysis was performed using the 6K Illumina Linkage IV Panel in 142 cases clustered in 27 families from a genetic isolate, the Erasmus Rucphen Family (ERF) study. Potential causal variants were identified by searching for shared rare variants in the exome-sequence data of the affected members of the families contributing most to the linkage peak. The identified rare variants were then tested for association with COPD in a large meta-analysis of several cohorts. Significant evidence for linkage was observed on chromosomes 15q14–15q25 [logarithm of the odds (LOD) score = 5.52], 11p15.4–11q14.1 (LOD = 3.71) and 5q14.3–5q33.2 (LOD = 3.49). In the chromosome 15 peak, that harbors the known COPD locus for nicotinic receptors, and in the chromosome 5 peak we could not identify shared variants. In the chromosome 11 locus, we identified four rare (minor allele frequency (MAF)

Published

2018

9. Targeting the small airways with dry powder adenosine: a challenging concept

Author

Erica van der Wiel, Anne J. Lexmond, Maarten van den Berge, Dirkje S. Postma, Paul Hagedoorn, Henderik W. Frijlink, Martijn P. Farenhorst, Anne H. de Boer, and Nick H. T. ten Hacken

Subjects

asthma, bronchial hyperresponsiveness, small airways, bronchoprovocation test, adenosine, Diseases of the respiratory system, RC705-779

Abstract

Background: Small-particle inhaled corticosteroids (ICS) provide a higher small airway deposition than large-particle ICS. However, we are still not able to identify asthma patients who will profit most from small-particle treatment. Objective: We aimed to identify these patients by selectively challenging the small and large airways. We hypothesized that the airways could be challenged selectively using small- and large-particle adenosine, both inhaled at a high and a low flow rate. Design: In this cross-over study 11 asthma subjects performed four dry powder adenosine tests, with either small (MMAD 2.7 µm) or large (MMAD 6.0 µm) particles, inhaled once with a low flow rate (30 l min–1) and once with a high flow rate (60 l min–1). Spirometry and impulse oscillometry were performed after every bronchoprovocation step. We assumed that FEV1 reflects the large airways, and FEF25–75%, R5-R20 and X5 reflect the small airways. Results: The four adenosine tests were not significantly different with respect to the threshold values of FEV1 (p = 0.12), FEF25–75% (p = 0.37), R5-R20 (p = 0.60) or X5 (p = 0.46). Both small- and large-particle adenosine induced a response in the small airways in the majority of the tests. Conclusions: In contrast to our hypothesis, all four adenosine tests provoked a response in the small airways and we could not identify different large- or small-airway responders. Interestingly, even the test with large particles and a high flow rate induced a small-airway response, suggesting that selective challenging of the small airways is not necessary. Future studies should investigate the relation between particle deposition and the site of an airway response.

Published

2017

10. Identification of transforming growth factor-beta-regulated microRNAs and the microRNA-targetomes in primary lung fibroblasts.

Author

Jennie Ong, Wim Timens, Vijay Rajendran, Arjan Algra, Avrum Spira, Marc E Lenburg, Joshua D Campbell, Maarten van den Berge, Dirkje S Postma, Anke van den Berg, Joost Kluiver, and Corry-Anke Brandsma

Subjects

Medicine, Science

Abstract

BACKGROUND:Lung fibroblasts are involved in extracellular matrix homeostasis, which is mainly regulated by transforming growth factor-beta (TGF-β), and are therefore crucial in lung tissue repair and remodeling. Abnormal repair and remodeling has been observed in lung diseases like COPD. As miRNA levels can be influenced by TGF-β, we hypothesized that TGF-β influences miRNA expression in lung fibroblasts, thereby affecting their function. MATERIALS AND METHODS:We investigated TGF-β1-induced miRNA expression changes in 9 control primary parenchymal lung fibroblasts using miRNA arrays. TGF-β1-induced miRNA expression changes were validated and replicated in an independent set of lung fibroblasts composted of 10 controls and 15 COPD patients using qRT-PCR. Ago2-immunoprecipitation followed by mRNA expression profiling was used to identify the miRNA-targetomes of unstimulated and TGF-β1-stimulated primary lung fibroblasts (n = 2). The genes affected by TGF-β1-modulated miRNAs were identified by comparing the miRNA targetomes of unstimulated and TGF-β1-stimulated fibroblasts. RESULTS:Twenty-nine miRNAs were significantly differentially expressed after TGF-β1 stimulation (FDR

Published

2017

11. Computational analysis of multimorbidity between asthma, eczema and rhinitis.

Author

Daniel Aguilar, Mariona Pinart, Gerard H Koppelman, Yvan Saeys, Martijn C Nawijn, Dirkje S Postma, Mübeccel Akdis, Charles Auffray, Stéphane Ballereau, Marta Benet, Judith García-Aymerich, Juan Ramón González, Stefano Guerra, Thomas Keil, Manolis Kogevinas, Bart Lambrecht, Nathanael Lemonnier, Erik Melen, Jordi Sunyer, Rudolf Valenta, Sergi Valverde, Magnus Wickman, Jean Bousquet, Baldo Oliva, and Josep M Antó

Subjects

Medicine, Science

Abstract

BACKGROUND:The mechanisms explaining the co-existence of asthma, eczema and rhinitis (allergic multimorbidity) are largely unknown. We investigated the mechanisms underlying multimorbidity between three main allergic diseases at a molecular level by identifying the proteins and cellular processes that are common to them. METHODS:An in silico study based on computational analysis of the topology of the protein interaction network was performed in order to characterize the molecular mechanisms of multimorbidity of asthma, eczema and rhinitis. As a first step, proteins associated to either disease were identified using data mining approaches, and their overlap was calculated. Secondly, a functional interaction network was built, allowing to identify cellular pathways involved in allergic multimorbidity. Finally, a network-based algorithm generated a ranked list of newly predicted multimorbidity-associated proteins. RESULTS:Asthma, eczema and rhinitis shared a larger number of associated proteins than expected by chance, and their associated proteins exhibited a significant degree of interconnectedness in the interaction network. There were 15 pathways involved in the multimorbidity of asthma, eczema and rhinitis, including IL4 signaling and GATA3-related pathways. A number of proteins potentially associated to these multimorbidity processes were also obtained. CONCLUSIONS:These results strongly support the existence of an allergic multimorbidity cluster between asthma, eczema and rhinitis, and suggest that type 2 signaling pathways represent a relevant multimorbidity mechanism of allergic diseases. Furthermore, we identified new candidates contributing to multimorbidity that may assist in identifying new targets for multimorbid allergic diseases.

Published

2017

12. Add-on LABA in a separate inhaler as asthma step-up therapy versus increased dose of ICS or ICS/LABA combination inhaler

Author

David B. Price, Gene Colice, Elliot Israel, Nicolas Roche, Dirkje S. Postma, Theresa W. Guilbert, Willem M.C. van Aalderen, Jonathan Grigg, Elizabeth V. Hillyer, Victoria Thomas, and Richard J. Martin

Subjects

Medicine

Abstract

Asthma management guidelines recommend adding a long-acting β2-agonist (LABA) or increasing the dose of inhaled corticosteroid (ICS) as step-up therapy for patients with uncontrolled asthma on ICS monotherapy. However, it is uncertain which option works best, which ICS particle size is most effective, and whether LABA should be administered by separate or combination inhalers. This historical, matched cohort study compared asthma-related outcomes for patients (aged 12–80 years) prescribed step-up therapy as a ≥50% extrafine ICS dose increase or add-on LABA, via either a separate inhaler or a fine-particle ICS/LABA fixed-dose combination (FDC) inhaler. Risk-domain asthma control was the primary end-point in comparisons of cohorts matched for asthma severity and control during the baseline year. After 1:2 cohort matching, the increased extrafine ICS versus separate ICS+LABA cohorts included 3232 and 6464 patients, respectively, and the fine-particle ICS/LABA FDC versus separate ICS+LABA cohorts included 7529 and 15 058 patients, respectively (overall mean age 42 years; 61–62% females). Over one outcome year, adjusted OR (95% CI) for achieving asthma control were 1.25 (1.13–1.38) for increased ICS versus separate ICS+LABA and 1.06 (1.05–1.09) for ICS/LABA FDC versus separate ICS+LABA. For patients with asthma, increased dose of extrafine-particle ICS, or add-on LABA via ICS/LABA combination inhaler, is associated with significantly better outcomes than ICS+LABA via separate inhalers.

Published

2016

13. Protocadherin-1 Localization and Cell-Adhesion Function in Airway Epithelial Cells in Asthma.

Author

Grissel Faura Tellez, Brigitte W M Willemse, Uilke Brouwer, Susan Nijboer-Brinksma, Karl Vandepoele, Jacobien A Noordhoek, Irene Heijink, Maaike de Vries, Natalie P Smithers, Dirkje S Postma, Wim Timens, Laura Wiffen, Frans van Roy, John W Holloway, Peter M Lackie, Martijn C Nawijn, and Gerard H Koppelman

Subjects

Medicine, Science

Abstract

The asthma gene PCDH1 encodes Protocadherin-1, a putative adhesion molecule of unknown function expressed in the airway epithelium. Here, we characterize the localization, differential expression, homotypic adhesion specificity and function of PCDH1 in airway epithelial cells in asthma.We performed confocal fluorescence microscopy to determine subcellular localization of PCDH1 in 16HBE cells and primary bronchial epithelial cells (PBECs) grown at air-liquid interface. Next, to compare PCDH1 expression and localization in asthma and controls we performed qRT-PCR and fluorescence microscopy in PBECs and immunohistochemistry on airway wall biopsies. We examined homotypic adhesion specificity of HEK293T clones overexpressing fluorescently tagged-PCDH1 isoforms. Finally, to evaluate the role for PCDH1 in epithelial barrier formation and repair, we performed siRNA knockdown-studies and measured epithelial resistance.PCDH1 localized to the cell membrane at cell-cell contact sites, baso-lateral to adherens junctions, with increasing expression during epithelial differentiation. No differences in gene expression or localization of PCDH1 isoforms expressing the extracellular domain were observed in either PBECs or airway wall biopsies between asthma patients and controls. Overexpression of PCDH1 mediated homotypic interaction, whereas downregulation of PCDH1 reduced epithelial barrier formation, and impaired repair after wounding.In conclusion, PCDH1 is localized to the cell membrane of bronchial epithelial cells baso-lateral to the adherens junction. Expression of PCDH1 is not reduced nor delocalized in asthma even though PCDH1 contributes to homotypic adhesion, epithelial barrier formation and repair.

Published

2016

14. Eosinophil Count Is a Common Factor for Complex Metabolic and Pulmonary Traits and Diseases: The LifeLines Cohort Study.

Author

Marzyeh Amini, Dinara Bashirova, Bram P Prins, Eva Corpeleijn, LifeLines Cohort Study, Marcel Bruinenberg, Lude Franke, Pim van der Harst, Gerjan Navis, Bruce H R Wolffenbuttel, Ronald P Stolk, Cisca Wijmenga, Dirkje S Postma, Gerard H Koppelman, H Marike Boezen, Judith Vonk, Harold Snieder, and Behrooz Z Alizadeh

Subjects

Medicine, Science

Abstract

There is ongoing debate on the association between eosinophil count and diseases, as previous studies were inconsistent. We studied the relationship of eosinophil count with 22 complex metabolic, cardiac, and pulmonary traits and diseases. From the population-based LifeLines Cohort Study (N = 167,729), 13,301 individuals were included. We focused on relationship of eosinophil count with three classes of metabolic (7 traits, 2 diseases), cardiac (6 traits, 2 diseases), and pulmonary (2 traits, 2 diseases) outcomes. Regression analyses were applied in overall, women and men, while adjusted for age, sex, BMI and smoking. A p-value of

Published

2016

15. Atopy and Inhaled Corticosteroid Use Associate with Fewer IL-17+ Cells in Asthmatic Airways.

Author

Fatemeh Fattahi, Corry-Anke Brandsma, Monique Lodewijk, Marjan Reinders-Luinge, Dirkje S Postma, Wim Timens, Machteld N Hylkema, and Nick H T Ten Hacken

Subjects

Medicine, Science

Abstract

Interleukin (IL)-17 plays a critical role in numerous immune and inflammatory responses and was recently suggested to contribute to the pathogenesis of nonatopic (non-eosinophil/neutrophil-dominant) asthma. We aimed to compare expression of IL-17 in bronchial airways between atopic and nonatopic asthmatics, with/without inhaled corticosteroid (ICS) use and to identify its major cellular source.Bronchial biopsies from 114 patients with mild-to-moderate asthma were investigated: 33 nonatopic, 63 non-corticosteroid users, 90 nonsmokers. IL-17 expression was correlated with atopy and inflammatory cell counts (EPX, NP57, CD3, CD4, CD8, CD20, CD68), taking ICS use and smoking into account. Multiple linear regression analyses were used to determine the independent factors as well as the most relevant inflammatory cells contributing to IL-17 expression. Double immunostainings were performed to confirm the major cellular source of IL-17.In non-ICS users, nonatopic asthmatics had more IL-17+ cells in the airway wall than atopic asthmatics. In both atopic and nonatopic asthmatics, ICS use was associated with lower numbers of IL-17+ cells, independent of smoking. The number of IL-17+ cells was associated with the number of neutrophils (B: 0.26, 95% CI: 0.17-0.35) and eosinophils (B: 0.18, 95% CI: 0.07-0.29). The majority of IL-17+ cells were neutrophils, as confirmed by double immunostaining.We show for the first time that atopy and ICS use are associated with lower numbers of IL-17+ cells in asthmatic airways. Importantly, IL-17+ cells were mostly neutrophils which conflicts with the paradigm that lymphocytes (Th17) are the main source of IL-17.

Published

2016

16. Association of Forced Vital Capacity with the Developmental Gene NCOR2.

Author

Cosetta Minelli, Charlotte H Dean, Matthew Hind, Alexessander Couto Alves, André F S Amaral, Valerie Siroux, Ville Huikari, María Soler Artigas, David M Evans, Daan W Loth, Yohan Bossé, Dirkje S Postma, Don Sin, John Thompson, Florence Demenais, John Henderson, SpiroMeta consortium, CHARGE consortium, Emmanuelle Bouzigon, Deborah Jarvis, Marjo-Riitta Järvelin, and Peter Burney

Subjects

Medicine, Science

Abstract

BACKGROUND:Forced Vital Capacity (FVC) is an important predictor of all-cause mortality in the absence of chronic respiratory conditions. Epidemiological evidence highlights the role of early life factors on adult FVC, pointing to environmental exposures and genes affecting lung development as risk factors for low FVC later in life. Although highly heritable, a small number of genes have been found associated with FVC, and we aimed at identifying further genetic variants by focusing on lung development genes. METHODS:Per-allele effects of 24,728 SNPs in 403 genes involved in lung development were tested in 7,749 adults from three studies (NFBC1966, ECRHS, EGEA). The most significant SNP for the top 25 genes was followed-up in 46,103 adults (CHARGE and SpiroMeta consortia) and 5,062 children (ALSPAC). Associations were considered replicated if the replication p-value survived Bonferroni correction (p

Published

2016

17. Identifying a nasal gene expression signature associated with hyperinflation and treatment response in severe COPD

Author

Frank van den Elshout, Marc E. Lenburg, Wim Timens, Alen Faiz, Dirkje S. Postma, Corry-Anke Brandsma, Wim Boersma, Erica van der Wiel, Kai Imkamp, Sebastiaan J. Vroegop, Maarten van den Berge, Gerard H. Koppelman, Avrum Spira, Huib A. M. Kerstjens, Katrina Steiling, Henk R. Pasma, Ilse M. Boudewijn, Pascal Wielders, Irene H. Heijink, Khaled Mansour, Groningen Research Institute for Asthma and COPD (GRIAC), and Guided Treatment in Optimal Selected Cancer Patients (GUTS)

Subjects

Male, 0301 basic medicine, Budesonide, medicine.medical_specialty, lcsh:Medicine, Hyperinflation, 010502 geochemistry & geophysics, 01 natural sciences, Gastroenterology, Article, Placebos, Pulmonary Disease, Chronic Obstructive, 03 medical and health sciences, Formoterol Fumarate, Internal medicine, Administration, Inhalation, Gene expression, medicine, Humans, Lung volumes, lcsh:Science, Adrenergic beta-2 Receptor Agonists, Lung, Aged, 0105 earth and related environmental sciences, COPD, Multidisciplinary, Dose-Response Relationship, Drug, Inhalation, business.industry, Gene Expression Profiling, lcsh:R, Middle Aged, respiratory system, medicine.disease, Pathophysiology, Bronchodilator Agents, respiratory tract diseases, 030104 developmental biology, Outcomes research, Case-Control Studies, lcsh:Q, Female, Formoterol, Nasal Cavity, business, medicine.drug

Abstract

Hyperinflation contributes to dyspnea intensity in COPD. Little is known about the molecular mechanisms underlying hyperinflation and how inhaled corticosteroids (ICS) affect this important aspect of COPD pathophysiology. To investigate the effect of ICS/long-acting β2-agonist (LABA) treatment on both lung function measures of hyperinflation, and the nasal epithelial gene-expression profile in severe COPD. 117 patients were screened and 60 COPD patients entered a 1-month run-in period on low-dose ICS/LABA budesonide/formoterol (BUD/F) 200/6 one inhalation b.i.d. Patients were then randomly assigned to 3-month treatment with either a high dose BDP/F 100/6 two inhalations b.i.d. (n = 31) or BUD/F 200/6 two inhalations b.i.d. (n = 29). Lung function measurements and nasal epithelial gene-expression were assessed before and after 3-month treatment and validated in independent datasets. After 3-month ICS/LABA treatment, residual volume (RV)/total lung capacity (TLC)% predicted was reduced compared to baseline (p Trial registration: ClinicalTrials.gov registration number NCT01351792 (registration date May 11, 2011), ClinicalTrials.gov registration number NCT00848406 (registration date February 20, 2009), ClinicalTrials.gov registration number NCT00158847 (registration date September 12, 2005).

Published

2020

18. Integrated proteogenomic approach identifying a protein signature of COPD and a new splice variant of SORBS1

Author

Corry-Anke Brandsma, György Marko-Varga, Wim Timens, Ekaterina S. Ovchinnikova, Victor Guryev, Johan Malm, Dirkje S. Postma, Peter Horvatovich, Rainer Bischoff, Maria Johansson, Thomas E. Fehniger, Ana Ciconelle, Maarten van den Berge, Groningen Research Institute for Asthma and COPD (GRIAC), Stem Cell Aging Leukemia and Lymphoma (SALL), Guided Treatment in Optimal Selected Cancer Patients (GUTS), Analytical Biochemistry, and Medicinal Chemistry and Bioanalysis (MCB)

Subjects

Male, Pulmonary and Respiratory Medicine, SORBS1, Computational biology, SUMO2, Brief Communication, Risk Assessment, Severity of Illness Index, COPD ÀÜ mechanisms, Pulmonary Disease, Chronic Obstructive, 03 medical and health sciences, Reference Values, medicine, Humans, Protein Isoforms, Aged, Proteogenomics, 030304 developmental biology, 0303 health sciences, COPD, Lung, 030306 microbiology, business.industry, Microfilament Proteins, Alternative splicing, A protein, RNA, Translation (biology), Middle Aged, medicine.disease, respiratory tract diseases, COPD pathology, medicine.anatomical_structure, Gene Expression Regulation, Case-Control Studies, Disease Progression, Female, business

Abstract

Translation of genomic alterations to protein changes in chronic obstructive pulmonary disease (COPD) is largely unexplored. Using integrated proteomic and RNA sequencing analysis of COPD and control lung tissues, we identified a protein signature in COPD characterised by extracellular matrix changes and a potential regulatory role for SUMO2. Furthermore, we identified 61 differentially expressed novel, non-reference, peptides in COPD compared with control lungs. This included two peptides encoding for a new splice variant of SORBS1, of which the transcript usage was higher in COPD compared with control lungs. These explorative findings and integrative proteogenomic approach open new avenues to further unravel the pathology of COPD.

Published

2020

19. Nasal gene expression changes with inhaled corticosteroid treatment in asthma

Author

Richard Beasley, Andy Lan, Ilse M. Boudewijn, Sharon Brouwer, Uilke Brouwer, Siebrig Schokker, Sebastiaan J. Vroegop, Henderik W. Frijlink, Paul Hagedoorn, Alen Faiz, Martijn C. Nawijn, Dirkje S. Postma, Claire A. Cox, Victor Guryev, Maarten van den Berge, David F. Choy, James Fingleton, Stephanie A. Christenson, Prescott G. Woodruff, Marissa Wisman, Groningen Research Institute for Asthma and COPD (GRIAC), Pharmaceutical Technology and Biopharmacy, Biopharmaceuticals, Discovery, Design and Delivery (BDDD), and Stem Cell Aging Leukemia and Lymphoma (SALL)

Subjects

Adult, Male, Allergy, Immunology, Corticosteroid treatment, MEDLINE, Gene Expression, Text mining, Adrenal Cortex Hormones, Gene expression, Administration, Inhalation, medicine, Immunology and Allergy, Humans, Anti-Asthmatic Agents, Budesonide, Asthma, Inhalation, business.industry, Beclomethasone, Middle Aged, medicine.disease, Nasal Mucosa, 1107 Immunology, Female, business

Published

2020

20. Reticular basement membrane in asthma and COPD: Similar thickness, yet different composition

Author

Jeroen JW Liesker, Nick H Ten Hacken, Mieke Zeinstra-Smith, Steven R Rutgers, Dirkje S Postma, and et al.

Subjects

Diseases of the respiratory system, RC705-779

Abstract

Jeroen JW Liesker1, Nick H Ten Hacken1, Mieke Zeinstra-Smith2, Steven R Rutgers1, Dirkje S Postma1, Wim Timens21Department of Pulmonology; 2Department of Pathology, University Medical Center Groningen, University of Groningen, Groningen, The Netherlands Background: Reticular basement membrane (RBM) thickening has been variably associated with asthma and chronic obstructive pulmonary disease (COPD). Even if RBM thickness is similar in both diseases, its composition might still differ. Objective: To assess whether RBM thickness and composition differ between asthma and COPD. Methods: We investigated 24 allergic asthmatics (forced expiratory volume in one second [FEV1] 92% predicted), and 17 nonallergic COPD patients (FEV1 60% predicted), and for each group a control group of similar age and smoking habits (12 and 10 persons, respectively). Snap-frozen sections of bronchial biopsies were stained with hematoxylin/eosin and for collagen I, III, IV, V, laminin and tenascin. RBM thickening was assessed by digital image analysis. Relative staining intensity of each matrix component was determined.Results: Mean (SD) RBM thickness was not significantly different between asthma and COPD 5.5 (1.3) vs 6.0 (1.8) μm, but significantly larger than in their healthy counterparts, ie, 4.7 (0.9) and 4.8 (1.2) μm, respectively. Collagen I and laminin stained significantly stronger in asthma than in COPD. Tenascin stained stronger in asthma than in healthy controls of similar age, and stronger in COPD controls than in asthma controls (p 0.05).Conclusion: RBM thickening occurs both in asthma and COPD. We provide supportive evidence that its composition differs in asthma and COPD. Keywords: reticular basement membrane thickness, reticular basement membrane composition, asthma, biopsy, COPD, remodeling

Published

2009

21. Change in inflammation in out-patient COPD patients from stable phase to a subsequent exacerbation

Author

Erik Bathoorn, Jeroen JW Liesker, Dirkje S Postma, Gerard H Koëter, Marco van der Toorn, and et al

Subjects

Diseases of the respiratory system, RC705-779

Abstract

Erik Bathoorn1, Jeroen JW Liesker1, Dirkje S Postma1, Gerard H Koëter1, Marco van der Toorn2, Sicco van der Heide2, H Alec Ross3, Antoon JM van Oosterhout2, Huib AM Kerstjens11Department of Pulmonology; 2Laboratory of Allergology and Pulmonary Diseases, Groningen Research Institute for Asthma and COPD (GRIAC), University Medical Center Groningen, University of Groningen, the Netherlands; 3Department of Chemical Endocrinology, Radboud University Nijmegen Medical Centre, the NetherlandsBackground: Inflammation increases during exacerbations of COPD, but only a few studies systematically assessed these changes. Better identification of these changes will increase our knowledge and potentially guide therapy, for instance by helping with quicker distinction of bacterially induced exacerbations from other causes.Aim: To identify which inflammatory parameters increase during COPD exacerbations compared to stable disease, and to compare bacterial and non-bacterial exacerbations.Methods: In 45 COPD patients (37 male/8 female, 21 current smokers, mean age 65, FEV1 52% predicted, pack years 38) sputum was collected during a stable phase and subsequently during an exacerbation.Results: Sputum total cell counts (9.0 versus 7.9 × 106/mL), eosinophils (0.3 versus 0.2 × 106/mL), neutrophils (6.1 versus 5.8 × 106/mL), and lymphocytes (0.07 versus 0.02 × 106/mL) increased significantly during an exacerbation compared to stable disease. A bacterial infection was demonstrated by culture in 8 sputum samples obtained during an exacerbation. These exacerbations had significantly increased sputum total cell and neutrophil counts, leukotriene-B4, myeloperoxidase, interleukin-8 and interleukin-6, and tumor necrosis factor-α (TNF-α) levels, and were also associated with more systemic inflammation compared to exacerbations without a bacterial infection. Sputum TNF-α level during an exacerbation had the best test characteristics to predict a bacterial infection.Conclusion: Sputum eosinophil, neutrophil, and lymphocyte counts increase during COPD exacerbations. The increase in systemic inflammation during exacerbations seems to be limited to exacerbations caused by bacterial infections of the lower airways. Sputum TNF-α is a candidate marker for predicting airway bacterial infection.Keywords: chronic obstructive pulmonary disease, exacerbation, inflammation, sputum induction

Published

2009

22. Difference in the breast milk proteome between allergic and non-allergic mothers.

Author

Kasper A Hettinga, Fabiola M Reina, Sjef Boeren, Lina Zhang, Gerard H Koppelman, Dirkje S Postma, Jacques J M Vervoort, and Alet H Wijga

Subjects

Medicine, Science

Abstract

BackgroundBreastfeeding has been linked to a reduction in the prevalence of allergy and asthma. However, studies on this relationship vary in outcome, which may partly be related to differences in breast milk composition. In particular breast milk composition may differ between allergic and non-allergic mothers. Important components that may be involved are breast milk proteins, as these are known to regulate immune development in the newborn. The objective of this study was therefore to explore differences in the proteins of breast milk from 20 allergic and non-allergic mothers. The results from this comparison may then be used to generate hypotheses on proteins associated with allergy in their offspring.MethodsMilk samples from allergic and non-allergic mothers were obtained from the PIAMA project, a prospective birth cohort study on incidence, risk factors, and prevention of asthma and inhalant allergy. Non-targeted proteomics technology, based on liquid chromatography and mass spectrometry, was used to compare breast milk from allergic and non-allergic mothers.ResultsNineteen proteins, out of a total of 364 proteins identified in both groups, differed significantly in concentration between the breast milk of allergic and non-allergic mothers. Protease inhibitors and apolipoproteins were present in much higher concentrations in breast milk of allergic than non-allergic mothers. These proteins have been suggested to be linked to allergy and asthma.ConclusionsThe non-targeted milk proteomic analysis employed has provided new targets for future studies on the relation between breast milk composition and allergy.

Published

2015

23. Correction: Susceptibility to chronic mucus hypersecretion, a genome wide association study.

Author

Akkelies E Dijkstra, Joanna Smolonska, Maarten van den Berge, Ciska Wijmenga, Pieter Zanen, Marjan A Luinge, Mathieu Platteel, Jan-Willem Lammers, Magnus Dahlback, Kerrie Tosh, Pieter S Hiemstra, Peter J Sterk, Avi Spira, Jorgen Vestbo, Borge G Nordestgaard, Marianne Benn, Sune F Nielsen, Morten Dahl, W Monique Verschuren, H Susan J Picavet, Henriette A Smit, Michael Owsijewitsch, Hans U Kauczor, Harry J de Koning, Eva Nizankowska-Mogilnicka, Filip Mejza, Pawel Nastalek, Cleo C van Diemen, Michael H Cho, Edwin K Silverman, James D Crapo, Terri H Beaty, David A Lomas, Per Bakke, Amund Gulsvik, Yohan Bossé, Ma'en Obeidat, Daan W Loth, Lies Lahousse, Fernando Rivadeneira, Andre G Uitterlinden, Andre Hofman, Bruno H Stricker, Guy G Brusselle, Cornelia M van Duijn, Uilke Brouwer, Gerard H Koppelman, Judith M Vonk, Martijn C Nawijn, Harry J M Groen, Wim Timens, H Marike Boezen, Dirkje S Postma, and LifeLines Cohort Study

Subjects

Medicine, Science

Published

2015

24. Change in HbA1c levels between the age of 8 years and the age of 12 years in Dutch children without diabetes: the PIAMA birth cohort study.

Author

Hanneke Jansen, Alet H Wijga, Salome Scholtens, Gerard H Koppelman, Dirkje S Postma, Bert Brunekreef, Johan C de Jongste, Henriëtte A Smit, and Ronald P Stolk

Subjects

Medicine, Science

Abstract

HbA1c is associated with cardiovascular risk in persons without diabetes and cardiovascular risk accumulates over the life course. Therefore, insight in factors determining HbA1c from childhood onwards is important. We investigated (lifestyle) determinants of HbA1c at age 12 years and the effects of growth on change in HbA1c and the tracking of HbA1c between the age of 8 and 12 years.Anthropometric measurements were taken and HbA1c levels were assessed in 955 children without diabetes aged around 12 years participating in the PIAMA birth cohort study. In 363 of these children HbA1c was also measured at age 8 years. Data on parents and children were collected prospectively by questionnaires.We found no significant association between known risk factors for diabetes and HbA1c at age 12 years. Mean(SD) change in HbA1c between ages 8 and 12 years was 0.6(0.7) mmol/mol per year (or 0.1(0.1) %/yr). Anthropometric measures at age 8 and their change between age 8 and 12 years were not associated with the change in HbA1c. 68.9% of the children remained in the same quintile or had an HbA1c one quintile higher or lower at age 8 years compared to age 12 years.The lack of association between known risk factors for diabetes and HbA1c suggest that HbA1c in children without diabetes is relatively unaffected by factors associated with glycaemia. HbA1c at age 8 years is by far the most important predictor of HbA1c at age 12. Therefore, the ranking of HbA1c levels appear to be fairly stable over time.

Published

2015

25. Impact of Statins on Gene Expression in Human Lung Tissues.

Author

Jérôme Lane, Stephan F van Eeden, Ma'en Obeidat, Don D Sin, Scott J Tebbutt, Wim Timens, Dirkje S Postma, Michel Laviolette, Peter D Paré, and Yohan Bossé

Subjects

Medicine, Science

Abstract

Statins are 3-hydroxy-3-methylglutaryl-coenzyme A reductase inhibitors that alter the synthesis of cholesterol. Some studies have shown a significant association of statins with improved respiratory health outcomes of patients with asthma, chronic obstructive pulmonary disease and lung cancer. Here we hypothesize that statins impact gene expression in human lungs and may reveal the pleiotropic effects of statins that are taking place directly in lung tissues. Human lung tissues were obtained from patients who underwent lung resection or transplantation. Gene expression was measured on a custom Affymetrix array in a discovery cohort (n = 408) and two replication sets (n = 341 and 282). Gene expression was evaluated by linear regression between statin users and non-users, adjusting for age, gender, smoking status, and other covariables. The results of each cohort were combined in a meta-analysis and biological pathways were studied using Gene Set Enrichment Analysis. The discovery set included 141 statin users. The lung mRNA expression levels of eighteen and three genes were up-regulated and down-regulated in statin users (FDR < 0.05), respectively. Twelve of the up-regulated genes were replicated in the first replication set, but none in the second (p-value < 0.05). Combining the discovery and replication sets into a meta-analysis improved the significance of the 12 up-regulated genes, which includes genes encoding enzymes and membrane proteins involved in cholesterol biosynthesis. Canonical biological pathways altered by statins in the lung include cholesterol, steroid, and terpenoid backbone biosynthesis. No genes encoding inflammatory, proteases, pro-fibrotic or growth factors were altered by statins, suggesting that the direct effect of statin in the lung do not go beyond its antilipidemic action. Although more studies are needed with specific lung cell types and different classes and doses of statins, the improved health outcomes and survival observed in statin users with chronic lung diseases do not seem to be mediated through direct regulation of gene expression in the lung.

Published

2015

26. Prediction of Long-Term Benefits of Inhaled Steroids by Phenotypic Markers in Moderate-to-Severe COPD: A Randomized Controlled Trial.

Author

Jiska B Snoeck-Stroband, Therese S Lapperre, Peter J Sterk, Pieter S Hiemstra, Henk A Thiadens, H Marike Boezen, Nick H T Ten Hacken, Huib A M Kerstjens, Dirkje S Postma, Wim Timens, Jacob K Sont, and GLUCOLD Study Group

Subjects

Medicine, Science

Abstract

BACKGROUND:The decline in lung function can be reduced by long-term inhaled corticosteroid (ICS) treatment in subsets of patients with chronic obstructive pulmonary disease (COPD). We aimed to identify which clinical, physiological and non-invasive inflammatory characteristics predict the benefits of ICS on lung function decline in COPD. METHODS:Analysis was performed in 50 steroid-naive compliant patients with moderate to severe COPD (postbronchodilator forced expiratory volume in one second (FEV1), 30-80% of predicted, compatible with GOLD stages II-III), age 45-75 years, >10 packyears smoking and without asthma. Patients were treated with fluticasone propionate (500 μg bid) or placebo for 2.5 years. Postbronchodilator FEV1, dyspnea and health status were measured every 3 months; lung volumes, airway hyperresponsiveness (PC20), and induced sputum at 0, 6 and 30 months. A linear mixed effect model was used for analysis of this hypothesis generating study. RESULTS:Significant predictors of attenuated FEV1-decline by fluticasone treatment compared to placebo were: fewer packyears smoking, preserved diffusion capacity, limited hyperinflation and lower inflammatory cell counts in induced sputum (p

Published

2015

27. Pathway analysis of a genome-wide gene by air pollution interaction study in asthmatic children

Author

Despo Ierodiakonou, Scott T. Weiss, Joel Schwartz, Damien C. Croteau-Chonka, Brent A. Coull, Antonella Zanobetti, Petros Koutrakis, H. Marike Boezen, Diane R. Gold, Jonathan S. Schildcrout, Dirkje S. Postma, Thomas Lumley, Judith M. Vonk, Edward F. McKone, Gerard H. Koppelman, Groningen Research Institute for Asthma and COPD (GRIAC), and Life Course Epidemiology (LCE)

Subjects

medicine.medical_specialty, Epidemiology, CITY, Air pollution, CYCLASE-ACTIVATING PEPTIDE, Locus (genetics), Single-nucleotide polymorphism, Genome-wide association study, 030501 epidemiology, Biology, Toxicology, Biological pathway, 03 medical and health sciences, INFLAMMATION, Molecular genetics, medicine, Genome-wide, EXPOSURE, OXIDATIVE STRESS, Pathways, Gene, Genetic association, Genetics, SET ENRICHMENT ANALYSIS, Public Health, Environmental and Occupational Health, ASSOCIATION, Pollution, Asthma, Gene-environment interaction, Lung function, LUNG-FUNCTION, Metabolic pathway, RESPIRATORY SYMPTOMS, HEALTH, 0305 other medical science

Abstract

Objectives We aimed to investigate the role of genetics in the respiratory response of asthmatic children to air pollution, with a genome-wide level analysis of gene by nitrogen dioxide (NO2) and carbon monoxide (CO) interaction on lung function and to identify biological pathways involved.Methods We used a two-step method for fast linear mixed model computations for genome-wide association studies, exploring whether variants modify the longitudinal relationship between 4-month average pollution and post-bronchodilator FEV1 in 522 Caucasian and 88 African-American asthmatic children. Top hits were confirmed with classic linear mixed-effect models. We used the improved gene set enrichment analysis for GWAS (i-GSEA4GWAS) to identify plausible pathways.Results Two SNPs near the EPHA3 (rs13090972 and rs958144) and one in TXNDC8 (rs7041938) showed significant interactions with NO2 in Caucasians but we did not replicate this locus in African-Americans. SNP-CO interactions did not reach genome-wide significance. The i-GSEA4GWAS showed a pathway linked to the HO-1/CO system to be associated with CO-related FEV1 changes. For NO2-related FEV1 responses, we identified pathways involved in cellular adhesion, oxidative stress, inflammation, and metabolic responses.Conclusion The host lung function response to long-term exposure to pollution is linked to genes involved in cellular adhesion, oxidative stress, inflammatory, and metabolic pathways.

Published

2019

28. Lower corticosteroid skin blanching response is associated with severe COPD.

Author

Susan J M Hoonhorst, Nick H T ten Hacken, Adèle T Lo Tam Loi, Leo Koenderman, Jan Willem J Lammers, Eef D Telenga, H Marike Boezen, Maarten van den Berge, and Dirkje S Postma

Subjects

Medicine, Science

Abstract

Chronic obstructive pulmonary disease (COPD) is characterized by chronic airflow limitation caused by ongoing inflammatory and remodeling processes of the airways and lung tissue. Inflammation can be targeted by corticosteroids. However, airway inflammation is generally less responsive to steroids in COPD than in asthma. The underlying mechanisms are yet unclear. This study aimed to assess whether skin corticosteroid insensitivity is associated with COPD and COPD severity using the corticosteroid skin blanching test.COPD patients GOLD stage I-IV (n = 27, 24, 22, and 16 respectively) and healthy never-smokers and smokers (n = 28 and 56 respectively) were included. Corticosteroid sensitivity was assessed by the corticosteroid skin blanching test. Budesonide was applied in 8 logarithmically increasing concentrations (0-100 μg/ml) on subject's forearm. Assessment of blanching was performed after 7 hours using a 7-point scale (normal skin to intense blanching). All subjects performed spirometry and body plethysmography.Both GOLD III and GOLD IV COPD patients showed significantly lower skin blanching responses than healthy never-smokers and smokers, GOLD I, and GOLD II patients. Their area under the dose-response curve values of the skin blanching response were 586 and 243 vs. 1560, 1154, 1380, and 1309 respectively, p

Published

2014

29. Susceptibility to COPD: differential proteomic profiling after acute smoking.

Author

Lorenza Franciosi, Dirkje S Postma, Maarten van den Berge, Natalia Govorukhina, Peter L Horvatovich, Fabrizia Fusetti, Bert Poolman, Monique E Lodewijk, Wim Timens, Rainer Bischoff, and Nick H T ten Hacken

Subjects

Medicine, Science

Abstract

Cigarette smoking is the main risk factor for COPD (Chronic Obstructive Pulmonary Disease), yet only a subset of smokers develops COPD. Family members of patients with severe early-onset COPD have an increased risk to develop COPD and are therefore defined as "susceptible individuals". Here we perform unbiased analyses of proteomic profiles to assess how "susceptible individuals" differ from age-matched "non-susceptible individuals" in response to cigarette smoking. Epithelial lining fluid (ELF) was collected at baseline and 24 hours after smoking 3 cigarettes in young individuals susceptible or non-susceptible to develop COPD and older subjects with established COPD. Controls at baseline were older healthy smoking and non-smoking individuals. Five samples per group were pooled and analysed by stable isotope labelling (iTRAQ) in duplicate. Six proteins were selected and validated by ELISA or immunohistochemistry. After smoking, 23 proteins increased or decreased in young susceptible individuals, 7 in young non-susceptible individuals, and 13 in COPD in the first experiment; 23 proteins increased or decreased in young susceptible individuals, 32 in young non-susceptible individuals, and 11 in COPD in the second experiment. SerpinB3 and Uteroglobin decreased after acute smoke exposure in young non-susceptible individuals exclusively, whereas Peroxiredoxin I, S100A9, S100A8, ALDH3A1 (Aldehyde dehydrogenase 3A1) decreased both in young susceptible and non-susceptible individuals, changes being significantly different between groups for Uteroglobin with iTRAQ and for Serpin B3 with iTRAQ and ELISA measures. Peroxiredoxin I, SerpinB3 and ALDH3A1 increased in COPD patients after smoking. We conclude that smoking induces a differential protein response in ELF of susceptible and non-susceptible young individuals, which differs from patients with established COPD. This is the first study applying unbiased proteomic profiling to unravel the underlying mechanisms that induce COPD. Our data suggest that SerpinB3 and Uteroglobin could be interesting proteins in understanding the processes leading to COPD.

Published

2014

30. Susceptibility to chronic mucus hypersecretion, a genome wide association study.

Author

Akkelies E Dijkstra, Joanna Smolonska, Maarten van den Berge, Ciska Wijmenga, Pieter Zanen, Marjan A Luinge, Mathieu Platteel, Jan-Willem Lammers, Magnus Dahlback, Kerrie Tosh, Pieter S Hiemstra, Peter J Sterk, Avi Spira, Jorgen Vestbo, Borge G Nordestgaard, Marianne Benn, Sune F Nielsen, Morten Dahl, W Monique Verschuren, H Susan J Picavet, Henriette A Smit, Michael Owsijewitsch, Hans U Kauczor, Harry J de Koning, Eva Nizankowska-Mogilnicka, Filip Mejza, Pawel Nastalek, Cleo C van Diemen, Michael H Cho, Edwin K Silverman, James D Crapo, Terri H Beaty, David A Lomas, Per Bakke, Amund Gulsvik, Yohan Bossé, Ma'en Obeidat, Daan W Loth, Lies Lahousse, Fernando Rivadeneira, Andre G Uitterlinden, Andre Hofman, Bruno H Stricker, Guy G Brusselle, Cornelia M van Duijn, Uilke Brouwer, Gerard H Koppelman, Judith M Vonk, Martijn C Nawijn, Harry J M Groen, Wim Timens, H Marike Boezen, Dirkje S Postma, and LifeLines Cohort study

Subjects

Medicine, Science

Abstract

Chronic mucus hypersecretion (CMH) is associated with an increased frequency of respiratory infections, excess lung function decline, and increased hospitalisation and mortality rates in the general population. It is associated with smoking, but it is unknown why only a minority of smokers develops CMH. A plausible explanation for this phenomenon is a predisposing genetic constitution. Therefore, we performed a genome wide association (GWA) study of CMH in Caucasian populations.GWA analysis was performed in the NELSON-study using the Illumina 610 array, followed by replication and meta-analysis in 11 additional cohorts. In total 2,704 subjects with, and 7,624 subjects without CMH were included, all current or former heavy smokers (≥20 pack-years). Additional studies were performed to test the functional relevance of the most significant single nucleotide polymorphism (SNP).A strong association with CMH, consistent across all cohorts, was observed with rs6577641 (p = 4.25×10(-6), OR = 1.17), located in intron 9 of the special AT-rich sequence-binding protein 1 locus (SATB1) on chromosome 3. The risk allele (G) was associated with higher mRNA expression of SATB1 (4.3×10(-9)) in lung tissue. Presence of CMH was associated with increased SATB1 mRNA expression in bronchial biopsies from COPD patients. SATB1 expression was induced during differentiation of primary human bronchial epithelial cells in culture.Our findings, that SNP rs6577641 is associated with CMH in multiple cohorts and is a cis-eQTL for SATB1, together with our additional observation that SATB1 expression increases during epithelial differentiation provide suggestive evidence that SATB1 is a gene that affects CMH.

Published

2014

31. Steroid resistance in COPD? Overlap and differential anti-inflammatory effects in smokers and ex-smokers.

Author

Susan J M Hoonhorst, Nick H T ten Hacken, Judith M Vonk, Wim Timens, Pieter S Hiemstra, Thérèse S Lapperre, Peter J Sterk, and Dirkje S Postma

Subjects

Medicine, Science

Abstract

Inhaled corticosteroids (ICS) reduce exacerbation rates and improve health status but can increase the risk of pneumonia in COPD. The GLUCOLD study, investigating patients with mild-to-moderate COPD, has shown that long-term (2.5-year) ICS therapy induces anti-inflammatory effects. The literature suggests that cigarette smoking causes ICS insensitivity. The aim of this study is to compare anti-inflammatory effects of ICS in persistent smokers and persistent ex-smokers in a post-hoc analysis of the GLUCOLD study.Persistent smokers (n = 41) and persistent ex-smokers (n = 31) from the GLUCOLD cohort were investigated. Effects of ICS treatment compared with placebo were estimated by analysing changes in lung function, hyperresponsiveness, and inflammatory cells in sputum and bronchial biopsies during short-term (0-6 months) and long-term (6-30 months) treatment using multiple regression analyses.Bronchial mast cells were reduced by short-term and long-term ICS treatment in both smokers and ex-smokers. In contrast, CD3⁺, CD4⁺, and CD8⁺ cells were reduced by short-term ICS treatment in smokers only. In addition, sputum neutrophils and lymphocytes, and bronchial CD8⁺ cells were reduced after long-term treatment in ex-smokers only. No significant interactions existed between smoking and ICS treatment.Even in the presence of smoking, long-term ICS treatment may lead to anti-inflammatory effects in the lung. Some anti-inflammatory ICS effects are comparable in smokers and ex-smokers with COPD, other effects are cell-specific. The clinical relevance of these findings, however, are uncertain.

Published

2014

32. A Disintegrin and Metalloprotease 33 polymorphisms and lung function decline in the general population

Author

Cleo. C. van Diemen, Dirkje. S. Postma, Judith. M. Vonk, Marcel Bruinenberg, Jan. P. Schouten, and H. Marike Boezen

Subjects

Diseases of the respiratory system, RC705-779

Abstract

ADAM33 (A Disintegrin and Metalloprotease 33) has been identified as a susceptibility gene for asthma and single nucleotide polymorphisms (SNPs) in this gene have been associated with excess decline of lung function in asthmatics. To assess whether SNPs in ADAM33 are associated with accelerated lung function loss in the general population and with chronic obstructive pulmonary disease (COPD). We have collected DNA from subjects of the Vlagtwedde/Vlaardingen cohort participating in the last survey in 1989/1990 after a follow up of 25 years. Information was collected every 3 years, including lung function measurements. We defined COPD as GOLD stage 2 or higher at the last survey. 1390 subjects from the cohort were genotyped for the following SNPs in ADAM33: F+1, Q–1, S_1, S_2, T_1, T_2, V_4, ST+5. Differences in prevalence of SNPs were analyzed with chi-square tests. Linear mixed effects models were used to analyze FEV1 decline according to genotype. In the whole population mean adjusted decline was 18.7 and 12.7 ml·y–1 in females and males respectively. Individuals homozygous for minor alleles of SNPs S_2 and Q–1 and heterozygous for SNP S_1 had a significantly accelerated decline in FEV1 of respectively 4.9, 9.6 and 3.6 ml·y–1 compared with wild type. We found a significantly higher prevalence of SNPs F+1, S_1, S_2 and T_2 in subjects with COPD. We demonstrated that SNPs in ADAM33 are associated with accelerated lung function decline in the general population. These SNPs are also risk factors for COPD.

Published

2006

33. Variants in the 15q24/25 locus associate with lung function decline in active smokers.

Author

Firdaus A A Mohamed Hoesein, Els Wauters, Wim Janssens, Harry J M Groen, Joanna Smolonska, Cisca Wijmenga, Dirkje S Postma, H Marike Boezen, Pim A De Jong, Marc Decramer, Jan-Willem J Lammers, Diether Lambrechts, and Pieter Zanen

Subjects

Medicine, Science

Abstract

Genetic variation in nicotinic acetylcholine receptor subunit genes (nAChRs) is associated with lung function level and chronic obstructive pulmonary disease (COPD). It is unknown whether these variants also predispose to an accelerated lung function decline. We investigated the association of nAChR susceptibility variants with lung function decline and COPD severity. The rs1051730 and rs8034191 variants were genotyped in a population-based cohort of 1,226 heavy smokers (COPACETIC) and in an independent cohort of 883 heavy smokers, of which 653 with COPD of varying severity (LEUVEN). Participants underwent pulmonary function tests at baseline. Lung function decline was assessed over a median follow-up of 3 years in COPACETIC. Current smokers homozygous for the rs1051730 A-allele or rs8034191 G-allele had significantly greater FEV(1)/FVC decline than homozygous carriers of wild-type alleles (3.3% and 4.3%, p = 0.026 and p = 0.009, respectively). In the LEUVEN cohort, rs1051730 AA-carriers and rs8034191 GG-carriers had a two-fold increased risk to suffer from COPD GOLD IV (OR 2.29, 95% confidence interval [CI] = 1.11-4.75; p = 0.025 and OR = 2.42, 95% [CI] = 1.18-4.95; p = 0.016, respectively). The same risk alleles conferred, respectively, a five- and four-fold increased risk to be referred for lung transplantation because of end-stage COPD (OR = 5.0, 95% [CI] = 1.68-14.89; p = 0.004 and OR = 4.06, 95% [CI] = 1.39-11.88; p = 0.010). In Europeans, variants in nAChRs associate with an accelerated lung function decline in current smokers and with clinically relevant COPD.

Published

2013

34. Genetic variation in FADS genes and plasma cholesterol levels in 2-year-old infants: KOALA Birth Cohort Study.

Author

Carolina Moltó-Puigmartí, Eugène Jansen, Joachim Heinrich, Marie Standl, Ronald P Mensink, Jogchum Plat, John Penders, Monique Mommers, Gerard H Koppelman, Dirkje S Postma, and Carel Thijs

Subjects

Medicine, Science

Abstract

OBJECTIVE: Single nucleotide polymorphisms (SNPs) in genes involved in fatty acid metabolism (FADS1 FADS2 gene cluster) are associated with plasma lipid levels. We aimed to investigate whether these associations are already present early in life and compare the relative contribution of FADS SNPs vs traditional (non-genetic) factors as determinants of plasma lipid levels. METHODS: Information on infants' plasma total cholesterol levels, genotypes of five FADS SNPs (rs174545, rs174546, rs174556, rs174561, and rs3834458), anthropometric data, maternal characteristics, and breastfeeding history was available for 521 2-year-old children from the KOALA Birth Cohort Study. For 295 of these 521 children, plasma HDLc and non-HDLc levels were also known. Multivariable linear regression analysis was used to study the associations of genetic and non-genetic determinants with cholesterol levels. RESULTS: All FADS SNPs were significantly associated with total cholesterol levels. Heterozygous and homozygous for the minor allele children had about 4% and 8% lower total cholesterol levels than major allele homozygotes. In addition, homozygous for the minor allele children had about 7% lower HDLc levels. This difference reached significance for the SNPs rs174546 and rs3834458. The associations went in the same direction for non-HDLc, but statistical significance was not reached. The percentage of total variance of total cholesterol levels explained by FADS SNPs was relatively low (lower than 3%) but of the same order as that explained by gender and the non-genetic determinants together. CONCLUSIONS: FADS SNPs are associated with plasma total cholesterol and HDLc levels in preschool children. This brings a new piece of evidence to explain how blood lipid levels may track from childhood to adulthood. Moreover, the finding that these SNPs explain a similar amount of variance in total cholesterol levels as the non-genetic determinants studied reveals the potential importance of investigating the effects of genetic variations in early life.

Published

2013

35. Inhaled steroids modulate extracellular matrix composition in bronchial biopsies of COPD patients: a randomized, controlled trial.

Author

Lisette I Z Kunz, Jolanda Strebus, Simona E Budulac, Therese S Lapperre, Peter J Sterk, Dirkje S Postma, Thais Mauad, Wim Timens, Pieter S Hiemstra, and GLUCOLD (Groningen Leiden Universities Corticosteroids in Obstructive Lung Disease) Study Group

Subjects

Medicine, Science

Abstract

Smoking and inflammation contribute to the pathogenesis of chronic obstructive pulmonary disease (COPD), which involves changes in extracellular matrix. This is thought to contribute to airway remodeling and airflow obstruction. We have previously observed that long-term treatment with inhaled corticosteroids can not only reduce bronchial inflammation, but can also attenuate lung function decline in moderate-severe COPD. We hypothesized that inhaled corticosteroids and current smoking modulate bronchial extracellular matrix components in COPD.To compare major extracellular matrix components (elastic fibers; proteoglycans [versican, decorin]; collagens type I and III) in bronchial biopsies 1) after 30-months inhaled steroids treatment or placebo; and 2) between current and ex-smokers with COPD.We included 64 moderate-severe, steroid-naive COPD patients (24/40 (ex)-smokers, 62±7 years, 46 (31-54) packyears, post-bronchodilator forced expiratory volume in one second (FEV1) 62±9% predicted) at baseline in this randomized, controlled trial. 19 and 13 patients received 30-months treatment with fluticasone or placebo, respectively. Bronchial biopsies collected at baseline and after 30 months were studied using (immuno)histochemistry to evaluate extracellular matrix content. Percentage and density of stained area were calculated by digital image analysis.30-Months inhaled steroids increased the percentage stained area of versican (9.6% [CI 0.9 to 18.3%]; p = 0.03) and collagen III (20.6% [CI 3.8 to 37.4%]; p = 0.02) compared to placebo. Increased collagen I staining density correlated with increased post-bronchodilator FEV1 after inhaled steroids treatment (Rs = 0.45, p = 0.04). There were no differences between smokers and ex-smokers with COPD in percentages and densities for all extracellular matrix proteins.These data show that long-term inhaled corticosteroids treatment partially changes the composition of extracellular matrix in moderate-severe COPD. This is associated with increased lung function, suggesting that long-term inhaled steroids modulate airway remodeling thereby potentially preventing airway collapse in COPD. Smoking status is not associated with bronchial extracellular matrix proteins.ClinicalTrials.gov NCT00158847.

Published

2013

36. ADAM33 gene polymorphisms and mortality. A prospective cohort study.

Author

Sylwia M Figarska, Judith M Vonk, Cleo C van Diemen, Dirkje S Postma, and H Marike Boezen

Subjects

Medicine, Science

Abstract

The ADAM33 gene is associated with the pathophysiology of Chronic Obstructive Pulmonary Disease (COPD) and atherosclerosis. In this study we investigated all-cause, COPD and cardiovascular mortality, in relation to single nucleotide polymorphisms (SNPs) in ADAM33 (Q_1, S_1, S_2, T_1 and T_2) that were genotyped in 1,390 subjects from the Vlagtwedde/Vlaardingen cohort. Participants were examined at entry in 1989/1990 and followed up till evaluation of the vital status on December 31(st), 2008. Using Cox proportional hazards regression we estimated the risk of the SNPs in relation to mortality, adjusting for gender, age, FEV1, height, place of residence and packyears of smoking. Additionally, we performed stratified analyses according to gender and smoking habits. After 18 years, 284 (20.4%) subjects had died (107 due to cardiovascular disease and 20 due to COPD). Individuals homozygous for the minor allele of SNP T_2 had an increased risk of all-cause and cardiovascular mortality compared to wild types: hazard ratio 3.6 (95% confidence interval 2.0 to 6.7) and 3.4 (1.2 to 9.5) respectively. Individuals homozygous for the minor allele of S_1, S_2, T_2 or Q_1 had a significantly increased risk of COPD mortality. In stratified analyses the risk of all-cause mortality associated with SNP T_2 did not change: females 3.5 (1.5 to 8.3), males 3.1 (1.2 to 7.6), never smokers 3.8 (0.9 to 16.3), ever smokers 3.6 (1.8 to 7.2). This study shows for the first time that ADAM33 is a pleiotropic gene that is associated with all-cause, COPD and cardiovascular mortality, independent of potential confounders.

Published

2013

37. GSTCD and INTS12 regulation and expression in the human lung.

Author

Ma'en Obeidat, Suzanne Miller, Kelly Probert, Charlotte K Billington, Amanda P Henry, Emily Hodge, Carl P Nelson, Ceri E Stewart, Caroline Swan, Louise V Wain, María Soler Artigas, Erik Melén, Kevin Ushey, Ke Hao, Maxime Lamontagne, Yohan Bossé, Dirkje S Postma, Martin D Tobin, Ian Sayers, and Ian P Hall

Subjects

Medicine, Science

Abstract

Genome-Wide Association Study (GWAS) meta-analyses have identified a strong association signal for lung function, which maps to a region on 4q24 containing two oppositely transcribed genes: glutathione S-transferase, C-terminal domain containing (GSTCD) and integrator complex subunit 12 (INTS12). Both genes were found to be expressed in a range of human airway cell types. The promoter regions and transcription start sites were determined in mRNA from human lung and a novel splice variant was identified for each gene. We obtained the following evidence for GSTCD and INTS12 co-regulation and expression: (i) correlated mRNA expression was observed both via Q-PCR and in a lung expression quantitative trait loci (eQTL) study, (ii) induction of both GSTCD and INTS12 mRNA expression in human airway smooth muscle cells was seen in response to TGFβ1, (iii) a lung eQTL study revealed that both GSTCD and INTS12 mRNA levels positively correlate with percent predicted FEV1, and (iv) FEV1 GWAS associated SNPs in 4q24 were found to act as an eQTL for INTS12 in a number of tissues. In fixed sections of human lung tissue, GSTCD protein expression was ubiquitous, whereas INTS12 expression was predominantly in epithelial cells and pneumocytes. During human fetal lung development, GSTCD protein expression was observed to be highest at the earlier pseudoglandular stage (10-12 weeks) compared with the later canalicular stage (17-19 weeks), whereas INTS12 expression levels did not alter throughout these stages. Knowledge of the transcriptional and translational regulation and expression of GSTCD and INTS12 provides important insights into the potential role of these genes in determining lung function. Future work is warranted to fully define the functions of INTS12 and GSTCD.

Published

2013

38. Integration of mouse and human genome-wide association data identifies KCNIP4 as an asthma gene.

Author

Blanca E Himes, Keith Sheppard, Annerose Berndt, Adriana S Leme, Rachel A Myers, Christopher R Gignoux, Albert M Levin, W James Gauderman, James J Yang, Rasika A Mathias, Isabelle Romieu, Dara G Torgerson, Lindsey A Roth, Scott Huntsman, Celeste Eng, Barbara Klanderman, John Ziniti, Jody Senter-Sylvia, Stanley J Szefler, Robert F Lemanske, Robert S Zeiger, Robert C Strunk, Fernando D Martinez, Homer Boushey, Vernon M Chinchilli, Elliot Israel, David Mauger, Gerard H Koppelman, Dirkje S Postma, Maartje A E Nieuwenhuis, Judith M Vonk, John J Lima, Charles G Irvin, Stephen P Peters, Michiaki Kubo, Mayumi Tamari, Yusuke Nakamura, Augusto A Litonjua, Kelan G Tantisira, Benjamin A Raby, Eugene R Bleecker, Deborah A Meyers, Stephanie J London, Kathleen C Barnes, Frank D Gilliland, L Keoki Williams, Esteban G Burchard, Dan L Nicolae, Carole Ober, Dawn L DeMeo, Edwin K Silverman, Beverly Paigen, Gary Churchill, Steve D Shapiro, and Scott T Weiss

Subjects

Medicine, Science

Abstract

Asthma is a common chronic respiratory disease characterized by airway hyperresponsiveness (AHR). The genetics of asthma have been widely studied in mouse and human, and homologous genomic regions have been associated with mouse AHR and human asthma-related phenotypes. Our goal was to identify asthma-related genes by integrating AHR associations in mouse with human genome-wide association study (GWAS) data. We used Efficient Mixed Model Association (EMMA) analysis to conduct a GWAS of baseline AHR measures from males and females of 31 mouse strains. Genes near or containing SNPs with EMMA p-values

Published

2013

39. Refining susceptibility loci of chronic obstructive pulmonary disease with lung eqtls.

Author

Maxime Lamontagne, Christian Couture, Dirkje S Postma, Wim Timens, Don D Sin, Peter D Paré, James C Hogg, David Nickle, Michel Laviolette, and Yohan Bossé

Subjects

Medicine, Science

Abstract

Chronic obstructive pulmonary disease (COPD) is the fourth leading cause of mortality worldwide. Recent genome-wide association studies (GWAS) have identified robust susceptibility loci associated with COPD. However, the mechanisms mediating the risk conferred by these loci remain to be found. The goal of this study was to identify causal genes/variants within susceptibility loci associated with COPD. In the discovery cohort, genome-wide gene expression profiles of 500 non-tumor lung specimens were obtained from patients undergoing lung surgery. Blood-DNA from the same patients were genotyped for 1,2 million SNPs. Following genotyping and gene expression quality control filters, 409 samples were analyzed. Lung expression quantitative trait loci (eQTLs) were identified and overlaid onto three COPD susceptibility loci derived from GWAS; 4q31 (HHIP), 4q22 (FAM13A), and 19q13 (RAB4B, EGLN2, MIA, CYP2A6). Significant eQTLs were replicated in two independent datasets (n = 363 and 339). SNPs previously associated with COPD and lung function on 4q31 (rs1828591, rs13118928) were associated with the mRNA expression of HHIP. An association between mRNA expression level of FAM13A and SNP rs2045517 was detected at 4q22, but did not reach statistical significance. At 19q13, significant eQTLs were detected with EGLN2. In summary, this study supports HHIP, FAM13A, and EGLN2 as the most likely causal COPD genes on 4q31, 4q22, and 19q13, respectively. Strong lung eQTL SNPs identified in this study will need to be tested for association with COPD in case-control studies. Further functional studies will also be needed to understand the role of genes regulated by disease-related variants in COPD.

Published

2013

40. Correction: Lung eQTLs to Help Reveal the Molecular Underpinnings of Asthma.

Author

Ke Hao, Yohan Bossé, David C. Nickle, Peter D. Paré, Dirkje S. Postma, Michel Laviolette, Andrew Sandford, Tillie L. Hackett, Denise Daley, James C. Hogg, W. Mark Elliott, Christian Couture, Maxime Lamontagne, Corry-Anke Brandsma, Maarten van den Berge, Gerard Koppelman, Alise S. Reicin, Donald W. Nicholson, Vladislav Malkov, Jonathan M. Derry, Christine Suver, Jeffrey A. Tsou, Amit Kulkarni, Chunsheng Zhang, Rupert Vessey, Greg J. Opiteck, Sean P. Curtis, Wim Timens, and Don D. Sin

Subjects

Genetics, QH426-470

Published

2012

41. Late Breaking Abstract - Small Airways Dysfunction (SAD) correlates with relevant asthma outcomes

Author

Leonardo M. Fabbri, Dave Singh, Gabriele Nicolini, Salman Siddiqui, Klaus F. Rabe, Maarten van den Berge, Monica Kraft, Christopher E. Brightling, Thys van der Molen, Alberto Papi, Dirkje S. Postma, and Groningen Research Institute for Asthma and COPD (GRIAC)

Subjects

medicine.medical_specialty, Small airways, business.industry, Internal medicine, medicine, medicine.disease, business, Asthma

Published

2020

42. Phenotypic and functional translation of IL1RL1 locus polymorphisms in lung tissue and asthmatic airway epithelium

Author

Charlotte K. Billington, Gerard H. Koppelman, Liam G Heaney, Adel H. Mansur, Jenny Hankinson, Martijn C. Nawijn, Corry-Anke Brandsma, Sangita Bhaker, Andrew M. Fogarty, Dominick E. Shaw, Michael A. Portelli, Cornelis J. Vermeulen, Judith M. Vonk, Nick Shrine, Amanda P. Henry, Ian Sayers, Yohan Bossé, Maria Ketelaar, Martin D. Tobin, Peter H. Howarth, David C. Nickle, Néomi S. Grotenboer, Ma'en Obeidat, Gabrielle A. Lockett, John W. Holloway, Christopher E. Brightling, Alen Faiz, Rekha Chaudhuri, Tricia M. McKeever, Simon R. Johnson, Paul de Vos, Dirkje S. Postma, Zara Pogson, Neil C. Thomson, Sharon Brouwer, Maarten van den Berge, Angela Simpson, Amisha Singapuri, Robert Niven, F. Nicole Dijk, Ian P. Hall, Louise V. Wain, John D Blakey, Groningen Research Institute for Asthma and COPD (GRIAC), Translational Immunology Groningen (TRIGR), and Man, Biomaterials and Microbes (MBM)

Subjects

HAY-FEVER, EXPRESSION, 0301 basic medicine, medicine.medical_specialty, Genotype, IL1RL1, Single-nucleotide polymorphism, Genome-wide association study, Locus (genetics), Respiratory Mucosa, VARIANTS, Biology, Polymorphism, Single Nucleotide, 03 medical and health sciences, 0302 clinical medicine, Molecular genetics, Genetics, medicine, Humans, Genetic Predisposition to Disease, Genetic variation, GENOME-WIDE ASSOCIATION, Lung, Asthma, LARGE-SCALE, Haplotype, Cell Biology, General Medicine, ST2, medicine.disease, Interleukin-1 Receptor-Like 1 Protein, Phenotype, respiratory tract diseases, GENETIC RISK-FACTORS, DIFFERENTIATION, 030104 developmental biology, 030220 oncology & carcinogenesis, Immunology, IL-33, INTERLEUKIN-1 RECEPTOR, Research Article

Abstract

The IL1RL1 (ST2) gene locus is robustly associated with asthma; however, the contribution of single nucleotide polymorphisms (SNPs) in this locus to specific asthma subtypes and the functional mechanisms underlying these associations remain to be defined. We tested for association between IL1RL1 region SNPs and characteristics of asthma as defined by clinical and immunological measures and addressed functional effects of these genetic variants in lung tissue and airway epithelium. Utilizing 4 independent cohorts (Lifelines, Dutch Asthma GWAS [DAG], Genetics of Asthma Severity and Phenotypes [GASP], and Manchester Asthma and Allergy Study [MAAS]) and resequencing data, we identified 3 key signals associated with asthma features. Investigations in lung tissue and primary bronchial epithelial cells identified context-dependent relationships between the signals and IL1RL1 mRNA and soluble protein expression. This was also observed for asthma-associated IL1RL1 nonsynonymous coding TIR domain SNPs. Bronchial epithelial cell cultures from asthma patients, exposed to exacerbation-relevant stimulations, revealed modulatory effects for all 4 signals on IL1RL1 mRNA and/ or protein expression, suggesting SNP-environment interactions. The IL1RL1 TIR signaling domain haplotype affected IL-33-driven NF-κB signaling, while not interfering with TLR signaling. In summary, we identify that IL1RL1 genetic signals potentially contribute to severe and eosinophilic phenotypes in asthma, as well as provide initial mechanistic insight, including genetic regulation of IL1RL1 isoform expression and receptor signaling.

Published

2020

43. Genome-wide association analysis in asthma subjects identifies SPATS2L as a novel bronchodilator response gene.

Author

Blanca E Himes, Xiaofeng Jiang, Ruoxi Hu, Ann C Wu, Jessica A Lasky-Su, Barbara J Klanderman, John Ziniti, Jody Senter-Sylvia, John J Lima, Charles G Irvin, Stephen P Peters, Deborah A Meyers, Eugene R Bleecker, Michiaki Kubo, Mayumi Tamari, Yusuke Nakamura, Stanley J Szefler, Robert F Lemanske, Robert S Zeiger, Robert C Strunk, Fernando D Martinez, John P Hanrahan, Gerard H Koppelman, Dirkje S Postma, Maartje A E Nieuwenhuis, Judith M Vonk, Reynold A Panettieri, Amy Markezich, Elliot Israel, Vincent J Carey, Kelan G Tantisira, Augusto A Litonjua, Quan Lu, and Scott T Weiss

Subjects

Genetics, QH426-470

Abstract

Bronchodilator response (BDR) is an important asthma phenotype that measures reversibility of airway obstruction by comparing lung function (i.e. FEV(1)) before and after the administration of a short-acting β(2)-agonist, the most common rescue medications used for the treatment of asthma. BDR also serves as a test of β(2)-agonist efficacy. BDR is a complex trait that is partly under genetic control. A genome-wide association study (GWAS) of BDR, quantified as percent change in baseline FEV(1) after administration of a β(2)-agonist, was performed with 1,644 non-Hispanic white asthmatic subjects from six drug clinical trials: CAMP, LOCCS, LODO, a medication trial conducted by Sepracor, CARE, and ACRN. Data for 469,884 single-nucleotide polymorphisms (SNPs) were used to measure the association of SNPs with BDR using a linear regression model, while adjusting for age, sex, and height. Replication of primary P-values was attempted in 501 white subjects from SARP and 550 white subjects from DAG. Experimental evidence supporting the top gene was obtained via siRNA knockdown and Western blotting analyses. The lowest overall combined P-value was 9.7E-07 for SNP rs295137, near the SPATS2L gene. Among subjects in the primary analysis, those with rs295137 TT genotype had a median BDR of 16.0 (IQR = [6.2, 32.4]), while those with CC or TC genotypes had a median BDR of 10.9 (IQR = [5.0, 22.2]). SPATS2L mRNA knockdown resulted in increased β(2)-adrenergic receptor levels. Our results suggest that SPATS2L may be an important regulator of β(2)-adrenergic receptor down-regulation and that there is promise in gaining a better understanding of the biological mechanisms of differential response to β(2)-agonists through GWAS.

Published

2012

44. Toll-like receptor (TLR2 and TLR4) polymorphisms and chronic obstructive pulmonary disease.

Author

Simona E Budulac, H Marike Boezen, Pieter S Hiemstra, Therese S Lapperre, Judith M Vonk, Wim Timens, Dirkje S Postma, and GLUCOLD study group

Subjects

Medicine, Science

Abstract

Toll-like receptors (TLRs) participate in the defence against bacterial infections that are common in patients with Chronic Obstructive Pulmonary Disease (COPD). We studied all tagging SNPs in TLR2 and TLR4 and their associations with the level and change over time of both FEV(1) and sputum inflammatory cells in moderate-to-severe COPD. Nine TLR2 SNPs and 17 TLR4 SNPs were genotyped in 110 COPD patients. Associations of SNPs with lung function and inflammatory cells in induced sputum were analyzed cross-sectionally with linear regression and longitudinally with linear mixed-effect models. Two SNPs in TLR2 (rs1898830 and rs11938228) were associated with a lower level of FEV(1) and accelerated decline of FEV(1) and higher numbers of sputum inflammatory cells. None of the TLR4 SNPs was associated with FEV(1) level. Eleven out of 17 SNPs were associated with FEV(1) decline, including rs12377632 and rs10759931, which were additionally associated with higher numbers of sputum inflammatory cells at baseline and with increase over time. This is the first longitudinal study showing that tagging SNPs in TLR2 and TLR4 are associated with the level and decline of lung function as well as with inflammatory cell numbers in induced sputum in COPD patients, suggesting a role in the severity and progression of COPD.

Published

2012

45. Different genes interact with particulate matter and tobacco smoke exposure in affecting lung function decline in the general population.

Author

Ivan Curjuric, Medea Imboden, Rachel Nadif, Ashish Kumar, Christian Schindler, Margot Haun, Florian Kronenberg, Nino Künzli, Harish Phuleria, Dirkje S Postma, Erich W Russi, Thierry Rochat, Florence Demenais, and Nicole M Probst-Hensch

Subjects

Medicine, Science

Abstract

BackgroundOxidative stress related genes modify the effects of ambient air pollution or tobacco smoking on lung function decline. The impact of interactions might be substantial, but previous studies mostly focused on main effects of single genes.ObjectivesWe studied the interaction of both exposures with a broad set of oxidative-stress related candidate genes and pathways on lung function decline and contrasted interactions between exposures.MethodsFor 12679 single nucleotide polymorphisms (SNPs), change in forced expiratory volume in one second (FEV(1)), FEV(1) over forced vital capacity (FEV(1)/FVC), and mean forced expiratory flow between 25 and 75% of the FVC (FEF(25-75)) was regressed on interval exposure to particulate matter 10% in 3320 SAPALDIA participants without GWAS.ResultsOn the SNP-level, rs2035268 in gene SNCA accelerated FEV(1)/FVC decline by 3.8% (p(interaction) = 2.5×10(-6)), and rs12190800 in PARK2 attenuated FEV1 decline by 95.1 ml p(interaction) = 9.7×10(-8)) over 11 years, while interacting with PM10. Genes and pathways nominally interacting with PM10 and packyears exposure differed substantially. Gene CRISP2 presented a significant interaction with PM10 (p(interaction) = 3.0×10(-4)) on FEV(1)/FVC decline. Pathway interactions were weak. Replications for the strongest SNPs in PARK2 and CRISP2 were not successful.ConclusionsConsistent with a stratified response to increasing oxidative stress, different genes and pathways potentially mediate PM10 and tobacco smoke effects on lung function decline. Ignoring environmental exposures would miss these patterns, but achieving sufficient sample size and comparability across study samples is challenging.

Published

2012

46. Nicotinic acetylcholine receptor variants are related to smoking habits, but not directly to COPD.

Author

Simona E Budulac, Judith M Vonk, Dirkje S Postma, Mateusz Siedlinski, Wim Timens, and Marike H Boezen

Subjects

Medicine, Science

Abstract

Genome-wide association studies identified single nucleotide polymorphisms (SNPs) in the nicotinic acetylcholine receptors (nAChRs) cluster as a risk factor for nicotine dependency and COPD. We investigated whether SNPs in the nAChR cluster are associated with smoking habits and lung function decline, and if these potential associations are independent of each other. The SNPs rs569207, rs1051730 and rs8034191 in the nAChR cluster were analyzed in the Vlagtwedde-Vlaardingen cohort (n = 1,390) that was followed for 25 years. We used GEE and LME models to analyze the associations of the SNPs with quitting or restarting smoking and with the annual FEV(1) decline respectively. Individuals homozygote (CC) for rs569207 were more likely to quit smoking (OR (95%CI) = 1.58 (1.05-2.38)) compared to wild-type (TT) individuals. Individuals homozygote (TT) for rs1051730 were less likely to quit smoking (0.64 (0.42; 0.97)) compared to wild-type (CC) individuals. None of the SNPs was significantly associated with the annual FEV(1) decline in smokers and ex-smokers. We show that SNPs in the nAChR region are associated with smoking habits such as quitting smoking, but have no significant effect on the annual FEV(1) decline in smokers and ex-smokers, suggesting a potential role of these SNPs in COPD development via smoking habits rather than via direct effects on lung function.

Published

2012

47. Lung eQTLs to help reveal the molecular underpinnings of asthma.

Author

Ke Hao, Yohan Bossé, David C Nickle, Peter D Paré, Dirkje S Postma, Michel Laviolette, Andrew Sandford, Tillie L Hackett, Denise Daley, James C Hogg, W Mark Elliott, Christian Couture, Maxime Lamontagne, Corry-Anke Brandsma, Maarten van den Berge, Gerard Koppelman, Alise S Reicin, Donald W Nicholson, Vladislav Malkov, Jonathan M Derry, Christine Suver, Jeffrey A Tsou, Amit Kulkarni, Chunsheng Zhang, Rupert Vessey, Greg J Opiteck, Sean P Curtis, Wim Timens, and Don D Sin

Subjects

Genetics, QH426-470

Abstract

Genome-wide association studies (GWAS) have identified loci reproducibly associated with pulmonary diseases; however, the molecular mechanism underlying these associations are largely unknown. The objectives of this study were to discover genetic variants affecting gene expression in human lung tissue, to refine susceptibility loci for asthma identified in GWAS studies, and to use the genetics of gene expression and network analyses to find key molecular drivers of asthma. We performed a genome-wide search for expression quantitative trait loci (eQTL) in 1,111 human lung samples. The lung eQTL dataset was then used to inform asthma genetic studies reported in the literature. The top ranked lung eQTLs were integrated with the GWAS on asthma reported by the GABRIEL consortium to generate a Bayesian gene expression network for discovery of novel molecular pathways underpinning asthma. We detected 17,178 cis- and 593 trans- lung eQTLs, which can be used to explore the functional consequences of loci associated with lung diseases and traits. Some strong eQTLs are also asthma susceptibility loci. For example, rs3859192 on chr17q21 is robustly associated with the mRNA levels of GSDMA (P = 3.55 × 10(-151)). The genetic-gene expression network identified the SOCS3 pathway as one of the key drivers of asthma. The eQTLs and gene networks identified in this study are powerful tools for elucidating the causal mechanisms underlying pulmonary disease. This data resource offers much-needed support to pinpoint the causal genes and characterize the molecular function of gene variants associated with lung diseases.

Published

2012

48. Genome-wide joint meta-analysis of SNP and SNP-by-smoking interaction identifies novel loci for pulmonary function.

Author

Dana B Hancock, María Soler Artigas, Sina A Gharib, Amanda Henry, Ani Manichaikul, Adaikalavan Ramasamy, Daan W Loth, Medea Imboden, Beate Koch, Wendy L McArdle, Albert V Smith, Joanna Smolonska, Akshay Sood, Wenbo Tang, Jemma B Wilk, Guangju Zhai, Jing Hua Zhao, Hugues Aschard, Kristin M Burkart, Ivan Curjuric, Mark Eijgelsheim, Paul Elliott, Xiangjun Gu, Tamara B Harris, Christer Janson, Georg Homuth, Pirro G Hysi, Jason Z Liu, Laura R Loehr, Kurt Lohman, Ruth J F Loos, Alisa K Manning, Kristin D Marciante, Ma'en Obeidat, Dirkje S Postma, Melinda C Aldrich, Guy G Brusselle, Ting-hsu Chen, Gudny Eiriksdottir, Nora Franceschini, Joachim Heinrich, Jerome I Rotter, Cisca Wijmenga, O Dale Williams, Amy R Bentley, Albert Hofman, Cathy C Laurie, Thomas Lumley, Alanna C Morrison, Bonnie R Joubert, Fernando Rivadeneira, David J Couper, Stephen B Kritchevsky, Yongmei Liu, Matthias Wjst, Louise V Wain, Judith M Vonk, André G Uitterlinden, Thierry Rochat, Stephen S Rich, Bruce M Psaty, George T O'Connor, Kari E North, Daniel B Mirel, Bernd Meibohm, Lenore J Launer, Kay-Tee Khaw, Anna-Liisa Hartikainen, Christopher J Hammond, Sven Gläser, Jonathan Marchini, Peter Kraft, Nicholas J Wareham, Henry Völzke, Bruno H C Stricker, Timothy D Spector, Nicole M Probst-Hensch, Deborah Jarvis, Marjo-Riitta Jarvelin, Susan R Heckbert, Vilmundur Gudnason, H Marike Boezen, R Graham Barr, Patricia A Cassano, David P Strachan, Myriam Fornage, Ian P Hall, Josée Dupuis, Martin D Tobin, and Stephanie J London

Subjects

Genetics, QH426-470

Abstract

Genome-wide association studies have identified numerous genetic loci for spirometic measures of pulmonary function, forced expiratory volume in one second (FEV(1)), and its ratio to forced vital capacity (FEV(1)/FVC). Given that cigarette smoking adversely affects pulmonary function, we conducted genome-wide joint meta-analyses (JMA) of single nucleotide polymorphism (SNP) and SNP-by-smoking (ever-smoking or pack-years) associations on FEV(1) and FEV(1)/FVC across 19 studies (total N = 50,047). We identified three novel loci not previously associated with pulmonary function. SNPs in or near DNER (smallest P(JMA = )5.00×10(-11)), HLA-DQB1 and HLA-DQA2 (smallest P(JMA = )4.35×10(-9)), and KCNJ2 and SOX9 (smallest P(JMA = )1.28×10(-8)) were associated with FEV(1)/FVC or FEV(1) in meta-analysis models including SNP main effects, smoking main effects, and SNP-by-smoking (ever-smoking or pack-years) interaction. The HLA region has been widely implicated for autoimmune and lung phenotypes, unlike the other novel loci, which have not been widely implicated. We evaluated DNER, KCNJ2, and SOX9 and found them to be expressed in human lung tissue. DNER and SOX9 further showed evidence of differential expression in human airway epithelium in smokers compared to non-smokers. Our findings demonstrated that joint testing of SNP and SNP-by-environment interaction identified novel loci associated with complex traits that are missed when considering only the genetic main effects.

Published

2012

49. Impact of acute exposure to cigarette smoke on airway gene expression

Author

Corry-Anke Brandsma, Irene H. Heijink, Marc E. Lenburg, Alen Faiz, Dirkje S. Postma, Yaron Gesthalter, Ashley LeClerc, Xiaohui Xiao, Yuriy O. Alekseyev, Ehab Billatos, N.H.T. ten Hacken, M. van den Berge, Avrum Spira, Gang Liu, Wim Timens, Lifestyle Medicine (LM), Groningen Research Institute for Asthma and COPD (GRIAC), and Guided Treatment in Optimal Selected Cancer Patients (GUTS)

Subjects

Adult, Male, TOBACCO-SMOKE, 0301 basic medicine, Biochemistry & Molecular Biology, Adolescent, Physiology, Bronchi, Diagnostic evaluation, Biology, OBSTRUCTIVE PULMONARY-DISEASE, smoking, Tobacco smoke, Young Adult, 03 medical and health sciences, LUNG-CANCER, 0302 clinical medicine, Gene expression, BRONCHIAL EPITHELIAL-CELLS, Genetics, medicine, Humans, Cigarette smoke, Lung cancer, Aged, RELEASE, Smoking, SET ENRICHMENT ANALYSIS, Middle Aged, medicine.disease, Smoke exposure, epithelial cells, 030104 developmental biology, Gene Expression Regulation, PROBE LEVEL, airway, 030220 oncology & carcinogenesis, Acute exposure, Immunology, gene expression, DIAGNOSTIC EVALUATION, Metallothionein, Smoking Cessation, Female, Airway, cigarettes, NEUTROPHIL, Research Article

Abstract

© 2018 the American Physiological Society. Background: Understanding effects of acute smoke exposure (ASE) on airway epithelial gene expression and their relationship with the effects of chronic smoke exposure may provide biological insights into the development of smoking-related respiratory diseases. Methods: Bronchial airway epithelial cell brushings were collected from 63 individuals without recent cigarette smoke exposure and before and 24 h after smoking three cigarettes. RNA from these samples was profiled on Affymetrix Human Gene 1.0 ST microarrays. Results: We identified 91 genes differentially expressed 24 h after ASE (false discovery rate < 0.25). ASE induced genes involved in xenobiotic metabolism, oxidative stress, and inflammation and repressed genes related to cilium morphogenesis and cell cycle. While many genes altered by ASE are altered similarly in chronic smokers, metallothionein genes are induced by ASE and suppressed in chronic smokers. Metallothioneins are also suppressed in current and former smokers with lung cancer relative to those without lung cancer. Conclusions: Acute exposure to as little as three cigarettes and chronic smoking induce largely concordant changes in airway epithelial gene expression. Differences in short-term and long-term effects of smoking on metallothionein expression and their relationship to lung cancer requires further study given these enzymes’ role in the oxidative stress response.

Published

2018

50. Lung tissue gene-expression signature for the ageing lung in COPD

Author

Roy R Woldhuis, Don D. Sin, Yohan Bossé, Corry-Anke Brandsma, Wim Timens, Tristan V. de Jong, Maarten van den Berge, Victor Guryev, David C. Nickle, Alen Faiz, Dirkje S. Postma, Maaike de Vries, Groningen Research Institute for Asthma and COPD (GRIAC), Stem Cell Aging Leukemia and Lymphoma (SALL), and Guided Treatment in Optimal Selected Cancer Patients (GUTS)

Subjects

0301 basic medicine, Pulmonary and Respiratory Medicine, Senescence, Candidate gene, HOMEOSTASIS, Respiratory System, PHENOTYPES, OBSTRUCTIVE PULMONARY-DISEASE, PATHWAY, 03 medical and health sciences, Exon, Gene expression, Medicine, CIRCULATING LEUKOCYTES, XEDAR, Gene, HALLMARKS, COPD, Lung, business.industry, MTOR, medicine.disease, respiratory tract diseases, 030104 developmental biology, medicine.anatomical_structure, Ageing, SENESCENCE, Immunology, JUNCTION, Copd u Mechanisms, business

Abstract

IntroductionCOPD is a chronic, progressive, inflammatory disease of the lungs and the third leading cause of death worldwide. The current knowledge of the pathophysiology of COPD is limited and novel insights in underlying disease mechanisms are urgently needed. Since there are clear parallels between ageing and COPD, we investigated genes underlying lung ageing in general and abnormal lung ageing in COPD.MethodsWhole genome mRNA profiling was performed on lung tissue samples (n=1197) and differential gene expression with increasing age was analysed using an adjusted linear regression model. Subsequent pathway analysis was performed using GeneNetwork and the gene-expression signature was compared with lung ageing in the Genotype-Tissue Expression (GTEx) project. In a subset of patients with COPD (n=311) and non-COPD controls (n=270), we performed an interaction analysis between age and COPD to identify genes differentially expressed with age in COPD compared with controls, followed by gene set enrichment pathway analysis.ResultsWe identified a strong gene-expression signature for lung ageing with 3509 differentially expressed genes, of which 33.5% were found nominal significant in the GTEx project. Interestingly, we foundEDA2Ras a strong candidate gene for lung ageing. The age*COPD interaction analysis revealed 69 genes significantly differentially expressed with age between COPD and controls.ConclusionsOur study indicates that processes related to lung development, cell-cell contacts, calcium signalling and immune responses are involved in lung ageing in general. Pathways related to extracellular matrix, mammalian target of rapamycin signalling, splicing of introns and exons and the ribosome complex are proposed to be involved in abnormal lung ageing in COPD.

Published

2018