Genome‐wide interaction study of early‐life smoking exposure on time‐to‐asthma onset in childhood
Background Asthma, a heterogeneous disease with variable age of onset, results from the interplay between genetic and environmental factors. Early‐life tobacco smoke (ELTS) exposure is a major asthma risk factor. Only a few genetic loci have been reported to interact with ELTS exposure in asthma. Ob...
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| Published in | Clinical and experimental allergy Vol. 49; no. 10; pp. 1342 - 1351 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Wiley Subscription Services, Inc
01.10.2019
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0954-7894 1365-2222 1365-2222 |
| DOI | 10.1111/cea.13476 |
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| Abstract | Background
Asthma, a heterogeneous disease with variable age of onset, results from the interplay between genetic and environmental factors. Early‐life tobacco smoke (ELTS) exposure is a major asthma risk factor. Only a few genetic loci have been reported to interact with ELTS exposure in asthma.
Objective
Our aim was to identify new loci interacting with ELTS exposure on time‐to‐asthma onset (TAO) in childhood.
Methods
We conducted genome‐wide interaction analyses of ELTS exposure on time‐to‐asthma onset in childhood in five European‐ancestry studies (totalling 8273 subjects) using Cox proportional‐hazard model. The results of all five genome‐wide analyses were meta‐analysed.
Results
The 13q21 locus showed genome‐wide significant interaction with ELTS exposure (P = 4.3 × 10−8 for rs7334050 within KLHL1 with consistent results across the five studies). Suggestive interactions (P < 5 × 10−6) were found at three other loci: 20p12 (rs13037508 within MACROD2; P = 4.9 × 10−7), 14q22 (rs7493885 near NIN; P = 2.9 × 10−6) and 2p22 (rs232542 near CYP1B1; P = 4.1 × 10−6). Functional annotations and the literature showed that the lead SNPs at these four loci influence DNA methylation in the blood and are located nearby CpG sites reported to be associated with exposure to tobacco smoke components, which strongly support our findings.
Conclusions and Clinical Relevance
We identified novel candidate genes interacting with ELTS exposure on time‐to‐asthma onset in childhood. These genes have plausible biological relevance related to tobacco smoke exposure. Further epigenetic and functional studies are needed to confirm these findings and to shed light on the underlying mechanisms. |
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| AbstractList | Asthma, a heterogeneous disease with variable age of onset, results from the interplay between genetic and environmental factors. Early-life tobacco smoke (ELTS) exposure is a major asthma risk factor. Only a few genetic loci have been reported to interact with ELTS exposure in asthma.BACKGROUNDAsthma, a heterogeneous disease with variable age of onset, results from the interplay between genetic and environmental factors. Early-life tobacco smoke (ELTS) exposure is a major asthma risk factor. Only a few genetic loci have been reported to interact with ELTS exposure in asthma.Our aim was to identify new loci interacting with ELTS exposure on time-to-asthma onset (TAO) in childhood.OBJECTIVEOur aim was to identify new loci interacting with ELTS exposure on time-to-asthma onset (TAO) in childhood.We conducted genome-wide interaction analyses of ELTS exposure on time-to-asthma onset in childhood in five European-ancestry studies (totalling 8273 subjects) using Cox proportional-hazard model. The results of all five genome-wide analyses were meta-analysed.METHODSWe conducted genome-wide interaction analyses of ELTS exposure on time-to-asthma onset in childhood in five European-ancestry studies (totalling 8273 subjects) using Cox proportional-hazard model. The results of all five genome-wide analyses were meta-analysed.The 13q21 locus showed genome-wide significant interaction with ELTS exposure (P = 4.3 × 10-8 for rs7334050 within KLHL1 with consistent results across the five studies). Suggestive interactions (P < 5 × 10-6 ) were found at three other loci: 20p12 (rs13037508 within MACROD2; P = 4.9 × 10-7 ), 14q22 (rs7493885 near NIN; P = 2.9 × 10-6 ) and 2p22 (rs232542 near CYP1B1; P = 4.1 × 10-6 ). Functional annotations and the literature showed that the lead SNPs at these four loci influence DNA methylation in the blood and are located nearby CpG sites reported to be associated with exposure to tobacco smoke components, which strongly support our findings.RESULTSThe 13q21 locus showed genome-wide significant interaction with ELTS exposure (P = 4.3 × 10-8 for rs7334050 within KLHL1 with consistent results across the five studies). Suggestive interactions (P < 5 × 10-6 ) were found at three other loci: 20p12 (rs13037508 within MACROD2; P = 4.9 × 10-7 ), 14q22 (rs7493885 near NIN; P = 2.9 × 10-6 ) and 2p22 (rs232542 near CYP1B1; P = 4.1 × 10-6 ). Functional annotations and the literature showed that the lead SNPs at these four loci influence DNA methylation in the blood and are located nearby CpG sites reported to be associated with exposure to tobacco smoke components, which strongly support our findings.We identified novel candidate genes interacting with ELTS exposure on time-to-asthma onset in childhood. These genes have plausible biological relevance related to tobacco smoke exposure. Further epigenetic and functional studies are needed to confirm these findings and to shed light on the underlying mechanisms.CONCLUSIONS AND CLINICAL RELEVANCEWe identified novel candidate genes interacting with ELTS exposure on time-to-asthma onset in childhood. These genes have plausible biological relevance related to tobacco smoke exposure. Further epigenetic and functional studies are needed to confirm these findings and to shed light on the underlying mechanisms. BackgroundAsthma, a heterogeneous disease with variable age of onset, results from the interplay between genetic and environmental factors. Early‐life tobacco smoke (ELTS) exposure is a major asthma risk factor. Only a few genetic loci have been reported to interact with ELTS exposure in asthma.ObjectiveOur aim was to identify new loci interacting with ELTS exposure on time‐to‐asthma onset (TAO) in childhood.MethodsWe conducted genome‐wide interaction analyses of ELTS exposure on time‐to‐asthma onset in childhood in five European‐ancestry studies (totalling 8273 subjects) using Cox proportional‐hazard model. The results of all five genome‐wide analyses were meta‐analysed.ResultsThe 13q21 locus showed genome‐wide significant interaction with ELTS exposure (P = 4.3 × 10−8 for rs7334050 within KLHL1 with consistent results across the five studies). Suggestive interactions (P < 5 × 10−6) were found at three other loci: 20p12 (rs13037508 within MACROD2; P = 4.9 × 10−7), 14q22 (rs7493885 near NIN; P = 2.9 × 10−6) and 2p22 (rs232542 near CYP1B1; P = 4.1 × 10−6). Functional annotations and the literature showed that the lead SNPs at these four loci influence DNA methylation in the blood and are located nearby CpG sites reported to be associated with exposure to tobacco smoke components, which strongly support our findings.Conclusions and Clinical RelevanceWe identified novel candidate genes interacting with ELTS exposure on time‐to‐asthma onset in childhood. These genes have plausible biological relevance related to tobacco smoke exposure. Further epigenetic and functional studies are needed to confirm these findings and to shed light on the underlying mechanisms. Asthma, a heterogeneous disease with variable age of onset, results from the interplay between genetic and environmental factors. Early-life tobacco smoke (ELTS) exposure is a major asthma risk factor. Only a few genetic loci have been reported to interact with ELTS exposure in asthma. Our aim was to identify new loci interacting with ELTS exposure on time-to-asthma onset (TAO) in childhood. We conducted genome-wide interaction analyses of ELTS exposure on time-to-asthma onset in childhood in five European-ancestry studies (totalling 8273 subjects) using Cox proportional-hazard model. The results of all five genome-wide analyses were meta-analysed. The 13q21 locus showed genome-wide significant interaction with ELTS exposure (P = 4.3 × 10 for rs7334050 within KLHL1 with consistent results across the five studies). Suggestive interactions (P < 5 × 10 ) were found at three other loci: 20p12 (rs13037508 within MACROD2; P = 4.9 × 10 ), 14q22 (rs7493885 near NIN; P = 2.9 × 10 ) and 2p22 (rs232542 near CYP1B1; P = 4.1 × 10 ). Functional annotations and the literature showed that the lead SNPs at these four loci influence DNA methylation in the blood and are located nearby CpG sites reported to be associated with exposure to tobacco smoke components, which strongly support our findings. We identified novel candidate genes interacting with ELTS exposure on time-to-asthma onset in childhood. These genes have plausible biological relevance related to tobacco smoke exposure. Further epigenetic and functional studies are needed to confirm these findings and to shed light on the underlying mechanisms. Background Asthma, a heterogeneous disease with variable age of onset, results from the interplay between genetic and environmental factors. Early‐life tobacco smoke (ELTS) exposure is a major asthma risk factor. Only a few genetic loci have been reported to interact with ELTS exposure in asthma. Objective Our aim was to identify new loci interacting with ELTS exposure on time‐to‐asthma onset (TAO) in childhood. Methods We conducted genome‐wide interaction analyses of ELTS exposure on time‐to‐asthma onset in childhood in five European‐ancestry studies (totalling 8273 subjects) using Cox proportional‐hazard model. The results of all five genome‐wide analyses were meta‐analysed. Results The 13q21 locus showed genome‐wide significant interaction with ELTS exposure (P = 4.3 × 10−8 for rs7334050 within KLHL1 with consistent results across the five studies). Suggestive interactions (P < 5 × 10−6) were found at three other loci: 20p12 (rs13037508 within MACROD2; P = 4.9 × 10−7), 14q22 (rs7493885 near NIN; P = 2.9 × 10−6) and 2p22 (rs232542 near CYP1B1; P = 4.1 × 10−6). Functional annotations and the literature showed that the lead SNPs at these four loci influence DNA methylation in the blood and are located nearby CpG sites reported to be associated with exposure to tobacco smoke components, which strongly support our findings. Conclusions and Clinical Relevance We identified novel candidate genes interacting with ELTS exposure on time‐to‐asthma onset in childhood. These genes have plausible biological relevance related to tobacco smoke exposure. Further epigenetic and functional studies are needed to confirm these findings and to shed light on the underlying mechanisms. |
| Author | Demenais, Florence Henderson, A. John Laprise, Catherine Dizier, Marie‐Hélène Cookson, William O. C. M. Bouzigon, Emmanuelle Kogevinas, Manolis Margaritte‐Jeannin, Patricia Sugier, Pierre‐Emmanuel Moffatt, Miriam F. Lathrop, Mark Mutius, Erika Sarnowski, Chloé Minelli, Cosetta Granell, Raquel Ege, Markus J. |
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| Copyright | 2019 John Wiley & Sons Ltd 2019 John Wiley & Sons Ltd. Copyright © 2019 John Wiley & Sons Ltd |
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| Keywords | childhood asthma environmental tobacco smoke exposure time-to-asthma onset gene-environment interaction |
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| Notes | Funding information This work was supported by the French National Agency for Research (ANR‐11‐BSV1‐027‐GWIS‐AM, ANR‐15‐EPIG‐0004‐05 RESET‐AID), Université Pierre et Marie Curie and Région Ile‐de‐France (DIM‐SEnT) doctoral fellowships, the Fonds de Dotation Recherche en Santé Respiratoire. The UK Medical Research Council and Wellcome Trust (grant: 102215/2/13/2) and the University of Bristol provide core support for ALSPAC. The Canada Research Chair held by C Laprise and the funding supports from Canadian Institutes of Health Research (CIHR) enabled the maintenance and continuation of the SLSJ asthma study. C. Laprise is the director of the Asthma Strategic Group of the Respiratory Health Network of the Fonds de la recherche en santé du Québec (FRSQ) and member of Allergen network. Genotyping was supported by grants from the European Commission (No. LSHB‐CT‐2006‐018996‐GABRIEL) and the Wellcome Trust (WT084703MA). GABRIELA was supported by the European Commission as part of GABRIEL (a multidisciplinary study to identify the genetic and environmental causes of asthma in the European Community), European Commission Research Grant (LSHB‐CT‐2006‐018996) and by the European Research Council (ERS‐2009‐AdG, project HERA 250268). ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 ObjectType-Article-2 ObjectType-Feature-1 content type line 23 |
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Asthma, a heterogeneous disease with variable age of onset, results from the interplay between genetic and environmental factors. Early‐life tobacco... Asthma, a heterogeneous disease with variable age of onset, results from the interplay between genetic and environmental factors. Early-life tobacco smoke... BackgroundAsthma, a heterogeneous disease with variable age of onset, results from the interplay between genetic and environmental factors. Early‐life tobacco... |
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| SubjectTerms | Asthma Asthma - genetics Child Childhood childhood asthma Children Chromosome 13 Chromosome 20 CpG islands Cytochrome P-450 CYP1B1 - genetics Cytoskeletal Proteins - genetics DNA methylation DNA Repair Enzymes - genetics Environmental factors environmental tobacco smoke exposure Female Gene loci Genetic Predisposition to Disease gene‐environment interaction Genome-Wide Association Study Genomes Humans Hydrolases - genetics Male Microfilament Proteins - genetics Nuclear Proteins - genetics Polymorphism, Single Nucleotide Risk factors Single-nucleotide polymorphism Smoke Smoking time‐to‐asthma onset Tobacco Tobacco smoke Tobacco Smoke Pollution - adverse effects |
| Title | Genome‐wide interaction study of early‐life smoking exposure on time‐to‐asthma onset in childhood |
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