TY - JOUR T1 - An integrative genomics approach identifies new asthma pathways related to air pollution exposure JF - European Respiratory Journal JO - Eur Respir J DO - 10.1183/13993003.congress-2015.OA1455 VL - 46 IS - suppl 59 SP - OA1455 AU - Anna Gref AU - Simon Kebede Merid AU - Olena Gruzieva AU - Stéphane Ballereau AU - Allan Becker AU - Tom Bellander AU - Anna Bergström AU - Yohan Bossé AU - Matteo Bottai AU - Moira Chan-Yeung AU - Elaine Fuertes AU - Despo Ierodakoniou AU - Ruiwei Jiang AU - Michael S. Kobor AU - Michal Korek AU - Anita L. Kozyrskyj AU - Ashish Kumar AU - Nathanael Lemonnier AU - Elaina MacIntyre AU - David Nickle AU - Ma'en Obeidat AU - Johann Pellet AU - Marie Standl AU - Annika Sääf AU - Cilla Söderhäll AU - Carla M.T. Tiesler AU - Maarten Van den Berge AU - Judith M. Vonk AU - Hita Vora AU - Cheng-Jian Xu AU - Josep M. Antó AU - Charles Auffray AU - Michael Brauer AU - Jean Bousquet AU - Bert Brunekreef AU - W. James Gauderman AU - Joachim Heinrich AU - Juha Kere AU - Gerard Koppelman AU - Dirkje Postma AU - Christopher Carlsten AU - Göran Pershagen AU - Erik Melén Y1 - 2015/09/01 UR - http://erj.ersjournals.com/content/46/suppl_59/OA1455.abstract N2 - The evidence on traffic-related air pollution exposure (TRAP) and incident childhood asthma is inconsistent, and may depend on genetic factors.We aimed to identify mechanisms of childhood asthma using genome-wide SNP data and individual TRAP exposure, and to evaluate the effect of susceptibility SNPs and TRAP on DNA-methylation and gene expression.We used LUR models to estimate individual outdoor NO2 levels at the birth address and performed a genome-wide interaction study for doctor's diagnosis of asthma up to 8 years in three European birth cohorts with replication in two North American cohorts (n=3,322 subjects). The top GWIS and replicated SNPs were assessed for methQTL effects in peripheral blood cells and eQTL effects in human lung specimens. Short- and long-term TRAP associations with methylation patterns and TRAP-induced differential gene expression in blood cells were also assessed.The novel loci MAGI1, B4GALT5, MOCOS and DLG2, and the previously lung disease linked locus ADCY2 showed strong evidence for interaction with TRAP (genome-wide significance or replication). The top replication SNP rs686237 was identified as an eQTL for B4GALT5 (p=1.18x10-17) and affected TRAP-induced gene expression (p=0.03). Differential methylation following TRAP exposure was seen for DLG2, ADCY2, MAGI1 and MOCOS. Identified genes belong to the guanylate kinase, sphingolipid and calcium signaling pathways, suggesting involvement in asthma pathogenesis.Our results indicate that gene-environment interactions are important for asthma development and that functional genomics analyses in conjunction with environmental exposures may give valuable insights about pathophysiologic mechanisms. ER -