Epigenome-Wide Meta-Analysis of Methylation in Children Related to Prenatal NO 2 Air Pollution Exposure
2016; National Institute of Environmental Health Sciences; Volume: 125; Issue: 1 Linguagem: Inglês
10.1289/ehp36
ISSN1552-9924
AutoresOlena Gruzieva, Cheng‐Jian Xu, Carrie V. Breton, Isabella Annesi‐Maesano, Josep M. Antó, Charles Auffray, Stéphane Ballereau, Tom Bellander, Jean Bousquet, Mariona Bustamante, Marie‐Aline Charles, Yvonne de Kluizenaar, Herman T. den Dekker, Liesbeth Duijts, Janine F. Felix, Ulrike Gehring, Mònica Guxens, Vincent V. W. Jaddoe, Soesma A. Jankipersadsing, Simon Kebede Merid, Juha Kere, Ashish Kumar, Nicolas Lemonnier, Johanna Lepeule, Wenche Nystad, Christian M. Page, Sviatlana Panasevich, Dirkje Postma, Rémy Slama, Jordi Sunyer, Cilla Söderhäll, Jin Yao, Stephanie J. London, Göran Pershagen, Gerard H. Koppelman, Erik Melén,
Tópico(s)Birth, Development, and Health
ResumoPrenatal exposure to air pollution is considered to be associated with adverse effects on child health. This may partly be mediated by mechanisms related to DNA methylation.We investigated associations between exposure to air pollution, using nitrogen dioxide (NO2) as marker, and epigenome-wide cord blood DNA methylation.We meta-analyzed the associations between NO2 exposure at residential addresses during pregnancy and cord blood DNA methylation (Illumina 450K) in four European and North American studies (n = 1,508) with subsequent look-up analyses in children ages 4 (n = 733) and 8 (n = 786) years. Additionally, we applied a literature-based candidate approach for antioxidant and anti-inflammatory genes. To assess influence of exposure at the transcriptomics level, we related mRNA expression in blood cells to NO2 exposure in 4- (n = 111) and 16-year-olds (n = 239).We found epigenome-wide significant associations [false discovery rate (FDR) p < 0.05] between maternal NO2 exposure during pregnancy and DNA methylation in newborns for 3 CpG sites in mitochondria-related genes: cg12283362 (LONP1), cg24172570 (3.8 kbp upstream of HIBADH), and cg08973675 (SLC25A28). The associations with cg08973675 methylation were also significant in the older children. Further analysis of antioxidant and anti-inflammatory genes revealed differentially methylated CpGs in CAT and TPO in newborns (FDR p < 0.05). NO2 exposure at the time of biosampling in childhood had a significant impact on CAT and TPO expression.NO2 exposure during pregnancy was associated with differential offspring DNA methylation in mitochondria-related genes. Exposure to NO2 was also linked to differential methylation as well as expression of genes involved in antioxidant defense pathways. Citation: Gruzieva O, Xu CJ, Breton CV, Annesi-Maesano I, Antó JM, Auffray C, Ballereau S, Bellander T, Bousquet J, Bustamante M, Charles MA, de Kluizenaar Y, den Dekker HT, Duijts L, Felix JF, Gehring U, Guxens M, Jaddoe VV, Jankipersadsing SA, Merid SK, Kere J, Kumar A, Lemonnier N, Lepeule J, Nystad W, Page CM, Panasevich S, Postma D, Slama R, Sunyer J, Söderhäll C, Yao J, London SJ, Pershagen G, Koppelman GH, Melén E. 2017. Epigenome-wide meta-analysis of methylation in children related to prenatal NO2 air pollution exposure. Environ Health Perspect 125:104-110; http://dx.doi.org/10.1289/EHP36.
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