Newborn DNA-methylation, childhood lung function, and the risks of asthma and COPD across the life course.
den Dekker HT., Burrows K., Felix JF., Salas LA., Nedeljkovic I., Yao J., Rifas-Shiman SL., Ruiz-Arenas C., Amin N., Bustamante M., DeMeo DL., Henderson AJ., Howe CG., Hivert M-F., Ikram MA., de Jongste JC., Lahousse L., Mandaviya PR., van Meurs JB., Pinart M., Sharp GC., Stolk L., Uitterlinden AG., Anto JM., Litonjua AA., Breton CV., Brusselle GG., Sunyer J., Smith GD., Relton CL., Jaddoe VWV., Duijts L.
RationaleWe aimed to identify differentially methylated regions (DMRs) in cord blood DNA associated with childhood lung function, asthma and chronic obstructive pulmonary disease (COPD) across the life course.MethodsWe meta-analysed epigenome-wide data of 1688 children from five cohorts to identify cord blood DMRs and their annotated genes, in relation to forced expiratory volume in 1 s (FEV1), FEV1/forced vital capacity (FVC) ratio and forced expiratory flow at 75% of FVC at ages 7-13 years. Identified DMRs were explored for associations with childhood asthma, adult lung function and COPD, gene expression and involvement in biological processes.ResultsWe identified 59 DMRs associated with childhood lung function, of which 18 were associated with childhood asthma and nine with COPD in adulthood. Genes annotated to the top 10 identified DMRs were HOXA5, PAOX, LINC00602, ABCA7, PER3, CLCA1, VENTX, NUDT12, PTPRN2 and TCL1A. Differential gene expression in blood was observed for 32 DMRs in childhood and 18 in adulthood. Genes related with 16 identified DMRs were associated with respiratory developmental or pathogenic pathways.InterpretationOur findings suggest that the epigenetic status of the newborn affects respiratory health and disease across the life course.