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RESEARCH PRODUCT
Shared DNA methylation signatures in childhood allergy: The MeDALL study
Cheng-jian XuOlena GruzievaCancan QiAna EspluguesUlrike GehringAnna BergströmDan MasonLeda ChatziDaniela PortaKarin Lodrup CarlsenNour BaïzAnne-marie MadoreHarri AleniusBianca Van RijkomSoesma JankipersadsingPieter Van Der VliesInger KullMarianne Van HageMariona BustamanteAitana LertxundiMatias TorrentGillian SantorelliMaria Pia FantiniVegard HovlandGiancarlo PesceNanna FyhrquistTiina LaatikainenMartijn C. NawijnYang LiCisca WijmengaMihai NeteaJean BousquetJosep AntoCatherine LapriseTari HaahtelaIsabella Annesi-maesanoKai-håkon CarlsenDavide GoriManolis KogevinasJohn WrightCilla SöderhällJudith VonkJordi SunyerErik MelénGerard H. KoppelmanMaria Fantinisubject
0301 basic medicineMaleAllergyMESH: Asthmalnfectious Diseases and Global Health Radboud Institute for Molecular Life Sciences [Radboudumc 4]EczemaImmunoglobulin EEpigenesis GeneticCohort Studies0302 clinical medicineMESH: DNA MethylationMESH: ChildImmunology and AllergyMedicineMESH: Epigenesis GeneticChildMESH: CpG IslandsMESH: Cohort StudiesDNA methylationbiologyMESH: Immunoglobulin EEpigeneticMethylation3. Good healthCpG site030220 oncology & carcinogenesisChild PreschoolDNA methylationMESH: Rhinitis AllergicFemaleEpigeneticsIgEAdolescentMESH: HypersensitivityImmunologyeducationSingle-nucleotide polymorphismArticle03 medical and health sciencesMESH: Cross-Sectional StudieschildrenHypersensitivityHumansEpigeneticsAsthmaMESH: AdolescentMESH: Humansbusiness.industryMESH: TranscriptomeMESH: Child PreschoolImmunoglobulin Emedicine.diseaseallergyRhinitis AllergicAsthmaMESH: Male030104 developmental biologyCross-Sectional StudiesMESH: Eczema3121 General medicine internal medicine and other clinical medicineImmunologybiology.proteinCpG IslandsbusinessTranscriptomeMESH: Female[SDV.MHEP]Life Sciences [q-bio]/Human health and pathologydescription
Contains fulltext : 232514.pdf (Publisher’s version ) (Open Access) BACKGROUND: Differential DNA methylation associated with allergy might provide novel insights into the shared or unique etiology of asthma, rhinitis, and eczema. OBJECTIVE: We sought to identify DNA methylation profiles associated with childhood allergy. METHODS: Within the European Mechanisms of the Development of Allergy (MeDALL) consortium, we performed an epigenome-wide association study of whole blood DNA methylation by using a cross-sectional design. Allergy was defined as having symptoms from at least 1 allergic disease (asthma, rhinitis, or eczema) and positive serum-specific IgE to common aeroallergens. The discovery study included 219 case patients and 417 controls at age 4 years and 228 case patients and 593 controls at age 8 years from 3 birth cohorts, with replication analyses in 325 case patients and 1111 controls. We performed additional analyses on 21 replicated sites in 785 case patients and 2124 controls by allergic symptoms only from 8 cohorts, 3 of which were not previously included in analyses. RESULTS: We identified 80 differentially methylated CpG sites that showed a 1% to 3% methylation difference in the discovery phase, of which 21 (including 5 novel CpG sites) passed genome-wide significance after meta-analysis. All 21 CpG sites were also significantly differentially methylated with allergic symptoms and shared between asthma, rhinitis, and eczema. The 21 CpG sites mapped to relevant genes, including ACOT7, LMAN3, and CLDN23. All 21 CpG sties were differently methylated in asthma in isolated eosinophils, and 10 were replicated in respiratory epithelium. CONCLUSION: Reduced whole blood DNA methylation at 21 CpG sites was significantly associated with childhood allergy. The findings provide novel insights into the shared molecular mechanisms underlying asthma, rhinitis, and eczema.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-03-01 |