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Genome-Wide DNA Methylation in Peripheral Blood and Long-Term Exposure to Source-Specific Transportation Noise and Air Pollution: The SAPALDIA Study

Ikenna C. Eze, Ayoung Jeong, Emmanuel Schaffner, Faisal I. Rezwan, Akram Ghantous, María Foraster, Danielle Vienneau, Florian Kronenberg, Zdenko Herceg, Paolo Vineis, Mark Brink, Jean Marc Wunderli, Christian Schindler, Christian Cajochen, Martin Röösli, John W. Holloway, Medea Imboden, Nicole Probst‐Hensch

2020Environmental Health Perspectives94 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Few epigenome-wide association studies (EWAS) on air pollutants exist, and none have been done on transportation noise exposures, which also contribute to environmental burden of disease. OBJECTIVE: We performed mutually independent EWAS on transportation noise and air pollution exposures. METHODS: ). We performed candidate (CpG-based; cross-systemic phenotypes, combined into "allostatic load") and agnostic (DMR-based) pathway enrichment tests, and replicated previously reported air pollution EWAS signals. RESULTS: ). CONCLUSIONS: Mutually independent DNA methylation was associated with source-specific transportation noise and air pollution exposures, with distinct and shared enrichments for pathways related to inflammation, cellular development, and immune responses. These findings contribute in clarifying the pathways linking these exposures and age-related diseases but need further confirmation in the context of mediation analyses. https://doi.org/10.1289/EHP6174.

Topics & Concepts

DNA methylationPollutantAir pollutionMethylationParticulatesCpG siteMedicineEnvironmental scienceBiologyEnvironmental healthGeneticsGene expressionEcologyGeneNoise Effects and ManagementAir Quality and Health ImpactsHealth, Environment, Cognitive Aging
Genome-Wide DNA Methylation in Peripheral Blood and Long-Term Exposure to Source-Specific Transportation Noise and Air Pollution: The SAPALDIA Study | Litcius