Air Pollution Exposure is Associated with Gene Expression in Children

Overview

Journal Environ Epigenet

Publisher Oxford University Press

Date 2024 Dec 26

PMID 39723337

Authors

Siddhartha Das

Amanda Rundblad

Irene Fontes Marques

Ana Goncalves Soares

Vincent W Jaddoe

Martine Vrijheid

Mark Nieuwenhuijsen

Joost Verlouw

Jason Matthews

Kirsten B Holven

Magne Thoresen

Nicholas J Timpson

Janine F Felix

Stine M Ulven

Affiliations

Soon will be listed here.

Abstract

Environmental exposures, including air pollutants and lack of natural spaces, are associated with suboptimal health outcomes in children. We aimed to study the associations between environmental exposures and gene expression in children. Associations of exposure to particulate matter (PM) with diameter <2.5 (PM) and < 10 (PM) micrometers, nitrogen dioxide, green spaces, and blue space, with whole-blood gene expression were explored in children from the Dutch Generation R Study ( = 172). Analyses were adjusted for age, sex, batch, maternal education, and area socioeconomic status. Follow-up analysis was carried out using lymphoblastoid cell line gene expression in children from the ALSPAC Study ( = 946). Gene set enrichment analysis (GSEA) using hallmark and immune gene sets from the molecular signature database was carried out to identify significantly over-represented gene sets for insights into biological mechanisms Exposure to PM was associated with expression of 86 genes in discovery analyses in the Generation R Study [false discovery rate (FDR)-adjusted -value < .25]. Of these, PM was also associated with expression in the same direction in follow-up analysis (FDR-adjusted -value < .05). The remaining exposures showed much fewer associations in the discovery analyses. GSEA using PM association results for both cohorts indicated suppression of gene sets related to interferon response and response to bacterial and viral exposure. In conclusion, gene expression analysis performed in two independent cohorts suggests that PM exposure in children may be involved in interferon and microbial infection responses.

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