Abstract
BackgroundArsenic (As) exposure through drinking water is a global public health concern. Epigenetic dysregulation including changes in DNA methylation (DNAm), may be involved in arsenic toxicity. Epigenome-wide association studies (EWAS) of arsenic exposure have been restricted to single populations and comparison across EWAS has been limited by methodological differences. Leveraging data from epidemiological studies conducted in Chile and Bangladesh, we use a harmonized data processing and analysis pipeline and meta-analysis to combine results from four EWAS.MethodsDNAm was measured among adults in Chile with and without prenatal and early-life As exposure in PBMCs and buccal cells (N = 40, 850K array) and among men in Bangladesh with high and low As exposure in PBMCs (N = 32, 850K array; N = 48, 450K array). Linear models were used to identify differentially methylated positions (DMPs) and differentially variable positions (DVPs) adjusting for age, smoking, cell type, and sex in the Chile cohort. Probes common across EWAS were meta-analyzed using METAL, and differentially methylated and variable regions (DMRs and DVRs, respectively) were identified using comb-p. KEGG pathway analysis was used to understand biological functions of DMPs and DVPs.ResultsIn a meta-analysis restricted to PBMCs, we identified one DMP and 23 DVPs associated with arsenic exposure; including buccal cells, we identified 3 DMPs and 19 DVPs (FDR < 0.05). Using meta-analyzed results, we identified 11 DMRs and 11 DVRs in PBMC samples, and 16 DMRs and 19 DVRs in PBMC and buccal cell samples. One region annotated to LRRC27 was identified as a DMR and DVR. Arsenic-associated KEGG pathways included lysosome, autophagy, and mTOR signaling, AMPK signaling, and one carbon pool by folate.ConclusionsUsing a two-step process of (1) harmonized data processing and analysis and (2) meta-analysis, we leverage four DNAm datasets from two continents of individuals exposed to high levels of As prenatally and during adulthood to identify DMPs and DVPs associated with arsenic exposure. Our approach suggests that standardizing analytical pipelines can aid in identifying biological meaningful signals.
Highlights
Arsenic (As) exposure through drinking water is a global public health concern
A DNA methylation (DNAm) analysis of peripheral blood mononuclear cells (PBMCs) and buccal cell samples performed among the same study participants. b DNAm analyses in Bangladesh studies conducted in PBMCs. c Cutoff of ≥ 100 μg/L water arsenic used to classify arsenic exposure for HumanMethylation BeadChip (450K) analyses and 104 μg/L water arsenic used to classify arsenic exposure for Infinium MethylationEPIC BeadChip (850K) analyses
In models adjusted for age, smoking status, cell type proportions, and sex, after correcting for multiple comparisons, we identified 5 differentially variable positions (DVPs) in the Chile PBMC study, 7 DVPs in the Chile buccal cell study, 3 DVPs in the Bangladesh 450K study, and 51 DVPs in the Bangladesh 850K study (FDR < 0.05)
Summary
Epigenetic dysregulation including changes in DNA methylation (DNAm), may be involved in arsenic toxicity. Associations between arsenic exposure and latent disease risk may be mediated by epigenetic mechanisms including dysregulation of DNA methylation (DNAm) [5, 6]. Arsenic exposure has been associated with changes in global levels of DNAm [7]. Previous EWAS have commonly studied prenatal arsenic exposure and DNAm measured in cord blood and placenta samples among birth cohorts in the United States (US) (N = 136; 343) [10, 11], Bangladesh (N = 44; 45; 113; 127) [12,13,14,15], Mexico (N = 38) [16], and Taiwan (N = 64) [17].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
