Abstract
ABSTRACTBackgroundBirth cohorts of women living in highly industrialized areas provide an ideal setting for studying the correlation between environmental exposure and health.ObjectivesTo evaluate serum microRNA expression in response to environmental contaminants in 68 healthy pregnant women from the NEHO birth cohort.MethodsSerum contaminants were determined by GC-MS/MS and ICP-MS/MS. Serum microRNA expression was determined by qPCR. Associations between miRNA ΔCTs and single serum element levels were tested by linear regression models, while whole mixture effect was studied by WQS regression analysis.ResultsIn separate regression models, a positive association was found between miR-223 ΔCT and concentrations of Se and Zn, while a negative association between miR-30b and Hg levels was observed. Similar regression models were also conducted using tertiles of each chemical as independent variables. In this setting, the Let-7a ΔCT was decreased in the comparison between medium and low tertiles of Se. The highest tertiles of Zn and p,p’-DDE showed a significant association with increasing levels of miR-223 ΔCT with respect to the lower tertile; moreover, miR-30b ΔCT was reduced in the comparison between high and low tertiles of Hg. The observed data were confirmed by fold-change analysis. A WQS analysis built on tertiles of contaminant distribution revealed a significant mixture effect on the expression of the analyzed miRNAs. The inverse association between Let-7a ΔCT and the WQS index was dominated by Zn, Se, Cu, Hg and HCB. Moreover, miR-223 ΔCT was positively associated with the WQS index, where p,p’-DDE, Zn and Se showed the greatest contributions to the association. Conversely, the reduction of miR-30b ΔCT was mainly driven by Hg and Se.DiscussionThis study allowed us to characterize the role of prolonged exposure to environmental contaminants influencing the expression of circulating miRNAs in the serum of women in the last trimester of pregnancy.
Publisher
Cold Spring Harbor Laboratory