Abstract
Our previous study found a positive relationship between fetal nickel exposure and the risk of OFCs. The teratogenic mechanism of nickel is not clear. In this study, we aim to examine the mediating effect of DNA methylation on the association of nickel(Ni) exposure with NSOFC in fetuses. 10 cases and 10 controls was used for screening target gene by Illumina Infinium Methylation EPIC(850k) BeadChip. 36 cases and 78 controls was conducted to determine DNA methylation level of selected gene in umbilical cord blood by Mass spectrometry assay. Mediation analysis was used to evaluate the potential mediating effect of selected gene methylation on the relation between concentrations of Ni and the risk for NSOFC. In the discovery stage, ZEB1 gene was identified to be hypermethylated in both nickel exposure and NSOFC group for validation. In the verification stage, the overall average methylation level of ZEB1 was significant higher in NSOFC cases(median = 8.70, interquartile range(IQR): 5.75–11.53) as compared to controls (median = 5.35, IQR: 4.30–7.78). The risk for NSOFC was increased by 1.43-fold with hypermethylation of ZEB1. Significant correlation was observed between concentrations of Ni in umbilical cord and methylation level of ZEB1. The hypermethylation of ZEB1 had a mediating effect by 20.47 % of total effect of Ni on NSOFC risk. Hypermethylation of ZEB1 is associated with the risk for NSOFC and may partially explain the association between Ni exposure and NSOFC risk. Our findings provide new insights into the epigenetic mechanisms underlying NSOFC and suggesting potential targets for future therapeutic interventions.
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