Ecotoxicology and Environmental Safety (Jan 2021)
Hypermethylation of WNT3A gene and non-syndromic cleft lip and/or palate in association with in utero exposure to lead: A mediation analysis
Abstract
Objectives: We aim to investigate association between WNT3A methylation and risk of non-syndromic cleft lip and/or palate (NSCL/P), and examine mediating effect of WNT3A methylation on the association of NSCL/P and lead (Pb) exposure in fetuses. Methods: DNA methylation of WNT3A in umbilical cord blood was determined among 59 NSCL/P cases and 118 non-malformed controls. Mediation analysis was performed to evaluate the potential mediating effect of WNT3A methylation on association between concentrations of Pb in umbilical cord and risk for NSCL/P. Additionally, an animal experiment in which cleft palates were induced by lead acetate was conducted. Results: The overall average methylation level of WNT3A was significant higher in NSCL/P cases as compared to controls. The risk for NSCL/P was increased by 1.90-fold with hypermethylation of WNT3A. Significant correlation was observed between concentrations of Pb in umbilical cord and methylation level of WNT3A. The hypermethylation of WNT3A had a mediating effect by 9.32% of total effect of Pb on NSCL/P risk. Gender-specific association between WNT3A methylation and NSCL/P was observed in male fetuses, and the percentage of the mediating effect increased to 14.28%. Animal experiment of mice showed that maternal oral exposure to lead acetate may result in cleft palate in offspring. Conclusion: Hypermethylation of WNT3A was associated with the risk for NSCL/P and may be partly explain the association between exposure to Pb and risk for NSCL/P. The teratogenic and fetotoxic effects of Pb were found in mice.
