Methylmercury (MeHg) is an environmental toxin known to damage the central nervous system. When pregnant women ingest seafood, which may contain accumulated MeHg, fetal development may be affected. The embryonic period, a time of major epigenetic change, is susceptible to epigenetic disruptions due to chemical exposure. Therefore, understanding the molecular mechanism underlying MeHg's effects on neuronal development requires consideration of epigenetic factors. In this study, we investigated epigenetic modifications in the synaptophysin (SYP) and discs large MAGUK scaffold protein 4 (DLG4) genes. LUHMES cells were exposed to 1 nM MeHg for 6 days during days 2-8 of neural differentiation. MeHg exposure significantly reduced the number of spikes observed on day 16 of differentiation. Both mRNA and protein expression levels of SYP and DLG4 were significantly decreased by MeHg exposure. Additionally, MeHg treatment reduced acetyl histone H3 levels associated with transcriptional activity in the SYP gene while increasing histone H3 lysine 27 tri-methylation (H3K27me3) levels related to transcriptional repression. Conversely, regarding the DLG4 gene, MeHg exposure increased H3K27me3 levels. Differential changes in DNA methylation (high and low methylation states) were observed in the SYP and DLG4 genes due to MeHg exposure depending on CpG site position. In conclusion, this study suggests that epigenetic changes, particularly histone modifications, contribute to decreased MeHg exposure-induced SYP and DLG4 expression during neuronal differentiation.
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