International Journal of Molecular Sciences | 2025, 26(16), 7981; | https://doi.org/10.3390/ijms26167981
Neethu Mohan & Moinak Banerjee
Fetal exposure to antiseizure medications (ASMs) can impact organogenesis, resulting in elevated risk of congenital malformations. Despite longstanding clinical awareness of the teratogenic potential of ASMs, the molecular mechanisms remain largely unexplored. To address this multisystem impact of ASMs, an OMIC-based approach was considered to understand the impact of ASMs on methylome and subsequently on proteome and how folic acid (FA) supplementation can counter the teratogenic impact. The study employed an established in vitro embryonic cell line model system, treated with varying concentrations of first-generation ASMs, alone and in combination with FA. Integrated analyses included quantification of global DNA methylation, expression analysis of key epigenetic regulators (DNMTs and TETs), genome-wide methylation profiling using the 935K EPIC array, and LC-MS/MS-based proteomics analysis. The study identified that ASMs can induce global DNA hypomethylation, which was likely to be impacted by dysregulation of DNMT and TET expression. Interestingly, FA co-treatment partially restored DNA methylation as evidenced by global DNA methylation and epigenetic gene expression, and also by compensatory effect via one-carbon metabolism. Genome-wide DNA methylation revealed site-specific hypermethylation at key developmental genes, several of which were reversed with FA. Proteomics analysis identified downregulation of developmentally critical proteins, including those linked to key metabolic processes, while FA co-treatment reversed expression of several such proteins. Integrative methylome–proteome analysis revealed the coordinated regulation of target genes that are linked to congenital abnormalities. Together, these findings offer mechanistic insight into ASM-induced teratogenesis and support FA’s potential to mitigate epigenetic and proteomic disruptions. This integrated OMICs based approach identifies key biomarkers which can be used for therapeutic monitoring and help in optimizing maternal epilepsy management.
