Epigenetic changes induced by developmental PFAS exposure in zebrafish associate with behavioral alterations in unexposed offspring

Per- and polyfluoroalkyl substances (PFAS) are widespread environmental contaminants with documented toxic effects, yet their multi- and transgenerational impacts on neurodevelopment and underlying mechanisms remain poorly understood. Here, we present a comprehensive study delineating the effects of developmental exposure to environmentally relevant concentrations of PFOS and PFBS on behavior, transcriptome, and genome-wide DNA methylation patterns in the directly exposed generation (F0) and their unexposed offspring (F1 and F2) in zebrafish. Both PFOS and PFBS altered larval behavior, linked to transcriptomic and DNA methylation changes in neuro-related pathways, even in the unexposed offspring. Importantly, specific DNA methylation changes in F0 were associated with behavioral outcomes in F2 animals, suggesting that these alterations could underlie transgenerational effects. Pathways associated with differentially methylated genes were prominently enriched for response to light and circadian regulation. Our findings demonstrate that developmental exposure to PFAS causes transgenerational behavioral effects in zebrafish and suggest that epigenetic changes induced by direct exposure may serve as markers for predicting outcomes in subsequent, unexposed generations. TEASERPFAS induce circadian-related epigenetic changes in zebrafish associated with behavioral impacts in unexposed offspring.