Abstract
Epigenetic and transcriptional mechanisms are key contributors to alcohol use disorder (AUD). However, a better understanding of the specific genes, transcripts, and chromatin marks affected is necessary to inform novel pharmacotherapies. Here, we systematically investigate the genome-wide epigenetic and transcriptomic effects of ethanol across key brain regions relevant to AUD and assess how these outcomes differ between acute and chronic exposure in male C57BL/6J mice. We show that alcohol-derived acetate contributes to histone acetylation in the brain in response to acute or chronic exposure, with a broader and more robust effect following repeated exposure. Further, we find that chromatin and transcriptomic changes elicited by acute or chronic ethanol exposure are predominantly specific to brain region and observe more robust dysregulation of gene and transcript expression following acute exposure. We show that ethanol-induced transcriptional changes are paradigm dependent in some brain regions, most strikingly in the ventral hippocampus. Overall, our results systematically illuminate and compare key epigenetic and transcriptomic outcomes linked to acute and chronic ethanol exposure, which will guide the development of future therapeutic interventions.