Schrott, RoseRajavel, MayaAcharya, KellyHuang, ZhiqingAcharya, ChaitanyaHawkey, AndrewPippen, EricaLyerly, H KimLevin, Edward DMurphy, Susan K2023-07-012023-07-012020-092045-23222045-2322https://hdl.handle.net/10161/28269Men consume the most nicotine and cannabis products but impacts on sperm epigenetics are poorly characterized. Evidence suggests that preconception exposure to these drugs alters offspring neurodevelopment. Epigenetics may in part facilitate heritability. We therefore compared effects of exposure to tetrahydrocannabinol (THC) and nicotine on DNA methylation in rat sperm at genes involved in neurodevelopment. Reduced representation bisulfite sequencing data from sperm of rats exposed to THC via oral gavage showed that seven neurodevelopmentally active genes were significantly differentially methylated versus controls. Pyrosequencing data revealed majority overlap in differential methylation in sperm from rats exposed to THC via injection as well as those exposed to nicotine. Neurodevelopmental genes including autism candidates are vulnerable to environmental exposures and common features may mediate this vulnerability. We discovered that autism candidate genes are significantly enriched for bivalent chromatin structure, suggesting this configuration may increase vulnerability of genes in sperm to disrupted methylation.SpermatozoaChromatinAnimalsRatsDisease Models, AnimalNicotineSequence Analysis, DNAAutistic DisorderDNA MethylationEpigenesis, GeneticCpG IslandsMaleGene Regulatory NetworksHigh-Throughput Nucleotide SequencingDronabinolJournal article2023-07-01