Repeated drug use alters the expression of hundreds of genes in reward-related brain regions, leading to maladaptive neuroadaptations and compulsive drug-seeking behaviors. Treatment strategies that have the ability to reverse or normalize the extensive transcriptional dysregulation caused by chronic drug use may have therapeutic utility. Recently, epigenetic pharmacotherapies have been shown to ameliorate psychostimulant- and opioid-induced transcriptional changes in animal models of substance use disorder (SUD). In particular, our research has revealed that the epigenetic reader protein, BRD4, is elevated in the nucleus accumbens and recruited to promoter regions of addiction-related genes. Additionally, we have found that pharmacological inhibition of BET proteins (BRD4, BRD3, and BRD2) attenuates transcriptional and behavioral responses to cocaine. In newer studies, we are investigating  selective and safer approaches to target BET proteins. For example, we revealed that RVX-208, a clinically tested, BD2-selective BET inhibitor, attenuated cocaine-induced behavioral and transcriptional responses without causing side effects associated with non-selective BET inhibitors. In ongoing studies, our goal is to uncover the role of individual BET proteins and non-bromodomain BRD4 interactions involved in drug-seeking behaviors. Ultimately, these experiments may yield exciting new therapeutic avenues for SUD.

For additional information, please see our recent publications: PMID: 35314160, PMID: 32946883, PMID: 34757001, PMID: 31306644, PMID: 30504275, PMID: 26558777.