Impulsivity induced neuronal differentiation

Alcohol use disorder (AUD) represents an extensive global issue for disease and premature death. One facet of AUD is impulsivity, which is defined as a predisposition toward rapid, unplanned reactions to internal or external stimuli with decreased regard to the negative consequences of these reactions. Due to the potentially harmful consequences associated with impulsive decision making, impulsivity is considered an endophenotype for developing addictive behaviors. Interestingly, the dorsal hippocampus (dHip) has been revealed as an area of interest in addictive behaviors. The dHip is an important brain region involved in regulating behavioral adaptability and learning. Aberrant dHip function has been shown to contribute to impulsive and addictive behaviors. Differential reinforcement of low rates of behavior (DRL) schedules have demonstrated that the hippocampus is implicated in reward acquisition and impulsivity in humans and rodent models. Reward‐seeking induced impulsivity is thought to be driven via contextual recollection of drug‐induced euphoria to environmental cues, a process known to be regulated by the dHip. Our lab has previously demonstrated that adenosine A 2A receptor and ERK‐driven impulsive behavior potentiates hippocampal neuroblast proliferation. However, the fate of these precursor cells and the precise role of ERK signaling in conjunction with impulsive reward‐seeking remain unknown. Here, we demonstrate that DRL‐mediated impulsive reward‐seeking with the 2‐choice reaction time task (2‐CSRTT) increase the number of BrdU labeled cells in the dHip dentate gyrus. Our results also show a significant increase in colocalization of BrdU + and the neuronal marker NeuN + in impulsive animals compared to untrained controls. These results suggest that increased impulsivity may drive neuronal differentiation indicating potential regulation of the neurogenic process. Support or Funding Information This work was supported by the Samuel C. Johnson for Genomics of Addiction Program at Mayo Clinic, the Ulm Foundation, the Golby Foundation, the Sands Family, David Lehr Research Award from American Society for Pharmacology and Experimental Therapeutics, and National Institute on Alcohol Abuse and Alcoholism (AA018799). This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal .