Adenosine A2A Receptor Driven Impulsivity Promotes Cue‐Dependent Reward Seeking Behavior and Increases Hippocampal Immature Neurons

Mice lacking the ethanol‐sensitive equilibrative nucleoside adenosine transporter 1 (ENT1 –/– ) display enhanced goal‐directed behaviors due to decreased adenosine A 2A R function. However, the role of A 2A R signaling in the regulation of impulsivity remains unknown. Using Pavlovian conditioning, second‐order schedule discrimination, and the 5‐choice serial reaction time task (5‐CSRTT), which incorporates differential‐reward of low rate (DRL) schedules, we reveal that deficits in A 2A R function promote impulsivity. ENT1 –/– mice display exaggerated impulsive responses and faster reaction times to retrieve reward during conditioning and extinction. Interestingly, our results show that basal ERK1/2 phosphorylation is reduced in the dorsal hippocampus (dHPC) of ENT1 –/– mice and that impulsive Pavlovian conditioning significantly increases ERK1/2 phosphorylation. Subsequently, we validate that inhibition of A 2A R promotes impulsivity during Pavlovian conditioning and the 5‐CSRTT. In addition to increased ERK1/2 phosphorylation, mice demonstrating exaggerated impulsivity as a result of A 2A R inhibition exhibit enhanced expression of doublecortin and increased incorporation of BrdU within the HPC. Taken together, these findings indicate that impaired ENT1/A 2A R signaling promotes impulsivity during cue‐induced conditioning and contributes to reward seeking during extinction. More importantly, these results demonstrate that impulsive behavior is associated with aberrant hippocampal neurogenesis, which may contribute to the development of maladaptive reward‐seeking behaviors. Support or Funding Information NIH R01 AA018779