Ventral pallidum projections to the ventral tegmental area reinforce but do not invigorate reward-seeking behavior

Abstract

ABSTRACTReward-predictive cues acquire motivating and reinforcing properties that contribute to the escalation and relapse of drug use in addiction. The ventral pallidum (VP) and ventral tegmental area (VTA) are two key nodes in brain reward circuitry implicated in addiction and necessary for the performance of cue-driven behavior. Evidence suggests that VP neurons projecting to the VTA (VP→VTA) promote cue-induced reinstatement of drug-seeking, but the mechanisms by which these neurons do so are undefined. In addition, the role of these neurons in the pursuit of non-drug reward is not known. In the current study, we usedin vivofiber photometry and optogenetics to record from and manipulate VP→VTA in rats performing a discriminative stimulus task (DS task) with sucrose reward to determine the fundamental role these neurons play in invigoration and reinforcement by reward and associated discriminative cues. We find that VP→VTA neurons are selectively active during reward consumption, that optogenetic stimulation of these neurons paired with reward consumption biases choice, and that VP→VTA optogenetic stimulation is reinforcing. Critically, we found no significant encoding of cue-elicited reward-seeking vigor and acute optogenetic stimulation of these neurons paired with cue onset did not enhance the probability or vigor of reward-seeking. Our results suggest that VP→VTA neurons are active during the consumption of natural reward and that this activity reinforces seeking behavior.