Opposing Roles of Rapid Dopamine Signaling?Across the Rostral–Caudal Axis of?the?Nucleus Accumbens Shell in Drug-Induced Negative Affect

摘要

Abstract Background Negative reinforcement theories of drug addiction posit that addicts use drugs to alleviate negative mood states. In a preclinical model developed in our laboratory, rats exhibit negative affect to a normally rewarding taste cue when it predicts impending but delayed cocaine. The emergence of this state is accompanied by a reduction in dopamine concentration in the rostral nucleus accumbens shell. However, the rostral and caudal regions of the shell have been implicated in promoting opposing appetitive and aversive states, respectively. Here, we tested whether dopamine transmission along the rostral–caudal axis of the shell plays differential roles in the emergence of drug-induced negative affect. Methods In TH::Cre rats, the dopaminergic pathways from the ventral tegmental area to the rostral and caudal regions of the shell were optogenetically stimulated during intraoral delivery of a taste cue signaling delayed cocaine. Affective responses to the taste cue were measured using taste reactivity, and optical self-stimulation of the rostral and caudal shells was also examined. Results Optical stimulation of the rostral shell during tastant infusion prevented the emergence of negative affect, but activation of the caudal shell exacerbated aversive responses. These effects endured in the absence of optical stimulation, and the degree of negative affect in our model predicted self-stimulation responding. Conclusions These findings reveal unprecedented, pronounced, and opposing roles of rapid dopamine signaling across the rostral–caudal axis of the nucleus accumbens in the control of drug-induced negative affect, a hallmark of continued drug seeking and use in human addicts.