AbstractAddiction is a chronic relapsing disorder, and during recovery many people experience several relapse events as they attempt to voluntarily abstain from drug. New preclinical relapse models have emerged which capture this common human experience of relapse after voluntary abstinence, and mounting evidence indicates that reinstatement of drug seeking after voluntary abstinence recruits neural circuits distinct from reinstatement following experimenter-imposed abstinence, or abstinence due to extinction training. Ventral pallidum (VP), a key limbic node involved in drug seeking, has well-established roles in conventional reinstatement models tested following extinction training, but it is unclear whether this region also participates in more translationally-relevant models of relapse. Here we show that chemogenetic inhibition of VP neurons strongly attenuates cocaine-, context-, and cue-induced reinstatement tested after voluntary, punishment-induced abstinence. This effect was strongest in the most compulsive, punishment-resistant rats, and reinstatement was associated with neural activity in anatomically-defined VP subregions. VP inhibition also attenuated the propensity of rats to display ‘hesitations,’ a risk assessment behavior seen during punished drug taking that is likely due to concurrent approach and avoidance motivations. These results indicate that VP, unlike other connected limbic brain regions, is essential for reinstatement of drug seeking after voluntary abstinence. Since VP inhibition effects were strongest in the most compulsively cocaine-seeking individuals, this could indicate that VP plays a particularly important role in the most pathological, addiction-like behavior, making it an attractive target for future therapeutic interventions.
Opposing Regulation of Cocaine Seeking by Glutamate and GABA Neurons in the Ventral Pallidum
