Reversible inactivation of the basolateral amygdala, but not the dorsolateral caudate putamen, attenuates consolidation of cocaine‐cue associative learning in a reinstatement model of drug‐seeking

Previous research has shown that the basolateral amygdala (BLA) mediates stimulus‐reward learning, including drug‐cue associations, whereas the dorsolateral caudate putamen (dlCPu) primarily mediates stimulus‐response (habit) learning. Recent evidence has indicated that the dlCPu may be critical in cocaine‐seeking following extended self‐administration, but it remains unknown whether the dlCPu plays a role in the early formation of drug‐cue associations. The current study used a model of Pavlovian learning to compare the roles of the BLA and dlCPu in the consolidation of cocaine‐cue associations that maintain cocaine‐seeking during cue‐induced reinstatement. Male Sprague‐Dawley rats self‐administered cocaine (0.2 mg/50 μL infusion, i.v.) in the absence of cues for 6 days (2 h/day). Immediately following a single 1‐h classical conditioning session in which passive cocaine infusions were paired with a light/tone cue, animals received bilateral infusions of the GABA receptor agonists, baclofen/muscimol (1.0/0.1 m m ), or vehicle into the BLA or dlCPu. Following additional cocaine self‐administration (5 days) and subsequent extinction (no cocaine or cues, 7 days), the ability of the previously cocaine‐paired cues to reinstate cocaine‐seeking was assessed. Inactivation of the BLA, but not the dlCPu, immediately following the classical conditioning session impaired the consolidation of cocaine‐cue associations as seen by decreased cue‐induced reinstatement. These results extend previous findings that the BLA mediates the consolidation of learned associations that drive cocaine‐seeking during subsequent reinstatement and indicate that the dlCPu does not play a role during initial stimulus‐drug associative learning.