Experience-dependent changes in neuronal processing in the nucleus accumbens shell in a discriminative learning task in differentially housed rats.

Environmental enrichment is associated with enhanced learning of complex tasks, attenuated seeking of natural and drug rewards, and altered function of the nucleus accumbens (NAcc), a brain region involved in goal-directed behavior. For example, during acquisition of a discriminative learning task, neurons in the NAcc core subregion are more responsive to discrete, goal-directed movements in rats raised in an enriched condition (EC) relative to an isolated condition (IC), but as learning materialized, this enhanced responsiveness shifts to the cues that predict these movements. Here, we report that these results do not extend to NAcc shell: neuronal responses in this subregion are similar in EC and IC rats during goal-directed movement and the presentation of associative cues both during and after task acquisition. With experience in this task, however, the overall proportion of task-related neuronal responses in NAcc shell decreases. The response pattern of shell neurons is also sensitive to the presence of contextual cues: shell neuronal firing reveals a significant shift from a predominant excitatory to a predominant inhibitory profile in probe trials when the cue that predicts sucrose availability is absent. Collectively, these data suggest that NAcc shell neurons encode cues associated with natural reward, are less responsive during appetitive behavior in familiar conditions, and are insensitive to appetitive learning differences expressed in rats reared in different environmental conditions.