Tonic firing of rat nucleus accumbens neurons: changes during the first 2 weeks of daily cocaine self-administration sessions.

Activity of single neurons in the nucleus accumbens (NAcc) of rats was recorded extracellularly on the 2nd and 15th days of intravenous cocaine self-administration. Each of the two electrophysiological recording sessions consisted of three successive phases: a pre-drug baseline recording period, a cocaine self-administration session, and a post-drug recording period. Firing of individual neurons was typically inhibited during the self-administration session, relative to the pre-drug period. The inhibition was greater on the 15th day relative to the 2nd day. Additionally, firing rates during the pre-drug period and the self-administration session were typically lower on the 15th day as compared to the 2nd day. The present data are consistent with previous acute electrophysiological findings and are in line with the hypothesis that repeated drug self-administration engenders changes in the mesoaccumbens pathway that contribute to drug addiction.

Tonic inhibition of single nucleus accumbens neurons in the rat: a predominant but not exclusive firing pattern induced by cocaine self-administration sessions.

Inhibition of nucleus accumbens neurons is hypothesized to be a mechanism that contributes to the reinforcing (addictive) effects of cocaine and other drugs. To test this hypothesis, the activity of single nucleus accumbens neurons of rats was recorded extracellularly during cocaine self-administration sessions. Fifty-eight percent of neurons were tonically inhibited during cocaine self-administration relative to predrug baseline; thirty-one percent were tonically excited. A majority of both excited and inhibited neurons showed phasic increases in firing time-locked to self-infusion. The high percentage of tonically inhibited neurons is in line with the strong inhibitory effects of cocaine and amphetamine observed in previous anesthetized and slice recording studies; however, the prevalence of inhibition, relative to excitation, was less than might have been expected on the basis of the earlier recording studies. The present results support the hypothesis that accumbal (tonic) inhibition contributes to drug taking. However, they also suggest that changes in firing that are distinct from the tonic inhibition may additionally contribute to accumbal mediation of drug taking and drug addiction. The uniform observation of predominant inhibition among the various electrophysiology studies is consistent with the heuristic value of anesthetized and slice recording methods in identifying potential neurophysiological correlates of drug taking; however, the existence of firing patterns (e.g., phasic increases) uniquely associated with self-administration behavior (and thus absent in anesthetized and slice studies), as well as the unique presence of the primary behavior of interest in studies such as the present one, underscores the importance of conducting electrophysiological investigations of drug taking and drug addiction in the self-administering animal in parallel with anesthetized and slice studies whenever possible.

Neurons in accumbens subterritories of the rat: phasic firing time-locked within seconds of intravenous cocaine self-infusion.

Individual neurons were recorded extracellularly in the nucleus accumbens (NAcc) of rats during cocaine self-administration sessions. NAcc neurons exhibited a variety of phasic changes in firing rate within the few seconds before and/or after cocaine self-infusion. Analysis of the topographical distribution of the phasic firing patterns showed that there were no differences between NAcc subterritories in the nature of phasic changes in firing exhibited by neurons in relation to cocaine self-infusion. However, the prevalence of phasic firing was lower in the border regions of the caudal shell and within the caudal shell itself relative to the remainder of the NAcc.

Operant behavior during sessions of intravenous cocaine infusion is necessary and sufficient for phasic firing of single nucleus accumbens neurons.

The activity of individual accumbens neurons in rats was recorded in relation to intravenous cocaine infusions that were either response (i.e., lever press) contingent or response non-contingent. Neural firing was additionally recorded in relation to non-reinforced lever presses. Comparisons of firing under the three conditions showed that operant behavior was necessary and sufficient for preinfusion firing to occur. Surprisingly, the same was true, in many cases, for firing that occurred during the infusion. For other neurons, firing during the infusion was unrelated to operant behavior and possibly related to infusion stimuli. The relationship to operant behavior exhibited by the majority of NAcc neurons is consistent with previous studies that demonstrated a necessary relationship between NAcc neurons and cocaine reinforced operant behavior.