Studies indicate that nucleus accumbens (NAcc) dopamine neurotransmission is involved in the reinforcing and direct effects of cocaine. The present study was initiated to explore further the relationship of NAcc extracellular dopamine concentrations ([DA]e) and cocaine self-administration using a yoked littermate design. In the first experiment, one rat from each litter was trained to self-administer cocaine i.v. (SA: 0.33 mg/inf) under a fixed ratio 2 schedule, while a second rat received simultaneous infusions of cocaine yoked to the infusions of the SA (YC). NAcc [DA]e and cocaine concentrations ([COC]) were assessed during the test sessions using in vivo microdialysis combined with microbore HPLC procedures. [DA]e and [COC] were significantly elevated in the SA and YC groups during the self-administration session; however, [DA]e were greater in the SA group compared to the YC group in the first hour of the session, even though [COC] were not significantly different. On the following day, the rats previously allowed to self-administer cocaine were administered response-independent cocaine infusions yoked to the infusion pattern from the previous day. [DA]e were significantly elevated above baseline levels during the session but were significantly less than concentrations obtained when cocaine was self-administered by these subjects. [COC] during the sessions were not significantly different between the two days. Baseline [DA]e were not significantly different between the SA and YC groups or between Day 1 and Day 2. Furthermore, there was no significant difference in the in vitro probe recovery between one and two days following probe implantation. These results suggest that the context in which cocaine was administered significantly altered the neurochemical response to equivalent brain concentrations of cocaine. NAcc [DA]e was significantly increased when the delivery of cocaine infusions was contingent on the behavior of the rat, indicative of a role in the neural processes underlying cocaine reinforcement.
Neuronal systems involved in the initiation of cocaine reinforcement were investigated by identifying brain sites where direct application of the drug was reinforcing. This was accomplished by allowing rats to self-administer picomolar concentrations of cocaine into discrete brain regions. The medial prefrontal cortex supported self-administration, while the nucleus accumbens and ventral tegmental area did not. Self-administration could be attenuated by including equimolar concentrations of the dopaminergic D2-receptor antagonist sulpiride in the microinjection system. These results imply that cocaine reinforcement is mediated in part through a direct action on mesocortical dopaminergic receptors.
The drug self-administration paradigm is routinely used to assess the abuse liability of psychoactive compounds. Investigations of the behavioral effects of drug use, however, often involve the response-independent (experiment-delivered) administration of the compound. It is frequently assumed that response-independent presentation of a compound has the same effects as response dependent deliveries. The present study examined directly the effects of response-dependent (self-administered) versus response-independent (experimenter-delivered) administration of cocaine on food intake and lethality. Littermate triads were exposed to either cocaine (0.33 mg/infusion) or saline using a yoked-box procedure. One member of the triad self-administered the drug under a fixed-ratio 2 schedule. The other two rats received response-independent infusions of either cocaine or saline. Groups of triads were exposed to two different cocaine access conditions. Daily sessions were terminated after 6 h for one group and after the delivery of 80 infusions for the other. The mean number of infusions delivered each session was 47 (+/- 12) and 70 (+/- 11), respectively, for the 6-h and 80-infusion condition. Under the 80-infusion condition, response-independent infusions of cocaine resulted in a significantly higher rate of mortality compared to littermates self-administering identical amounts of the drug. A fewer number of deaths occurred under 6-h condition; however, only rats exposed to response-independent infusions died under both access conditions. These data indicate that the presence or absence of response dependency can profoundly alter the lethal effects of cocaine.
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