In vivo Amygdala Dopamine Levels Modulate Cocaine Self‐administration Behaviour in the Rat: D1 Dopamine Receptor Involvement

Abstract

Nucleus accumbens dopamine is often hypothesized as the critical factor for modulating cocaine self-administration. In the current study we examined the extent to which dopamine in the amygdala could contribute to cocaine intake behaviour and modify nucleus accumbens dopamine levels. Rats were trained to self-administer intravenous cocaine (1.5 mg/kg/injection) under a fixed-ratio reinforcement schedule in daily 3 h operant training sessions. In the first in vivo microdialysis experiment, extracellular dopamine levels were found to be increased 200% of baseline in the amygdala and by 400% in the nucleus accumbens. Although cocaine induced similar profiles of dopamine overflow in the two mesolimbic areas, in the nucleus accumbens the latency of the dopaminergic response was shorter (three- to four-fold) during both initiation and termination of the cocaine self-administration session than in the amygdala. Despite achieving a stable self-regulated pattern of cocaine intake and high dopamine concentrations in the nucleus accumbens, a unilateral injection of the D₁ receptor antagonist SCH 23390 (0.5 or 1.5 μg) into the amygdala was still able to increase the rate of cocaine intake. This behavioural effect was accompanied by a dose-dependent increase in nucleus accumbens dopamine levels; at the highest SCH 23390 concentration cocaine intake was increased by 400% and dopamine levels were potentiated by an additional 400%. In vivo autoradiography using [³H]SCH 23390 showed that D₁ receptor sites contributing to the behavioural and subsequent neurochemical effects were predominantly localized to the amygdala and not the nucleus accumbens. Altogether these results point to a significant contribution of in vivo amygdala D1 dopamine transmission to cocaine self-administration behaviour.