Abstract

The established role of dopamine (DA) in the mediation of reward and positive reinforcement, reward processing is strongly influenced by the type 1 cannabinoid receptors (CB1 Rs). Although considerable preclinical evidence has demonstrated several functional CB1 R-DA interactions, the relation between human CB1 R availability, DA release capacity and drug-reinforcing effects has been never investigated so far. Here, we perform a multitracer [18 F]MK-9470 and [18 F]fallypride positron emission tomography (PET) study in 10 healthy male subjects using a placebo-controlled and single-blinded amphetamine (AMPH) (30 mg) administration paradigm to (1) investigate possible functional interactions between CB1 R expression levels and DA release capacity in a normo-DAergic state, relating in vivo AMPH-induced DA release to CB1 R availability, and (2) to test the hypothesis that the influence of striatal DAergic signalling on the positive reinforcing effects of AMPH may be regulated by prefrontal CB1 R levels. Compared with placebo, AMPH significantly reduced [18 F]fallypride binding potential (hence increase DA release; ΔBPND ranging from -6.1% to -9.6%) in both striatal (p<0.005, corrected for multiple comparisons) and limbic extrastriatal regions (p≤0.04, uncorrected). Subjects who reported a greater dopaminergic response in the putamen also showed higher CB1 R availability in the medial and dorsolateral prefrontal cortex (r=0.72; p=0.02), which are regions involved in salience attribution, motivation and decision making. On the other hand, the magnitude of DA release was greater in those subjects with lower CB1 R availability in the anterior cingulate cortex (ACC) (r= -0.66; p=0.03). Also, the correlation between the DA release in the nucleus accumbens with the subjective AMPH effect liking was mediated through the CB1 R availability in the ACC (c' = -0.76; p=0.01). Our small preliminary study reports for the first time that the human prefrontal CB1 R availability is a determinant of DA release within both the ventral and dorsal reward corticostriatal circuit, contributing to a number of studies supporting the existence of an interaction between CB1 R and DA receptors at the molecular and behavioural level. These preliminary findings warrant further investigation in pathological conditions characterized by hypo/hyper excitability to DA release such as addiction and schizophrenia.

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