Pharmacology, biochemistry, and behavior
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Pharmacol. Biochem. Behav. · Jun 2005
ReviewEndocannabinoid signaling system and brain reward: emphasis on dopamine.
The brain's reward circuitry consists of an "in series" circuit of dopaminergic (DA) neurons in the ventral tegmental area (VTA), nucleus accumbens (Acb), and that portion of the medial forebrain bundle (MFB) which links the VTA and Acb. Drugs which enhance brain reward (and have derivative addictive potential) have common actions on this core DA reward system and on animal behaviors relating to its function. ⋯ However, it is now clear that cannabinoids activate these brain reward processes and reward-related behaviors in similar fashion to other reward-enhancing drugs. This brief review discusses the roles that endogenous cannabinoids (especially activation of the CB1 receptor) may play within the core reward system, and concludes that while cannabinoids activate the reward pathways in a manner consistent with other reward-enhancing drugs, the neural mechanisms by which this occurs may differ.
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Pharmacol. Biochem. Behav. · Jun 2005
ReviewMolecular and cellular basis of cannabinoid and opioid interactions.
Cannabinoids and opioids have been shown to possess several similar pharmacological effects, including analgesia and stimulation of brain circuitry that are believed to underlie drug addiction and reward. In recent years, these phenomena have supported the possible existence of functional links in the mechanisms of action of both types of drugs. The present review addresses the recent advances in the study of biochemical and molecular mechanisms underlying opioid and cannabinoid interaction. ⋯ While in vitro studies point to the presence of interaction at various steps along the signal transduction pathway, studies in intact animals are frequently contradictory pending on the used species and the adopted protocol. The presence of reciprocal alteration in receptor density and efficiency as well as the modification in opioid/cannabinoid endogenous systems often do not reflect the behavioral results. Further studies are needed since a better knowledge of the opioid-cannabinoid interaction may lead to exciting therapeutic possibilities.