Lucía Callén scite author profile

Background: Although CB 1 , the most abundant neuronal receptors, and CB 2 receptors are co-expressed in neurons, the CB 1 -CB 2 relationship is unknown. Results: CB 1 and CB 2 receptors form heteromers in neuronal cells and in the brain. Conclusion: Activation of either receptor leads to negative modulation of the partner receptor via heteromers. Significance: These heteromers may explain previous conflicting results and serve as therapeutic targets.

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Expression of the mRNA coding the cannabinoid receptor 2 in the pallidal complex of Macaca fascicularis

Lanciego

et al. 2010

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The putative presence of the cannabinoid receptor type 2 (CB(2)-R) in the central nervous system is still a matter of debate. Although first described in peripheral and immune tissues, evidence suggesting the existence of CB(2)-Rs in glial cells and even neurons has been made available more recently. By taking advantage of newly designed CB(2)-R mRNA riboprobes, we have demonstrated by in situ hybridization and PCR the existence of CB2-R transcripts in a variety of brain areas of the primate Macaca fascicularis, including the cerebral cortex and the hippocampus, as well as in the external and internal divisions of the globus pallidus, both pallidal segments showing the highest abundance of CB(2)-R transcripts. In this regard, the presence of the messenger coding CB(2)-Rs within the pallidal complex highlights their consideration as potential targets for the treatment of movement disorders of basal ganglia origin.

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Lucía Callén

Cannabinoid Receptors CB1 and CB2 Form Functional Heteromers in Brain

Expression of the mRNA coding the cannabinoid receptor 2 in the pallidal complex of Macaca fascicularis

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