Cannabinoid receptor localization in brain
TLDR
The potencies of a series of natural and synthetic cannabinoids as competitors of [3H]CP 55,940 binding correlated closely with their relative potencies in several biological assays, suggesting that the receptor characterized in the in vitro assay is the same receptor that mediates behavioral and pharmacological effects of cannabinoids, including human subjective experience.Abstract:
[3H]CP 55,940, a radiolabeled synthetic cannabinoid, which is 10-100 times more potent in vivo than delta 9-tetrahydrocannabinol, was used to characterize and localize a specific cannabinoid receptor in brain sections. The potencies of a series of natural and synthetic cannabinoids as competitors of [3H]CP 55,940 binding correlated closely with their relative potencies in several biological assays, suggesting that the receptor characterized in our in vitro assay is the same receptor that mediates behavioral and pharmacological effects of cannabinoids, including human subjective experience. Autoradiography of cannabinoid receptors in brain sections from several mammalian species, including human, reveals a unique and conserved distribution; binding is most dense in outflow nuclei of the basal ganglia--the substantia nigra pars reticulata and globus pallidus--and in the hippocampus and cerebellum. Generally high densities in forebrain and cerebellum implicate roles for cannabinoids in cognition and movement. Sparse densities in lower brainstem areas controlling cardiovascular and respiratory functions may explain why high doses of delta 9-tetrahydrocannabinol are not lethal.read more
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Differential effects of Ecstasy and cannabis on self-reports of memory ability: a web-based study.
TL;DR: It was found that cannabis was associated with reports of ‘here‐and‐now’ cognitive problems in short‐term and internally cued prospective memory, and Ecstasy was associatedWith reports of long‐term memory problems, which were more related to storage and retrieval difficulties.
Distribution of type 1 cannabinoid receptor (CB1) immunoreactive axons in the mouse hypothalamus
Gábor Wittmann,Levente Deli,Imre Kalló,Erik Hrabovszky,Masahiko Watanabe,Zsolt Liposits,Zsolt Liposits,Csaba Fekete,Csaba Fekete +8 more
TL;DR: The study revealed the dense and differential CB1‐IR innervation of most hypothalamic nuclei and the median eminence of the mouse brain and established communication with hypothalamic neurons via symmetric and asymmetric synapses indicating the occurrence of retrograde signaling by endocannabinoids in hypothalamic neuronal networks.
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An endocannabinoid mechanism in relapse to drug seeking: a review of animal studies and clinical perspectives.
Liana Fattore,M. Sabrina Spano,Serena Deiana,Valeria Melis,G Cossu,Paola Fadda,Walter Fratta,Walter Fratta +7 more
TL;DR: The present review attempts to collect data obtained from different laboratories using diverse experimental approaches, to provide a comprehensive picture of the recent evidence of a relationship between the cannabinoid system and the neurobiological mechanisms leading to relapse.
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Randomised, double-blind, placebo-controlled trial to assess the potential of cannabinoid receptor stimulation in the treatment of dystonia.
TL;DR: A double‐blind, randomised, placebo‐controlled, crossover study using the synthetic cannabinoid receptor agonist nabilone in patients with generalised and segmental primary dystonia showed no significant reduction in dystonIA following treatment with nabil one.
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Mutation of a Highly Conserved Aspartate Residue in the Second Transmembrane Domain of the Cannabinoid Receptors, CB1 and CB2, Disrupts G-Protein Coupling
Qing Tao,Mary E. Abood +1 more
TL;DR: The data suggest that this aspartate residue is not generally important for ligand recognition in the cannabinoid receptors; however, it is required for communication with G proteins and signal transduction.
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