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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Peripheral cannabinoid receptor, CB2, regulates bone mass
Orr Ofek,Meliha Karsak,Nathalie Leclerc,Meirav Fogel,Baruch Frenkel,Karen L. Wright,Joseph Tam,Malka Attar-Namdar,Vardit Kram,Esther Shohami,Raphael Mechoulam,Andreas Zimmer,Itai Bab +12 more
TL;DR: It is shown that CB2-deficient mice have a markedly accelerated age-related trabecular bone loss and cortical expansion, although cortical thickness remains unaltered, demonstrating that the endocannabinoid system is essential for the maintenance of normal bone mass by osteoblastic and osteoclastic CB2 signaling.
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Endocannabinoid signaling as a synaptic circuit breaker in neurological disease
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TL;DR: Recent advances show that endocannabinoid signaling is a key regulator of synaptic communication throughout the central nervous system and offers new therapeutic opportunities for the selective control of deleterious neuronal activity in several neurological disorders.
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Pharmacology of cannabinoid receptors
TL;DR: Two subtypes of cannabinoid receptors, CB1 and CB2, have been described to date, although future investigations may elucidate other receptors, and three classes of agonist ligands regulate cannabinoid receptors: cannabinoid, aminoalkyl-indole, and eicosanoid derivatives.
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Multiple Functions of Endocannabinoid Signaling in the Brain
István Katona,Tamás F. Freund +1 more
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Reversible and regionally selective downregulation of brain cannabinoid CB1 receptors in chronic daily cannabis smokers
Jussi Hirvonen,Robert S. Goodwin,Cheng Ta Li,Garth E. Terry,Sami S. Zoghbi,Cheryl L. Morse,Victor W. Pike,Nora D. Volkow,Marilyn A. Huestis,Robert B. Innis +9 more
TL;DR: Reversible and regionally selective downregulation of brain cannabinoid CB1 receptors in human subjects who chronically smoke cannabis is shown, using positron emission tomography imaging, for the first direct demonstration of cortical cannabinoids CB1 receptor downregulation as a neuroadaptation that may promote cannabis dependence in human brain.
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