Tag Archives: CB1

Anatomical characterization of the cannabinoid cb1 receptor in cell type-specific mutant mouse rescue models.

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“Type-1 cannabinoid (CB1 ) receptors are widely distributed in the brain. Their physiological roles depend on their distribution pattern that differs remarkably among cell types. Hence, subcellular compartments with little but functional relevant CB1 receptors can be overlooked, fostering an incomplete mapping. To overcome this, knock-in mice with cell-type specific rescue of CB1 receptors have emerged as excellent tools to investigate its cell type-specific localization and sufficient functional role with no bias.

However, to know whether these rescue mice maintain endogenous CB1 receptor expression level, detailed anatomical studies are called for. The subcellular distribution of hippocampal CB1 receptors of rescue mice that express the gene exclusively in dorsal telencephalic glutamatergic neurons (Glu-CB1 -RS) or GABAergic neurons (GABA-CB1 -RS) was studied by immunoelectron microscopy. Results were compared with conditional CB1 receptor knock-out lines.

As expected, CB1immunoparticles appeared at presynaptic plasmalemma making asymmetric and symmetric synapses. In the hippocampal CA1 stratum radiatum, the values of the CB1 receptor immunopositive excitatory and inhibitory synapses were: Glu-CB1 -RS: 21.89% (glutamatergic terminals); 2.38% (GABAergic terminals); GABA-CB1 -RS: 1.92% (glutamatergic terminals); 77.92% (GABAergic terminals). The proportion of CB1 receptor immunopositive excitatory and inhibitory synapses in the inner third of the dentate molecular layer was: Glu-CB1 -RS: 53.19% (glutamatergic terminals); 2.30% (GABAergic terminals); GABA-CB1 -RS: 3.19% (glutamatergic terminals); 85.07% (GABAergic terminals).

Taken together, Glu-CB1 -RS and GABA-CB1 -RS mice show the usual CB1 receptor distribution and expression in hippocampal cell types with specific rescue of the receptor, being therefore ideal for in-depth anatomical and functional investigations of the endocannabinoid system.”

http://www.ncbi.nlm.nih.gov/pubmed/27339436

The multiple waves of cannabinoid 1 receptor signaling.

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“The cannabinoid 1 receptor (CB1R) is one of the most abundant G protein-coupled receptor (GPCR) in the CNS with key roles during neurotransmitter release and synaptic plasticity. Upon ligand activation, CB1Rs may signal in three different spatiotemporal waves.

The first wave is transient (<10 minutes) and is initiated by heterotrimeric G proteins followed by a second wave (>10 minutes) mediated by beta-arrestins. A final third wave occurs at intracellular compartments and could be elicited by G proteins or beta-arrestins.

This functional complexity presents multiple challenges, from the correct classification of receptor ligands to the identification of the signaling pathways regulated by each wave and their underlying molecular mechanisms and physiological impact.

Simultaneously, it provides new opportunities to harness the therapeutic potential of the cannabinoid system.

Over the last several years, we have significantly expanded our understanding of the mechanisms and pathways downstream from CB1R. The identification of mutations in the receptor that can bias signaling to specific pathways and the use of siRNA technology in combination with toxins have been key tools to identify which signaling cascades are controlled by G proteins or beta-arrestins.

Here, we review our current knowledge of the multiple waves of CB1R signaling with particular emphasis on the mechanisms and cascades mediated by beta-arrestins downstream from the CB1R.”

http://www.ncbi.nlm.nih.gov/pubmed/27338082

Cannabimimetic Drugs: Recent Patents in Central Nervous System Disorders.

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“Agents acting via cannabinoid receptors have been widely developed; starting from the chemical structure of phytocannabinoids isolated from cannabis sativa plant, specific and selective compounds of these receptors have been produced ranging from partial to full agonists and /or antagonists endowed with different potency.

The enhanced interest on developing such classes of drugs is due to the beneficial properties widely reported by both anecdotal reports and scientific studies describing the potential medicinal use of cannabinoids and their derivatives in numerous pathological conditions in both in vitro and in vivo models.

The use of these drugs has been found to be of benefit in a wide number of neurological and neuropsychiatric disorders, and in many other diseases ranging from cancer, atherosclerosis, stroke, hypertension, inflammatory related disorders, and autoimmune diseases, just to mention some.

In particular, being the cannabinoid CB1 receptor a central receptor expressed by neurons of the central nervous system, the attention for the treatment of neurological diseases has been mainly focused on compounds acting via this receptor, however some of these compounds has been showed to act by alternative pathways in some cases unrelated to CB1 receptors.

Nonetheless, endocannabinoids are potent regulators of the synaptic function in the central nervous system and their levels are modulated in neurological diseases.

In this study, we focused on endocannabinoid mechanism of action in neuronal signaling and on cannabimimetic drug potential application in neurological disorders.

Finally, novel patents on cannabis-based drugs with applicability in central nervous system disorders are highlighted, to suggest future potential therapeutic utility of derivatives of this ancient plant.”

http://www.ncbi.nlm.nih.gov/pubmed/27334611

Basolateral amygdala CB1 cannabinoid receptors are involved in cross state-dependent memory retrieval between morphine and ethanol.

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“Ethanol and morphine are largely co-abused and affect memory formation.

The present study intended to investigate the involvement of cannabinoid CB1 receptors of the basolateral amygdala (BLA) in cross state-dependent memory retrieval between morphine and ethanol.

Taken together, it can be concluded that morphine and ethanol can induce state-dependent memory retrieval.

In addition, the BLA endocannabinoid system mediates via CB1 receptors the functional interaction of morphine and ethanol state-dependent memory retrieval which may depend on the rewarding effects of the drugs.”

http://www.ncbi.nlm.nih.gov/pubmed/27327764

Autophagy activation by novel inducers prevents BECN2-mediated drug tolerance to cannabinoids.

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“Cannabinoids and related drugs generate profound behavioral effects (such as analgesic effects) through activating CNR1 (cannabinoid receptor 1 [brain]). However, repeated cannabinoid administration triggers lysosomal degradation of the receptor and rapid development of drug tolerance, limiting the medical use of marijuana in chronic diseases.

Here we show that a protein involved in macroautophagy/autophagy (a conserved lysosomal degradation pathway), BECN2 (beclin 2), mediates cannabinoid tolerance by preventing CNR1 recycling and resensitization after prolonged agonist exposure, and deletion of Becn2 rescues CNR1 activity in mouse brain and conveys resistance to analgesic tolerance to chronic cannabinoids.

Overall, our findings demonstrate the functional link among autophagy, receptor signaling and animal behavior regulated by psychoactive drugs, and develop a new strategy to prevent tolerance and improve medical efficacy of cannabinoids by modulating the BECN2 interactome and autophagy activity.”

http://www.ncbi.nlm.nih.gov/pubmed/27305347

Modulation of cannabinoid signaling by hippocampal 5-HT4 serotonergic system in fear conditioning.

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“Behavioral studies have suggested a key role for the cannabinoid system in the modulation of conditioned fear memory. Likewise, much of the literature has revealed that the serotonergic system affects Pavlovian fear conditioning and extinction. A high level of functional overlap between the serotonin and cannabinoid systems has also been reported.

To clarify the interaction between the hippocampal serotonin (5-HT4) receptor and the cannabinoid CB1 receptor in the acquisition of fear memory, the effects of 5-HT4 agents, arachidonylcyclopropylamide (ACPA; CB1 receptor agonist), and the combined use of these drugs on fear learning were studied in a fear conditioning task in adult male NMRI mice.

Pre-training intraperitoneal administration of ACPA (0.1 mg/kg) decreased the percentage of freezing time in both context- and tone-dependent fear conditions, suggesting impairment of the acquisition of fear memory. Pre-training, intra-hippocampal (CA1) microinjection of RS67333, a 5-HT4 receptor agonist, at doses of 0.1 and 0.2 or 0.2 µg/mouse impaired contextual and tone fear memory, respectively. A subthreshold dose of RS67333 (0.005 µg/mouse) did not alter the ACPA response in either condition.

Moreover, intra-CA1 microinjection of RS23597 as a 5-HT4 receptor antagonist did not alter context-dependent fear memory acquisition, but it did impair tone-dependent fear memory acquisition. However, a subthreshold dose of the RS23597 (0.01 µg/mouse) potentiated ACPA-induced fear memory impairment in both conditions.

Therefore, we suggest that the blockade of hippocampal 5-HT4 serotonergic system modulates cannabinoid signaling induced by the activation of CB1 receptors in conditioned fear.”

http://www.ncbi.nlm.nih.gov/pubmed/27296273

Cannabinoids cool the intestine

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“Inflammatory bowel diseases (IBDs) such as ulcerative colitis and Crohn’s disease affects over a million people in the United States, with an estimated indirect cost from work loss of $3.6 billion annually. Many of these individuals suffer from pain, diarrhea and poor ability to digest their food, and in up to half of those with IBD, the disease is so severe that it ultimately requires surgery to remove the affected bowel segment.

Historically, marijuana has been used to treat diarrhea and has been advocated for the treatment of a variety of other gastrointestinal problems, including Crohn’s disease.

More recent pharmacological studies have clearly established that cannabinoids inhibit gastrointestinal motility and secretion by acting on CB1 receptors located on the terminals of both intrinsic and extrinsic submucosal neurons.

When administered to mice with chemically induced enteritis, cannabinoids also reduce inflammation and fluid accumulation in the gut.

Cannabinoids inhibit motility and secretion in the intestine.

They are now assigned the additional task of curbing excessive inflammation, suggesting that drugs targeting the endogenous cannabinoid system could be exploited for inflammatory bowel disease.

These findings may offer a new therapeutic approach to IBD.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2516444/

 

Activation of cannabinoid CB1 receptors in the ventral hippocampus improved stress-induced amnesia in rat.

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“The ventral hippocampus (VH) has a high distribution of cannabinoid CB1 receptors which are important in modulating stress responses. Stress exposure activates the hypothalamic-pituitary-adrenal axis (HPA) which can impact hippocampal formation to change hippocampus-based memories.

The purpose of the present study was to determine the possible role of the VH cannabinoid CB1 receptors in stress-induced amnesia using a step-through passive avoidance procedure in male Wistar rats.

Taken together, it can be concluded that exposure to post-training inescapable stress impaired memory consolidation. The impairing effects of stress on memory retrieval may be mediated by the VH cannabinoid CB1 receptors.”

http://www.ncbi.nlm.nih.gov/pubmed/27282634

Estradiol impacts the endocannabinoid system in female rats to influence behavioral and structural responses to cocaine.

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“Compared with men, women show enhanced responses to drugs of abuse, and consequently are thought to be more vulnerable to addiction.

The ovarian hormone estradiol has emerged as a key facilitator in the heightened development of addiction in females. These actions of estradiol appear mediated by estrogen receptor (ER) activation of metabotropic glutamate receptor type 5 (mGluR5). However, the downstream effectors of this ER/mGluR5 signaling pathway are unknown.

Here we investigate whether cannabinoid 1 receptor (CB1R) activation is a part of the mechanism whereby estradiol influences behavioral and synaptic correlates of addiction.

Following repeated cocaine administration, estradiol-treated ovariectomized rats exhibited both sensitized locomotor responses and decreases in the dendritic spine density of nucleus accumbens core medium-spiny neurons in comparison to oil-treated controls. Both effects of estradiol were blocked by AM251, a CB1R inverse agonist.

These results indicate that part of the signaling mechanism through which estradiol impacts behavioral and synaptic correlates of addiction in female rats requires activation of CB1Rs.”

http://www.ncbi.nlm.nih.gov/pubmed/27266915

CB1 Receptor Antagonism Prevents Long-Term Hyperexcitability after Head Injury by Regulation of Dynorphin-KOR System and mGluR5 in Rat Hippocampus.

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“Both endocannabinoids and dynorphin are feedback messengers in nervous system that act at the presynaptic nerve terminal to inhibit transmitter release. Many studies showed the cannabinoid-opioid cross-modulation in antinociception, hypothermia, sedation and reward.

The aim of this study was to assess the influence of early application of cannabinoid type 1 (CB1) receptor antagonism SR141716A after brain injury on dynorphin-κ opioid receptor (KOR) system and the expression of metabotropic glutamate receptors (mGluRs) in a rat model of fluid percussion injury (FPI).

Firstly, seizure latency induced by pentylenetetrazole was significantly prolonged 6 weeks after brain injury in group of SR141716A treatment. Then, PCR and western blot showed that SR141716A inhibited the long-term up-regulation of CB1 receptors in hippocampus. However, SR141716A resulted in long-term potentiation of dynorphin release and did not influence the up-regulation of KOR in hippocampus after brain injury. Furthermore, SR141716A reverse the overexpression of mGluR5 in the late stage of brain injury.

We propose that during the induction of epileptogenesis after brain injury, early application of CB1 receptor antagonism could prevent long-term hyperexcitability by up-regulation of dynorphin-KOR system and prevention of mGluR5 induced epileptogenesis in hippocampus.”

http://www.ncbi.nlm.nih.gov/pubmed/27262683