Tag Archives: CB1

In vitro and non-invasive in vivo effects of the cannabinoid-1 receptor agonist AM841 on gastrointestinal motor function in the rat.

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“Cannabinoids have been traditionally used for the treatment of gastrointestinal (GI) symptoms, but the associated central effects, through cannabinoid-1 receptors (CB1R), constitute an important drawback. Our aims were to characterize the effects of the recently developed highly potent long-acting megagonist AM841 on GI motor function and to determine its central effects in rats…

The CB1R megagonist AM841 may potently depress GI motor function in the absence of central effects. This effect may be mediated peripherally and may be useful in the treatment of GI motility disorders.”

http://www.ncbi.nlm.nih.gov/pubmed/26387676

New insights on the role of the endocannabinoid system in the regulation of energy balance.

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“Within the last 15 years, the endocannabinoid system (ECS) has emerged as a lipid signaling system critically involved in the regulation of energy balance, since it exerts a regulatory control on every aspect related to the search, the intake, the metabolism and the storage of calories.

An overactive endocannabinoid-cannabinoid type 1 (CB1) receptor signaling promotes the development of obesity, insulin resistance and dyslipidemia, representing a valuable pharmacotherapeutic target for obesity and metabolic disorders.

However, due to psychiatric side effects, the first generation of brain-penetrant CB1 receptor blockers developed as anti-obesity treatment was removed from the European market in late 2008.

Since then, recent studies have identified new mechanisms of action of the ECS in energy balance and metabolism, as well as novel ways of targeting the system that may be efficacious for the treatment of obesity and metabolic disorders.”

http://www.ncbi.nlm.nih.gov/pubmed/26374449

Potential Therapeutic Value of a Novel FAAH Inhibitor for the Treatment of Anxiety.

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“Anxiety disorders are among the most prevalent psychiatric diseases with high personal costs and a remarkable socio-economic burden. However, current treatment of anxiety is far from satisfactory.

Novel pharmacological targets have emerged in the recent years, and attention has focused on the endocannabinoid (eCB) system, given the increasing evidence that supports its central role in emotion, coping with stress and anxiety.

In the management of anxiety disorders, drug development strategies have left apart the direct activation of type-1 cannabinoid receptors to indirectly enhance eCB signalling through the inhibition of eCB deactivation, that is, the inhibition of the fatty acid amide hydrolase (FAAH) enzyme.

In the present study, we provide evidence for the anxiolytic-like properties of a novel, potent and selective reversible inhibitor of FAAH, ST4070, orally administered to rodents.

Altogether, ST4070 offers a promising anxiolytic-like profile in preclinical studies, although further studies are warranted to clearly demonstrate its efficacy in the clinic management of anxiety disorders.”

http://www.ncbi.nlm.nih.gov/pubmed/26360704

Tetrahydrocannabivarin (THCv) reduces Default Mode Network and increases Executive Control Network Resting State Functional Connectivity in Healthy Volunteers.

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“The cannabinoid CB1 Neutral Antagonist Tetrahydrocannabivarin (THCv) has been suggested as a possible treatment for obesity but without the depressogenic side-effects of inverse antagonists such as Rimonabant.

Our findings are the first to show that treatment with the CB1 neutral antagonist THCv decreases resting state functional connectivity in the Default Mode network and increases connectivity in the Cognitive Control network and Dorsal Visual Stream network.

This effect profile suggests possible therapeutic activity of THCv for obesity where functional connectivity has been found to be altered in these regions.”

http://www.ncbi.nlm.nih.gov/pubmed/26362774

Combination cannabinoid and opioid receptor antagonists improves metabolic outcomes in obese mice.

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“This study demonstrates that the combination of rimonabant, naloxone and norBNI is effective at producing weight loss over a sustained period of time without altering performance in standardised mouse behaviour tests. Fos expression patterns offer insight into the neuroanatomical substrates subserving these physiological and behavioural changes.

These results indicate that CB1-targeted drugs for weight loss may still be feasible.”

http://www.ncbi.nlm.nih.gov/pubmed/26360587

Cannabinoid Ligands and Alcohol Addiction: A Promising Therapeutic Tool or a Humbug?

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“The vast therapeutic potential of cannabinoids of both synthetic and plant-derived origins currently makes these compounds the focus of a growing interest. Although cannabinoids are still illicit drugs, their possible clinical usefulness, including treatment of acute or neuropathic pain, have been suggested by several studies.

In addition, some observations indicate that cannabinoid receptor antagonists may be useful for the treatment of alcohol dependence and addiction, which is a major health concern worldwide.

While the synergism between alcohol and cannabinoid agonists (in various forms) creates undesirable side effects when the two are consumed together, the administration of CB1 antagonists leads to a significant reduction in alcohol consumption.

Furthermore, cannabinoid antagonists also mitigate alcohol withdrawal symptoms.

Herein, we present an overview of studies focusing on the effects of cannabinoid ligands (agonists and antagonists) during acute or chronic consumption of ethanol.”

http://www.ncbi.nlm.nih.gov/pubmed/26353844

Cannabinoid-based drugs targeting CB1 and TRPV1, the sympathetic nervous system, and arthritis.

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“Chronic inflammation in rheumatoid arthritis (RA) is accompanied by activation of the sympathetic nervous system, which can support the immune system to perpetuate inflammation. Several animal models of arthritis already demonstrated a profound influence of adrenergic signaling on the course of RA.

Peripheral norepinephrine release from sympathetic terminals is controlled by cannabinoid receptor type 1 (CB1), which is activated by two major endocannabinoids (ECs), arachidonylethanolamine (anandamide) and 2-arachidonylglycerol.

These ECs also modulate function of transient receptor potential channels (TRPs) located on sensory nerve fibers, which are abundant in arthritic synovial tissue. TRPs not only induce the sensation of pain but also support inflammation via secretion of pro-inflammatory neuropeptides.

In addition, many cell types in synovial tissue express CB1 and TRPs.

In this review, we focus on CB1 and transient receptor potential vanilloid 1 (TRPV1)-mediated effects on RA since most anti-inflammatory mechanisms induced by cannabinoids are attributed to cannabinoid receptor type 2 (CB2) activation.

We demonstrate how CB1 agonism or antagonism can modulate arthritic disease.

The concept of functional antagonism with continuous CB1 activation is discussed.

Since fatty acid amide hydrolase (FAAH) is a major EC-degrading enzyme, the therapeutic possibility of FAAH inhibition is studied.

Finally, the therapeutic potential of ECs is examined since they interact with cannabinoid receptors and TRPs but do not produce central side effects.”

http://www.ncbi.nlm.nih.gov/pubmed/26343051

Endocannabinoid System Contributes to Liver Injury and Inflammation by Activation of Bone Marrow-Derived Monocytes/Macrophages in a CB1-Dependent Manner.

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“Hepatic injury undergoes significant increases in endocannabinoids and infiltrations of macrophages, yet the concrete mechanisms of changes in endocannabinoids and the functions of macrophage-expressed cannabinoid receptors (CBs) are unclear…

In the chimeric murine model, we found that blockade of CB1 by administration of a CB1 antagonist inhibited the recruitment of Bone marrow-derived monocytes/macrophages (BMM) into injured liver using immunofluorescence staining and FACS, but it did not have effects on migration of T cells and dendritic cells without CB1 expression. Furthermore, activation of CB1 enhanced cytokine expression of BMM. In vivo, inhibition of CB1 attenuated the inflammatory cytokine level through real-time RT-PCR and cytometric bead array, ameliorating hepatic inflammation and fibrosis.

In this study, we identify inactivation of BMM-expressed CB1 as a therapeutic strategy for reducing hepatic inflammation and fibrosis.”

http://www.ncbi.nlm.nih.gov/pubmed/26320250

Pregnenolone can protect the brain from cannabis intoxication.

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“Pregnenolone is considered the inactive precursor of all steroid hormones, and its potential functional effects have been largely uninvestigated.

The administration of the main active principle of Cannabis sativa (marijuana), Δ(9)-tetrahydrocannabinol (THC), substantially increases the synthesis of pregnenolone in the brain via activation of the type-1 cannabinoid (CB1) receptor.

Pregnenolone then, acting as a signaling-specific inhibitor of the CB1 receptor, reduces several effects of THC.

This negative feedback mediated by pregnenolone reveals a previously unknown paracrine/autocrine loop protecting the brain from CB1 receptor overactivation that could open an unforeseen approach for the treatment of cannabis intoxication and addiction.

These data indicate that THC increases pregnenolone through activation of the CB1 receptor…

In conclusion, this new understanding of the role of pregnenolone has the potential to generate new therapies for cannabis dependence.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4057431/

Enhancing Brain Pregnenolone May Protect Cannabis Intoxication but Should Not Be Considered as an Anti-addiction Therapeutic: Hypothesizing Dopaminergic Blockade and Promoting Anti-Reward.

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“Pregnenolone considered the inactive precursor of all steroid hormones, has recently been shown to protect the brain from Cannabis intoxication.

The major active ingredient of Cannabis sativa (marijuana), Δ9-tetrahydrocannabinol (THC) enhances Pregnenolone synthesis in the brain via stimulation of the type-1 cannabinoid (CB1) receptor.

This steroid has been shown to inhibit the activity of the CB1 receptor thereby reducing many of the effects of THC.

While this mechanism seems correct, in our opinion, Vallee et al., incorrectly suggest that blocking CB1 receptors could open unforeseen approaches to the treatment of cannabis intoxication and addiction.

In this hypothesis, we caution the scientific community that, other CB1 receptor blockers, such as, Rimonabant (SR141718) have been pulled off the market in Europe. In addition, CB1 receptor blockers were rejected by the FDA due to mood changes including suicide ideation.

Blocking CB1 receptors would result in reduced neuronal release of Dopamine by disinhibition of GABA signaling.

Long-term blockade of cannabinoid receptors could occur with raising Pregnenolone brain levels…”

http://www.ncbi.nlm.nih.gov/pubmed/26306328