Tag Archives: endocannabinoid system

Involvement of endocannabinoid system, inflammation and apoptosis in diabetes induced liver injury: Role of 5-HT3 receptor antagonist.

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International Immunopharmacology“Confident relationships between diabetes and liver damage have previously been established.

This study was designed to evaluate hepaticinflammation, apoptosis, and endocannabinoid system alterations in diabetes with or without tropisetron treatment.

These findings strongly support the idea that diabetes-induced liver abnormality is mediated by inflammatory reactions, apoptosis, and endocannabinoid system, and that these effects can be alleviated by using tropisetron as an antioxidant and anti-inflammatory agent.”

https://www.ncbi.nlm.nih.gov/pubmed/31926479

https://www.sciencedirect.com/science/article/pii/S1567576919322684?via%3Dihub

The proposed mechanism of action of CBD in epilepsy.

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Image result for Epileptic Disorders journal“Highly purified cannabidiol (CBD) (approved as Epidiolex® in the United States) has demonstrated efficacy with an acceptable safety profile in patients with Lennox-Gastaut or Dravet syndrome in four randomized controlled trials.

While the mechanism of action of CBD underlying the reduction of seizures in humans is unknown, CBD possesses affinity for multiple targets, across a range of target classes, resulting in functional modulation of neuronal excitability, relevant to the pathophysiology of many disease types, including epilepsy.

Here we present the pharmacological data supporting the role of three such targets, namely Transient receptor potential vanilloid-1 (TRPV1), the orphan G protein-coupled receptor-55 (GPR55) and the equilibrative nucleoside transporter 1 (ENT-1).”

 https://www.ncbi.nlm.nih.gov/pubmed/31919042
https://www.jle.com/fr/revues/epd/e-docs/the_proposed_mechanism_of_action_of_cbd_in_epilepsy_316039/article.phtml

Cannabidiol-induced panicolytic-like effects and fear-induced antinociception impairment: the role of the CB1 receptor in the ventromedial hypothalamus.

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Image result for Springer Link“The behavioural effects elicited by chemical constituents of Cannabis sativa, such as cannabidiol (CBD), on the ventromedial hypothalamus (VMH) are not well understood. There is evidence that VMH neurons play a relevant role in the modulation of unconditioned fear-related defensive behavioural reactions displayed by laboratory animals.

OBJECTIVES:

This study was designed to explore the specific pattern of distribution of the CB1 receptors in the VMH and to investigate the role played by this cannabinoid receptor in the effect of CBD on the control of defensive behaviours and unconditioned fear-induced antinociception.

METHODS:

A panic attack-like state was triggered in Wistar rats by intra-VMH microinjections of N-methyl-D-aspartate (NMDA). One of three different doses of CBD was microinjected into the VMH prior to local administration of NMDA. In addition, the most effective dose of CBD was used after pre-treatment with the CB1 receptor selective antagonist AM251, followed by NMDA microinjections in the VMH.

RESULTS:

The morphological procedures demonstrated distribution of labelled CB1 receptors on neuronal perikarya situated in dorsomedial, central and ventrolateral divisions of the VMH. The neuropharmacological approaches showed that both panic attack-like behaviours and unconditioned fear-induced antinociception decreased after intra-hypothalamic microinjections of CBD at the highest dose (100 nmol). These effects, however, were blocked by the administration of the CB1 receptor antagonist AM251 (100 pmol) in the VMH.

CONCLUSION:

These findings suggest that CBD causes panicolytic-like effects and reduces unconditioned fear-induced antinociception when administered in the VMH, and these effects are mediated by the CB1 receptor-endocannabinoid signalling mechanism in VMH.”

https://www.ncbi.nlm.nih.gov/pubmed/31919563

https://link.springer.com/article/10.1007%2Fs00213-019-05435-5

“panicolytic: That reduces the flight reflex in animals when faced with danger. Any drug that has this effect.” https://en.wiktionary.org/wiki/panicolytic

Cannabinoids and Opioids in the Treatment of Inflammatory Bowel Diseases.

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Image result for clinical and translational gastroenterology“In traditional medicine, Cannabis sativa has been prescribed for a variety of diseases. Today, the plant is largely known for its recreational purpose, but it may find a way back to what it was originally known for: a herbal remedy. Most of the plant’s ingredients, such as Δ-tetrahydrocannabinol, cannabidiol, cannabigerol, and others, have demonstrated beneficial effects in preclinical models of intestinal inflammation. Endogenous cannabinoids (endocannabinoids) have shown a regulatory role in inflammation and mucosal permeability of the gastrointestinal tract where they likely interact with the gut microbiome. Anecdotal reports suggest that in humans, Cannabis exerts antinociceptive, anti-inflammatory, and antidiarrheal properties. Despite these reports, strong evidence on beneficial effects of Cannabis in human gastrointestinal diseases is lacking. Clinical trials with Cannabis in patients suffering from inflammatory bowel disease (IBD) have shown improvement in quality of life but failed to provide evidence for a reduction of inflammation markers. Within the endogenous opioid system, mu opioid receptors may be involved in anti-inflammation of the gut. Opioids are frequently used to treat abdominal pain in IBD; however, heavy opioid use in IBD is associated with opioid dependency and higher mortality. This review highlights latest advances in the potential treatment of IBD using Cannabis/cannabinoids or opioids.”

https://www.ncbi.nlm.nih.gov/pubmed/31899693

https://journals.lww.com/ctg/Abstract/latest/Cannabinoids_and_Opioids_in_the_Treatment_of.99898.aspx

A North American History of Cannabis Use in the Treatment of Epilepsy.

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 Related image“Cannabis has been used for millennia in religious ceremonies, for recreation and for its medicinal qualities. There are multiple accounts detailing the specific ailments cannabis has been used to treat, many of which have included epilepsy. Racial discrimination and political stigmatization led to prohibition, which limited both patients’ and researchers’ access to the drug through the 20th century. Recently, academic interest has been renewed in cannabis, especially regarding the modulation of cortical excitability via the human endocannabinoid system. Modern research has produced several promising studies regarding the treatment of epileptic encephalopathies. Legalization of marijuana in Canada has potentially allowed for further trials, but it is by no means an end to the controversy surrounding the treatment of epilepsy with cannabinoids.”

https://www.ncbi.nlm.nih.gov/pubmed/31895188

https://insights.ovid.com/crossref?an=00004691-202001000-00006

The Endocannabinoid System and Synthetic Cannabinoids in Preclinical Models of Seizure and Epilepsy.

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 Related image“Cannabinoids are compounds that are structurally and/or functionally related to the primary psychoactive constituent of Cannabis sativa, [INCREMENT]-tetrahydrocannabinol (THC). Cannabinoids can be divided into three broad categories: endogenous cannabinoids, plant-derived cannabinoids, and synthetic cannabinoids (SCs).

Recently, there has been an unprecedented surge of interest into the pharmacological and medicinal properties of cannabinoids for the treatment of epilepsies. This surge has been stimulated by an ongoing shift in societal opinions about cannabinoid-based medicines and evidence that cannabidiol, a nonintoxicating plant cannabinoid, has demonstrable anticonvulsant activity in children with treatment-refractory epilepsy.

The major receptors of the endogenous cannabinoid system (ECS)-the type 1 and 2 cannabinoid receptors (CB1R, CB2R)-have critical roles in the modulation of neurotransmitter release and inflammation, respectively; so, it is not surprising therefore that the ECS is being considered as a target for the treatment of epilepsy.

SCs were developed as potential new drug candidates and tool compounds for studying the ECS. Beyond the plant cannabinoids, an extensive research effort is underway to determine whether SCs that directly target CB1R, CB2R, or the enzymes that breakdown endogenous cannabinoids have anticonvulsant effects in preclinical rodent models of epilepsy and seizure.

This research demonstrates that many SCs do reduce seizure severity in rodent models and may have both positive and negative pharmacodynamic and pharmacokinetic interactions with clinically used antiepilepsy drugs. Here, we provide a comprehensive review of the preclinical evidence for and against SC modulation of seizure and discuss the important questions that need to be addressed in future studies.”

https://www.ncbi.nlm.nih.gov/pubmed/31895186

https://insights.ovid.com/crossref?an=00004691-202001000-00004

Cannabis for Pediatric Epilepsy.

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 Related image“Epilepsy is a chronic disease characterized by recurrent unprovoked seizures. Up to 30% of children with epilepsy will be refractory to standard anticonvulsant therapy, and those with epileptic encephalopathy can be particularly challenging to treat.

The endocannabinoid system can modulate the physiologic processes underlying epileptogenesis. The anticonvulsant properties of several cannabinoids, namely Δ-tetrahydrocannabinol and cannabidiol (CBD), have been demonstrated in both in vitro and in vivo studies.

Cannabis-based therapies have been used for millennia to treat a variety of diseases including epilepsy. Several studies have shown that CBD, both in isolation as a pharmaceutical-grade preparation or as part of a CBD-enriched cannabis herbal extract, is beneficial in decreasing seizure frequency in children with treatment-resistant epilepsy.

Overall, cannabis herbal extracts appear to provide greater efficacy in decreasing seizure frequency, but the studies assessing cannabis herbal extract are either retrospective or small-scale observational studies. The two large randomized controlled studies assessing the efficacy of pharmaceutical-grade CBD in children with Dravet and Lennox-Gastaut syndromes showed similar efficacy to other anticonvulsants. Lack of data regarding appropriate dosing and pediatric pharmacokinetics continues to make authorization of cannabis-based therapies to children with treatment-resistant epilepsy challenging.”

https://www.ncbi.nlm.nih.gov/pubmed/31895184

https://insights.ovid.com/crossref?an=00004691-202001000-00002

Antioxidative and Anti-Inflammatory Properties of Cannabidiol.

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antioxidants-logo“Cannabidiol (CBD) is one of the main pharmacologically active phytocannabinoids of Cannabis sativa L. CBD is non-psychoactive but exerts a number of beneficial pharmacological effects, including anti-inflammatory and antioxidant properties. The chemistry and pharmacology of CBD, as well as various molecular targets, including cannabinoid receptors and other components of the endocannabinoid system with which it interacts, have been extensively studied. In addition, preclinical and clinical studies have contributed to our understanding of the therapeutic potential of CBD for many diseases, including diseases associated with oxidative stress. Here, we review the main biological effects of CBD, and its synthetic derivatives, focusing on the cellular, antioxidant, and anti-inflammatory properties of CBD.”

https://www.ncbi.nlm.nih.gov/pubmed/31881765

https://www.mdpi.com/2076-3921/9/1/21

Medicinal and Synthetic Cannabinoids for Pediatric Patients: A Review of Clinical Effectiveness and Guidelines [Internet].

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Cover of Medicinal and Synthetic Cannabinoids for Pediatric Patients: A Review of Clinical Effectiveness and Guidelines“Cannabinoids are pharmacologically active agents extracted from the cannabis plant. Cannabidiol and tetrahydrocannabinol (THC) are the most studied cannabinoids and both interact with endocannabinoid receptors in various human tissues. The endocannabinoid system moderates physiological functions, such as neurodevelopment, cognition, and motor control.

The products naturally derived from cannabis include marijuana (dried leaves and flowers, mostly for smoking) and oral cannabinoid extracts with varying concentrations of cannabinoids, including cannabidiol and THC. THC is the main psychoactive constituent and cannabidiol seems to have no psychoactive properties. In addition, there are two synthetical cannabinoids approved by the Food and Drug Administration (FDA) in the United States, dronabinol and nabilone, which are molecules similar to a type of THC (δ-9-THC)1 Nabilone is also approved in Canada. Dronabinol is indicated for chemotherapy-induced nausea and vomiting in children. The use of nabilone in children is not recommended.

In Canada, the minimum age for cannabis consumption varies by provinces and territories, and is either 18 or 19 years. A prescription is required to administer cannabinoids among children. Clinically, cannabis has been used to treat children with epilepsy, cancer palliation and primary treatment, chronic pain, and Parkinson disease.

The adverse events that clinicians need to monitor for include negative psychoactive sequelae and development of tolerance. Psychoactive sequelae may be positive, such as relaxation and euphoria, or negative, such as anxiety and irritability. In 2016, CADTH completed a Summary of Abstracts report on the use of cannabis in children with medical conditions such as attention deficit hyperactivity disorder, autism spectrum disorder, Tourette syndrome, epilepsy, posttraumatic stress disorder, or neurodegenerative diseases, and five non-randomized studies were identified. However, there were no control groups in the five studies included in the report.

It is unclear whether there is new evidence or clinical guidance for the use of medical cannabis in children with mental health conditions, neurodegenerative diseases, or pain disorders, particularly in comparison with other possible therapies for those conditions. There is a need to review the clinical effectiveness of cannabis for pediatric care, as well as clinical guidelines.”

https://www.ncbi.nlm.nih.gov/pubmed/31873990

https://www.ncbi.nlm.nih.gov/books/NBK551866/

Use of cannabidiol in anxiety and anxiety-related disorders.

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“Cannabidiol (CBD) has a proposed novel role in the management of anxiety owing to its actions on the endocannabinoid system.

The purpose of this systematic review was to evaluate the current evidence on the safety and efficacy of CBD in anxiety and anxiety-related disorders.

RESULTS:

Eight articles were included in the review: 6 small, randomized controlled trials; 1 case series; and 1 case report. These studies examined the role of CBD in the anxiety response of healthy volunteers; in generalized anxiety disorder; in social anxiety disorder; and in the anxiety component of posttraumatic stress syndrome. No articles that evaluated CBD in panic disorder, specific phobia, separation anxiety, and obsessive-compulsive disorder were identified. In the studies, CBD was administered orally as a capsule or as a sublingual spray and as either monotherapy or adjunctive therapy. Doses varied widely, with studies employing fixed CBD doses ranging from 6 mg to 400 mg per dose. Various anxiety assessment scales were used in the studies to assess efficacy, with CBD demonstrating improved clinical outcomes among the instruments. In general, CBD was well-tolerated and associated with minimal adverse effects, with the most commonly noted adverse effects being fatigue and sedation.

CONCLUSION:

CBD has a promising role as alternative therapy in the management of anxiety disorders. However, more studies with standardized approaches to dosing and clinical outcome measurements are needed to determine the appropriate dosing strategy for CBD and its place in therapy.”

https://www.ncbi.nlm.nih.gov/pubmed/31866386

https://www.japha.org/article/S1544-3191(19)30514-X/fulltext