Second Cannabinoid Receptor Has the Yin to the First Receptor’s Yang

“Understanding the diverse effects that cannabis has on the human body is imperative if we hope to take advantage of its medicinal properties to treat various disorders. As such, elucidating the molecular structure of the receptors that bind endocannabinoids is a critical step toward developing selective drugs that can differentiate between the two known receptors—CB1 and CB2—for these molecules. Since the structure of the CB1 receptor was resolved a few years ago, an international team of researchers led by scientists at the iHuman Institute within ShanghaiTech University has just published the crystal structure of the human type 2 cannabinoid receptor, CB2.

Findings from the new study—published recently in Cell through an article titled “Crystal Structure of the Human Cannabinoid Receptor CB2”—should be helpful in the development of drugs against inflammatory, neurodegenerative, and other diseases. The study authors compared the newly discovered structure to that of the CB1 receptor, deeming the two receptors to be the “yin and yang” of the human endocannabinoid system.”

“Crystal Structure of the Human Cannabinoid Receptor CB1” https://www.cell.com/fulltext/S0092-8674(16)31385-X
“Crystal Structure of the Human Cannabinoid Receptor CB2” https://www.cell.com/cell/pdf/S0092-8674(18)31625-8.pdf
“This study compares newly discovered structures to those of the CB1 receptor, and deems the two receptors to be the Yin and Yang of the human endocannabinoid system, which is a signalling system that regulates biological processes such as pain, immune function, metabolism, and neuronal activities among others.” https://www.worldhealth.net/news/ying-yang-second-cannabinoid-receptor/

Role of endocannabinoid system in dopamine signalling within the reward circuits affected by chronic pain.

Pharmacological Research

“The association between chronic pain, depression and anxiety has gained particular attention due to high rates of comorbidity. Recent data demonstrated that the mesolimbic reward circuitry is involved in the pathology of chronic pain. Interestingly, the mesolimbic reward circuit participates both in pain perception and in pain relief.

The endocannabinoid system (ECS) has emerged as a highly relevant player involved in both pain perception and reward processing. Targeting ECS could become a novel treatment strategy for chronic pain patients.

However, little is known about the underlying mechanisms of action of cannabinoids at the intersection of neurochemical changes in reward circuits and chronic pain. Because understanding the benefits and risks of cannabinoids is paramount, the aim of this review is to evaluate the state-of-art knowledge about the involvement of the ECS in dopamine signalling within the reward circuits affected by chronic pain.”

https://www.ncbi.nlm.nih.gov/pubmed/30831242

https://www.sciencedirect.com/science/article/abs/pii/S1043661819300088?via%3Dihub

Association Between Cannabis Use and Complications Related to Crohn’s Disease: A Retrospective Cohort Study.

“Crohn’s disease is an idiopathic inflammatory process that is occasionally associated with complications, which cause significant morbidity and mortality. The anti-inflammatory effect of cannabis in intestinal inflammation has been shown in several experimental models; it is unknown whether this correlates with fewer complications in Crohn’s disease patients.

AIMS:

To compare the prevalence of Crohn’s disease-related complications among cannabis users and non-users in patients admitted with a primary diagnosis of Crohn’s disease or a primary diagnosis of Crohn’s related complication and a secondary diagnosis of Crohn’s disease between 2012 and 2014.

METHODS:

We used data from the Healthcare Cost and Utilization Project-National Inpatient Sample. Cannabis users (615) were compared directly after propensity score match to non-users, in aspects of various complications and clinical end-points.

RESULTS:

Among matched cohorts, Cannabis users were less likely to have the following: active fistulizing disease and intra-abdominal abscess (11.5% vs. 15.9%; aOR 0.68 [0.49 to 0.94], p = 0.025), blood product transfusion (5.0% vs. 8.0%; aOR 0.48 [0.30 to 0.79], p = 0.037), colectomy (3.7% vs. 7.5%; aOR 0.48 [0.29-0.80], p = 0.004), and parenteral nutrition requirement (3.4% vs. 6.7%, aOR 0.39 [0.23 to 0.68], p = 0.009).

CONCLUSION:

Cannabis use may mitigate several of the well-described complications of Crohn’s disease among hospital inpatients. These effects could possibly be through the effect of cannabis in the endocannabinoid system.”

https://www.ncbi.nlm.nih.gov/pubmed/30825109

https://link.springer.com/article/10.1007%2Fs10620-019-05556-z

Cannabinoid derivatives acting as dual PPARγ/CB2 agonists as therapeutic agents for Systemic Sclerosis.

Biochemical Pharmacology

“The endocannabinoid system(ECS) may play a role in the pathophysiology of systemic sclerosis (SSc). Cannabinoids actingas dual PPARγ/CB2agonists, such as VCE-004.8 and Ajulemic acid (AjA), havebeen shown to alleviate skin fibrosis and inflammation in SSc models. Since bothcompounds are being tested in humans, we compared their activities in the bleomycin(BLM) SSc model.Specifically, the pharmacotranscriptomicsignature of the compounds was determined by RNA-Seq changes in the skin of BLM mice treated orallywith AjA or EHP-101, a lipidicformulation of VCE-004.8. While both compounds down-regulatedthe expression of genes involved in the inflammatoryand fibrotic components of the disease and the pharmacotranscriptomicsignatures were similar for both compounds in some pathways, we found keydifferences between the compounds in vasculogenesis. Additionally, we found 28 specific genes withtranslation potential by comparing with a list of humanscleroderma genes. Immunohistochemical analysis revealed that both compounds prevented fibrosis, collagen accumulation andTenascin C (TNC) expression. Theendothelial CD31+/CD34+ cells and telocyteswere reduced in BLM mice and restored only byEHP-101 treatment. Finally, differences were found inplasmatic biomarker analysis; EHP-101, but not AjA, enhanced the expressionof some factors related to angiogenesisand vasculogenesis. Altogether the results indicate that dual PPARγ/CB2agonists qualify as a novel therapeutic approach for the treatment of SSc and other fibrotic diseases. EHP-101 demonstratedunique mechanisms of action related to the pathophysiology of SSc that could be beneficial in the treatment of this complex disease without current therapeutic options.”

https://www.ncbi.nlm.nih.gov/pubmed/30825431

https://www.sciencedirect.com/science/article/abs/pii/S0006295219300772?via%3Dihub

CB2 Receptor Stimulation and Dexamethasone Restore the Anti-Inflammatory and Immune-Regulatory Properties of Mesenchymal Stromal Cells of Children with Immune Thrombocytopenia.

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“Immune thrombocytopenia (ITP) is an autoimmune disorder characterized by antibody-mediated platelet destruction, with a complex and unclear pathogenesis. The impaired immunosuppressive capacity of mesenchymal stromal cells in ITP patients (ITP-MSCs) might play a role in the development of the disease. Correcting the MSC defects could represent an alternative therapeutic approach for ITP.

High-dose dexamethasone (HD-Dexa) is the mainstay of the ITP therapeutic regimen, although it has several side effects. We previously demonstrated a role for cannabinoid receptor 2 (CB₂) as a mediator of anti-inflammatory and immunoregulatory properties of human MSCs.

We analyzed the effects of CB₂ stimulation, with the selective agonist JWH-133, and of Dexa alone and in combination on ITP-MSC survival and immunosuppressive capacity. We provided new insights into the pathogenesis of ITP, suggesting CB₂ receptor involvement in the impairment of ITP-MSC function and confirming MSCs as responsive cellular targets of Dexa. Moreover, we demonstrated that CB₂ stimulation and Dexa attenuate apoptosis, via Bcl2 signaling, and restore the immune-modulatory properties of MSCs derived from ITP patients.

These data suggest the possibility of using Dexa in combination with JWH-133 in ITP, reducing its dose and side effects but maintaining its therapeutic benefits.”

https://www.ncbi.nlm.nih.gov/pubmed/30823385

https://www.mdpi.com/1422-0067/20/5/1049

Acute effect of vaporized Cannabis on sleep and electrocortical activity.

Pharmacology Biochemistry and Behavior

“The use of Cannabis for medical purposes is rapidly expanding and is usually employed as a self-medication for the treatment of insomnia disorder.

However, the effect on sleep seems to depend on multiple factors such as composition of the Cannabis, dosage and route of administration. Vaporization is the recommended route for the administration of Cannabis for medical purposes; however, there is no published research about the effects of vaporized Cannabis on sleep, neither in laboratory animals, nor in humans.

Because previous reports suggested that low doses of THC have sedating effects, the aim of the present study was to characterize in rats, the acute effects on sleep induced by the administration of low doses of THC by means of vaporization of a specific type of Cannabis (THC 11.5% and negligible amounts of other cannabinoids).

For this purpose, polysomnographic recordings in chronically prepared rats were performed during 6 h in the light and dark phases. Animals were treated with 0 (control), 40, 80 and 200 mg of Cannabis immediately before the beginning of recordings; the THC plasma concentrations with these doses were low (up to 6.7 ng/mL with 200 mg). A quantitative EEG analyses by means of the spectral power and coherence estimations was also performed for the highest Cannabis dose.

Compared to control, 200 mg of Cannabis increased NREM sleep time during the light phase, but only during the first hour of recording. Interestingly, no changes on sleep were observed during the dark (active) phase or with lower doses of Cannabis. Cannabis 200 mg also produced EEG power reductions in different cortices, mainly for high frequency bands during W and REM sleep, but only during the light phase. On the contrary, a reduction in the sleep spindles intra-hemispheric coherence was observed during NREM sleep, but only during the dark phase.

In conclusion, administration of low doses of THC by vaporization of a specific type of Cannabis produced a small increment of NREM sleep, but only during the light (resting) phase. This was accompanied by subtle modifications of high frequency bands power (during the light phase) and spindle coherence (during the dark phase), which are associated with cognitive processing.

Our results reassure the importance of exploring the sleep-promoting properties of Cannabis.”

https://www.ncbi.nlm.nih.gov/pubmed/30822492

https://www.sciencedirect.com/science/article/pii/S0091305718304714?via%3Dihub

Plant-Based Modulators of Endocannabinoid Signaling.

Journal of Natural Products

“Extracts from Cannabis species have aided the discovery of the endocannabinoid signaling system (ECSS) and phytocannabinoids that possess broad therapeutic potential. Whereas the reinforcing effects of C. sativa are largely attributed to CB1 receptor agonism by Δ9-tetrahydrocannabinol (Δ9-THC), the observed medicinal effects of Cannabis arise from the combined actions of various compounds. In addition to compounds bearing a classical cannabinoid structure, naturally occurring fatty acid amides and esters resembling anandamide and 2-arachidonoyl glycerol isolated from non- Cannabis species are also valuable tools for studying ECSS function. This review highlights the potential of plant-based secondary metabolites from Cannabis and unrelated species as ECSS modulators.”

https://www.ncbi.nlm.nih.gov/pubmed/30816712

https://pubs.acs.org/doi/10.1021/acs.jnatprod.8b00874

Striking lung cancer response to self-administration of cannabidiol: A case report and literature review.

SAGE Journals

“In spite of new drugs, lung cancer is associated with a very poor prognosis. While targeted therapies are improving outcomes, it is not uncommon for many patients to have only a partial response, and relapse during follow-up. Thus, new drugs or re-evaluation of existing therapies used to treat other non-malignant diseases (drug repurposing) are still needed. While this research both in vitroand in vivo is being carried out, it is important to be attentive to patients where the disease responds to treatments not considered standard in clinical practice.

We report here a patient with adenocarcinoma of the lung who, after declining chemotherapy and radiotherapy, presented with tumour response following self-administration of cannabidiol, a non-psychoactive compound present in Cannabis sativa. Prior work has shown that cannabidiol may have anti-neoplastic properties and enhance the immune response to cancer.

The data presented here indicate that cannabidiol might have led to a striking response in a patient with lung cancer.”

https://www.ncbi.nlm.nih.gov/pubmed/30815264

https://journals.sagepub.com/doi/10.1177/2050313X19832160

Cannabinoid Profiling of Hemp Seed Oil by Liquid Chromatography Coupled to High-Resolution Mass Spectrometry.

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“Hemp seed oil is well known for its nutraceutical, cosmetic and pharmaceutical properties due to a perfectly balanced content of omega 3 and omega 6 polyunsaturated fatty acids. Its importance for human health is reflected by the success on the market of organic goods in recent years.

However, it is of utmost importance to consider that its healthy properties are strictly related to its chemical composition, which varies depending not only on the manufacturing method, but also on the hemp variety employed. In the present work, we analyzed the chemical profile of ten commercially available organic hemp seed oils. Their cannabinoid profile was evaluated by a liquid chromatography method coupled to high-resolution mass spectrometry.

Besides tetrahydrocannabinol and cannabidiol, other 30 cannabinoids were identified for the first time in hemp seed oil.

The results obtained were processed according to an untargeted metabolomics approach. The multivariate statistical analysis showed highly significant differences in the chemical composition and, in particular, in the cannabinoid content of the hemp oils under investigation.”

https://www.ncbi.nlm.nih.gov/pubmed/30815007

https://www.frontiersin.org/articles/10.3389/fpls.2019.00120/full

Cannabis and Its Secondary Metabolites: Their Use as Therapeutic Drugs, Toxicological Aspects, and Analytical Determination.

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“Although the medicinal properties of Cannabis species have been known for centuries, the interest on its main active secondary metabolites as therapeutic alternatives for several pathologies has grown in recent years. This potential use has been a revolution worldwide concerning public health, production, use and sale of cannabis, and has led inclusively to legislation changes in some countries. The scientific advances and concerns of the scientific community have allowed a better understanding of cannabis derivatives as pharmacological options in several conditions, such as appetite stimulation, pain treatment, skin pathologies, anticonvulsant therapy, neurodegenerative diseases, and infectious diseases. However, there is some controversy regarding the legal and ethical implications of their use and routes of administration, also concerning the adverse health consequences and deaths attributed to marijuana consumption, and these represent some of the complexities associated with the use of these compounds as therapeutic drugs. This review comprehends the main secondary metabolites of Cannabis, approaching their therapeutic potential and applications, as well as their potential risks, in order to differentiate the consumption as recreational drugs. There will be also a focus on the analytical methodologies for their analysis, in order to aid health professionals and toxicologists in cases where these compounds are present.”