Eight Weeks of Daily Cannabidiol Supplementation Improves Sleep Quality and Immune Cell Cytotoxicity

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“Background: The endocannabinoid system is active in nervous and immune cells and involves the expression of two cannabinoid receptor genes (CB1 and CB2), along with endogenous endocannabinoid ligands, 2-arachidonoyl glycerol (2-AG) and arachidonoyl ethanolamide (anandamide), and their synthetic enzymes. Cannabidiol (CBD) is a non-intoxicating exogenous cannabinoid agonist derived from plants that, at high doses, has received FDA approval as an anticonvulsant for epileptic seizures, and at low doses is marketed as a food-grade supplement for improved mental health, sleep quality, and immunological function. At present, the predominance of published CBD clinical research has focused on ameliorative or disease-specific intervention, with few trials investigating CBD effects in healthy populations.

Methods: This clinical study aimed to investigate the effects of 8 weeks of 50 mg oral CBD on mental health, sleep quantity and quality, and immune cell function in healthy, college-aged individuals. Twenty-eight participants (average age 25.9 ± 6.1 y) were randomized to receive either daily oral capsules of 50 mg of CBD (CB, n = 14) or a calorie-matched placebo (CN, n = 14). Participants completed pre- and post-intervention assessments, including anthropometric measurements, mental health surveys, sleep analysis, and immunological function assessments.

Results: After completing the 8-week intervention, there were no significant changes in body weight and BMI (CN: 1.09 ± 0.89%: CB: 1.41 ± 1.07%), or body fat percentage (CN: 9.01 ± 7.51%: CB: 8.57 ± 7.81%), respectively (values are % change pre to post, p > 0.05). There were also no significant differences between CB and CN groups with respect to mental health measures, sleep quantity, or circulating immunophenotype as a result of the intervention. However, the CB group experienced significant improvements in sleep quality measured objectively using a sleep questionnaire (p = 0.0023) and enhanced Natural Killer (NK) immune cell function assessed in situ (p = 0.0125).

Conclusions: Eight weeks of daily 50 mg CBD may improve sleep quality, and NK immunosurveillance in healthy, younger adults.”

https://pubmed.ncbi.nlm.nih.gov/37836465/

“These results collectively support the notion that low dose CBD supplementation may offer benefits in enhancing sleep quality in humans and improving immunosurveillance against cancer cells in situ.”

https://www.mdpi.com/2072-6643/15/19/4173

Applications of Cannabinoids in Neuropathic Pain: An Updated Review

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“Neuropathic pain is experienced due to injury to the nerves, underlying disease conditions or toxicity induced by chemotherapeutics. Multiple factors can contribute to neuropathic pain such as central nervous system (CNS)-related autoimmune and metabolic disorders, nerve injury, multiple sclerosis and diabetes. Hence, development of pharmacological interventions to reduce the drawbacks of existing chemotherapeutics and counter neuropathic pain is an urgent unmet clinical need.

Cannabinoid treatment has been reported to be beneficial for several disease conditions including neuropathic pain.

Cannabinoids act by inhibiting the release of neurotransmitters from presynaptic nerve endings, modulating the excitation of postsynaptic neurons, activating descending inhibitory pain pathways, reducing neural inflammation and oxidative stress and also correcting autophagy defects. This review provides insights on the various preclinical and clinical therapeutic applications of cannabidiol (CBD), cannabigerol (CBG), and cannabinol (CBN) in various diseases and the ongoing clinical trials for the treatment of chronic and acute pain with cannabinoids.

Pharmacological and genetic experimental strategies have well demonstrated the potential neuroprotective effects of cannabinoids and also elaborated their mechanism of action for the therapy of neuropathic pain.”

https://pubmed.ncbi.nlm.nih.gov/37824417/

https://www.dl.begellhouse.com/journals/3667c4ae6e8fd136,7ec6441519bff684,786cb61f3f1ec955.html

The potential protective and therapeutic effects of cannabidiol oil on experimental Leukemia induced by DMBA in male rats

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“Background: 7,12-Dimethylbenzanthracene (DMBA) is a member of the polycyclic aromatic hydrocarbon family. It is a member of the polycyclic aromatic hydrocarbon family. It is a mutagenic, carcinogenic, and immunosuppressor agent. Cannabidiol (CBD) is a phytocannabinoid. It has anticonvulsant, anti-inflammatory, anti-anxiety, antioxidant, and anti-cancer properties. The purpose of this study was to investigate the possible protective and therapeutic benefits of CBD oil in DMBA-induced leukemia in rats.

Method: Experimental animals were divided into six groups of five rats each. Group 1 (normal control) included healthy rats. Group 2 included normal rats that received olive oil. Group 3 included normal rats that received CBD. Group 4 included the DMBA-induced leukemic group. Group 5 (prophylactic group) included rats that received CBD as a prophylaxis before IV injection with DMBA. Group 6 (treated group) included DMBA-induced leukemic rats that received CBD as treatment. Liver functions (total, direct and indirect bilirubin, alkaline phosphatase (ALP), alanine transaminase (ALT), aspartate aminotransferase (AST), albumin, globulin, and albumin globulin ratio) were measured. Superoxide dismutase (SOD) and catalase (CAT) were also measured. Total RNA extraction followed by-real time qRT-PCR gene expression of LC3-II, Beclin, mTOR, and P62 was performed. Histopathological examination of liver and spleen tissues was performed.

Results: Administration of CBD in groups 5 and 6 resulted in a significant improvement of the levels of liver functions compared to the leukemic untreated rats. Also, the levels of catalase and SOD significantly increased after treatment with CBD compared to the leukemic group. After treatment with CBD in groups 5 and 6, there were downregulations in the expression of all studied genes compared to leukemic untreated rats. Treatment with CBD was more statistically effective than prophylactic use.

Conclusion: Administration of CBD resulted in a significant improvement in the biochemical, antioxidant status, morphological, and molecular measures in DMBA-induced leukemia in adult male rats. The therapeutic use was more effective than the prophylactic one.”

https://pubmed.ncbi.nlm.nih.gov/37837474/

https://link.springer.com/article/10.1007/s00210-023-02737-6

Cell death induction and intracellular vesicle formation in human colorectal cancer cells treated with Δ9-Tetrahydrocannabinol

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“Background: Δ9-Tetrahydrocannabinol (Δ9-THC) is a principal psychoactive extract of Cannabis sativa and has been traditionally used as palliative medicine for neuropathic pain. Cannabidiol (CBD), an extract of hemp species, has recently attracted increased attention as a cancer treatment, but Δ9-THC is also requiring explored pharmacological application.

Objective: This study evaluated the pharmacological effects of Δ9-THC in two human colorectal cancer cell lines. We investigated whether Δ9-THC treatment induces cell death in human colorectal cancer cells.

Methods: We performed an MTT assay to determine the pharmacological concentration of Δ9-THC. Annxein V and Western blot analysis confirmed that Δ9-THC induced apoptosis in colorectal cancer cells. Metabolic activity was evaluated using MitoTracker staining and ATP determination. We investigated vesicle formation by Δ9-THC treatment using GW9662, known as a PPARγ inhibitor.

Results: The MTT assay showed that treatment with 40 μM Δ9-THC and above inhibited the proliferation of colorectal cancer cells. Multiple intracytoplasmic vesicles were detected upon microscopic observation, and fluorescence-activated cell sorting analysis showed cell death via G1 arrest. Δ9-THC treatment increased the expression of cell death marker proteins, including p53, cleaved PARP-1, RIP1, and RIP3, suggesting that Δ9-THC induced the death of colorectal cancer cells. Δ9-THC treatment also reduced ATP production via changes in Bax and Bcl-2. Δ9-THC regulated intracytoplasmic vesicle formation by modulating the expression of PPARγ and clathrin, adding that antiproliferative activity of Δ9-THC was also affected.

Conclusion: In conclusion, Δ9-THC regulated two functional mechanisms, intracellular vesicle formation and cell death. These findings can help to determine how cannabinoids can be used most effectively to improve the efficacy of cancer treatment.”

https://pubmed.ncbi.nlm.nih.gov/37837516/

https://link.springer.com/article/10.1007/s13258-023-01466-7

The Potential of Cannabidiol for Acute Respiratory Distress Syndrome in COVID-19

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“COVID-19 disease manifests itself in a wide range of signs and symptoms, beginning with mild symptoms, such as fever, cough, and dyspnea, progressing to acute respiratory distress syndrome (ARDS) and death in some cases. The cytokine storm, or an excess of cytokines released locally, is assumed to be the primary cause of ARDS and mortality in COVID-19 patients. To enhance the survival rate of COVID-19 patients, early management of the cytokine storm with immunomodulators is crucial. Although the effectiveness of some immunosuppressants, such as corticosteroids and tocilizumab, has been studied in clinical trials, the administration of these drugs should be exercised cautiously. Cannabidiol (CBD) is a non-psychotropic phytocannabinoid from Cannabis sativa extracts with anti-inflammatory properties. This review is intended to discuss the possible utility of CBD for the management of COVID-19 patients, particularly those with ARDS.”

https://pubmed.ncbi.nlm.nih.gov/37818584/

https://www.eurekaselect.com/article/134721

Cannabidiol Reduces Systemic Immune Activation in Experimental Acute Lung Injury

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“Background: The underlying pathomechanism of acute lung injury (ALI)/acute respiratory distress syndrome (ARDS) is the immune response to inflammation or infection within the pulmonary microcirculation. Systemic spread of pathogens, activated immune cells, and inflammatory mediators contributes significantly to mortality in patients with ARDS. 

Objective: The endogenous cannabinoid system is a major modulator of the immune response during inflammation and infection. Phytocannabinoids, such as cannabidiol (CBD), have shown promising anti-inflammatory effects in several pathologies. The overall objective of this study was to evaluate the effects of CBD on local and systemic inflammation in endotoxin-induced ALI in mice. 

Materials and Methods: ALI was induced by pulmonary endotoxin challenge. Four groups of male C57BL/6 mice were randomized in this study: control, ALI, ALI with CBD treatment, and control with CBD treatment. Analyses of local and systemic cytokine levels, lung histology, and leukocyte activation as visualized by intravital microscopy of the intestinal and pulmonary microcirculation were performed 6 h following intranasal endotoxin administration. 

Results: Pulmonary endotoxin challenge induced significant inflammation evidenced by local and systemic cytokine and chemokine release, lung histopathology, and leukocyte adhesion. Intraperitoneal CBD treatment resulted in a significant decrease in systemic inflammation as shown by reduced leukocyte adhesion in the intestinal microcirculation and reduced plasma cytokine and chemokine levels. Pulmonary chemokine levels were decreased, while pulmonary cytokine levels were unchanged. Surprisingly, the ALI score was slightly increased by CBD treatment in a manner driven by enhanced neutrophil infiltration of the alveoli. 

Conclusion: In this model of experimental ALI, CBD administration was associated with reduced systemic inflammation and heterogeneous effects on pulmonary inflammation. Future studies should explore the mechanisms involved as they relate to neutrophil infiltration and proinflammatory mediator production within the lungs.”

https://pubmed.ncbi.nlm.nih.gov/37815809/

https://www.liebertpub.com/doi/10.1089/can.2023.0039

Inhibitory activity of lignanamides isolated from hemp seed hulls( Cannabis sativa L.) against soluble epoxide hydrolase

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“Soluble epoxide hydrolase (sEH) is a therapeutic target for inflammation. In the present study, we isolated one new (1) and four known (25) compounds from the ethyl acetate fraction of hemp seed hulls. Their structures were elucidated as lignanamides via nuclear magnetic resonance and mass spectral analyses. All five compounds inhibited sEH activity, with half-maximal inhibitory concentrations of 2.7 ± 0.3 to 18.3 ± 1.0 μM. These lignanamides showed a competitive mechanism of inhibition via binding to sEH, with ki values below 10 μmol. Molecular simulations revealed that compounds 15 fit stably into the active site of sEH, and the key amino acid residues participating in their bonds were identified. It was confirmed that the potential inhibitors 4 and 5 continuously maintained a distance of 3.5 Å from one (Tyr383) and four amino (Asp335, Tyr383, Asn472, tyr516) residues, respectively. These findings provide a framework for the development of naturally derived sEH inhibitors.”

https://pubmed.ncbi.nlm.nih.gov/37810102/

https://www.cell.com/heliyon/fulltext/S2405-8440(23)06980-3?_returnURL=https%3A%2F%2Flinkinghub.elsevier.com%2Fretrieve%2Fpii%2FS2405844023069803%3Fshowall%3Dtrue

Computational Study on the Enzyme-Ligand Relationship between Cannabis Phytochemicals and Human Acetylcholinesterase: Implications in Alzheimer’s Disease

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“Cannabis has shown promise in treating various neurological disorders, including Alzheimer’s disease (AD). AD is a devastating neurodegenerative disorder that affects millions of people worldwide. Current treatments for AD are limited and are not very effective.

This study investigated the enzyme-ligand relationship between nine active components of cannabis and human acetylcholinesterase (HuAChE) enzyme, which is significant in AD. Specifically, computational methods such as quantum mechanics, molecular docking, molecular dynamics, and free energy calculations were used to identify the cannabis phytochemicals with the highest HuAChE affinity and to understand the specific binding mechanisms involved.

Our results showed that cannabichromene and cannabigerol were the cannabis phytochemicals with the highest affinity for HuAChE, with cannabichromene exhibiting the greatest binding energy. However, both substances showed lower affinity than that of the pharmaceutical drug donepezil.

This study suggests that cannabichromene has a specific affinity for the peripheral anionic site (PAS) and acyl-binding pocket (ABP), while cannabigerol predominantly binds to PAS. Also, it was found that cannabichromene has a specific affinity for PAS and ABP, while cannabigerol predominantly binds to PAS.

Our findings suggest that cannabichromene and cannabigerol are potential therapeutic agents, but further research is needed to validate their effectiveness. The specific binding mechanisms identified may also provide helpful information for the design of more effective cannabis-based drugs.

Overall, this study provides valuable insights into the potential of cannabis-based drugs for treating neurological diseases.”

https://pubmed.ncbi.nlm.nih.gov/37815196/

https://pubs.acs.org/doi/10.1021/acs.jpcb.3c04315

Reversion of chemoresistance by endocannabinoid-induced ER stress and autophagy activation in ovarian cancer

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“The difficulty of detection at an early stage and the ease of developing resistance to chemotherapy render ovarian cancer (OVC) difficult to cure. Although several novel cancer therapies have been developed recently, drug resistance remains a concern since chemotherapy remains as the most commonly used treatment for cancer patients. Therefore, there is an urgent need to reclaim potential combination treatments for OVC.

So far, there have been several research targeting the endocannabinoid system (ECS) in cancer. Among the various cannabinoid-based drugs, endocannabinoids, which are lipid molecules generated in the body, have been reported to produce many anti-tumor effects; however, research investigating the anti-chemoresistance effect of endocannabinoids in OVC remains unclear.

In this study, we aimed to combine endocannabinoids, anandamide (AEA), and 2-arachidonoylglycerol (2-AG) with chemotherapeutic drugs as a combination approach to treat OVC.

Our results showed that OVC cells expressed both cannabinoid receptors (CBR), CB1 and CB2, suggesting the possibility of endocannabinoid system (ECS) as a target. We found that the anti-chemoresistance effect mediated by endocannabinoids was caused by upregulation of ceramide levels, leading to severe endoplasmic reticulum (ER) stress and increased autophagy in chemoresistant cancer cells. Therefore, chemoresistant cancer cell growth was inhibited, and cell apoptosis was induced under combined treatments. Based on our results, endocannabinoids overcomed chemoresistance of OVC cells in vitro.

Our findings suggest that drugs targeting ECS may have the potential to be adjuvants for chemotherapy by increasing the efficacy of chemotherapeutic drugs and decreasing their side effects.”

https://pubmed.ncbi.nlm.nih.gov/37818056/

Cannabinol inhibits cell growth and triggers cell cycle arrest and apoptosis in cancer cells

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Biocatalysis and Agricultural Biotechnology

“Cancer is one of the most difficult diseases to treat and cure.”

“Cannabinol (CBN), one of the active ingredients from the cannabis plant, is the breakdown molecule of Δ9-tetrahydrocannabinol (Δ9-THC) which is the most abundant psychoactive cannabinoid.”

“Cannabinol (CBN) is a weak-psychoactive cannabinoid and has been shown to exert several bio-logical activities. At the same time, not much is known about the anti-cancer activities of CBN. In this report, we characterized the anti-tumor effects of CBN on the glioma A172, liver cancer HepG2 and breast cancer HCC1806 cell lines.

We found that CBN reduces the proliferation of the analyzed cancer cells and modulates the level of cannabinoid receptors, including GPR18, CB2 and GPR55. Furthermore, CBN inhibits the ERK1/2 pathway in A172 and HepG2 cells, while suppressing the AKT pathway in HCC1086 cells. Moreover, CBN may cause apoptosis through downregulation of p21 and p27 as well as a cell cycle arrest at G1 or S-phase via decreasing the CDK1, CDK2, and cyclin E1 levels.

Taken together, these results offer new insights into the anti-cancer properties of CBN.”

“CBN, one of the weak-psychoactive cannabinoids, have demonstrated various medicinal properties, including anti-inflammatory, antibacterial, analgesic and even anti-tumor.”

“In this study, we revealed the antitumor activity of CBN in three different tumor cell lines, glioma A172, liver cancer HepG2 and breast cancer HCC1806 cell lines. We report that cannabinol inhibits proliferation of several cancer cell lines by regulation of the signaling pathways involving ERK and AKT as well as by altering the expression of cannabinoid receptors. Moreover, we also found that CBN induces apoptosis and cell cycle arrest and partially uncovered underlying molecular mechanisms. Our findings provide novel information about the anti-cancer properties of CBN and justify further research to investigate the role of CBN as cancer therapeutic.”

https://www.sciencedirect.com/science/article/abs/pii/S1878818123000282