Tag Archives: CBD

Id-1 is a key transcriptional regulator of glioblastoma aggressiveness and a novel therapeutic target.

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Figure 2

“Glioblastoma (GBM) is the most common form of primary adult brain tumors…

It is, therefore, essential to discover master regulators that control GBM invasiveness and target them therapeutically.

We demonstrate here that the transcriptional regulator Id-1 plays a critical role in modulating the invasiveness of GBM cell lines and primary GBM cells.

Furthermore, we show that a non-toxic compound, cannabidiol, significantly down-regulates Id-1 gene expression and associated glioma cell invasiveness…

Our results suggest that Id-1 regulates multiple tumor-promoting pathways in GBM, and that drugs targeting Id-1 represent a novel and promising strategy for improving the therapy and outcome of GBM patients.

We previously showed a strong correlation between Id-1 expression and the invasive and metastatic behavior of breast cancer cells.”

“Cannabidiol as a novel inhibitor of Id-1 gene expression in aggressive breast cancer cells… CBD represents the first nontoxic exogenous agent that can significantly decrease Id-1 expression in metastatic breast cancer cells…  Moreover, reducing Id-1 expression with cannabinoids could also provide a therapeutic strategy for the treatment of additional aggressive cancers because Id-1 expression was found to be up-regulated during the progression of almost all types…”  http://mct.aacrjournals.org/content/6/11/2921.long

“In this report, we show that Id-1 is a key regulator of brain tumor cell invasiveness and neurosphere growth, and that Id-1 expression is specifically up-regulated in tissues from patients with high-grade gliomas. Importantly, we demonstrate that targeting Id-1 expression using either genetic approaches or the non-toxic cannabinoid, cannabidiol (CBD), leads to a significant reduction in the invasion of both GBM cell lines and patient-derived primary GBM cultures. CBD also significantly inhibits GBM dispersal ex vivo, and reduces tumor growth and Id-1 expression in vivo.

Consistent with the breast cancer study, we found that the non-psychoactive cannabinoid CBD significantly down-regulated Id-1 expression in serum-derived and primary GBM cells. As expected, we observed robust inhibition of glioma cell invasiveness.

In conclusion, our results establish Id-1 as a key regulator of both invasion and stemness in GBM cells and demonstrate that the non-toxic cannabinoid compound CBD down-regulates Id-1 expression and tumor aggressiveness in culture and in vivo.

The data also shed light on some of the key pathways that control GBM cell dispersal and progression. A greater understanding of these pathways may lead to more effective therapies for cancer patients including the additional refinement of cannabinoid analogs targeting Id-1.

We expect our efforts to ultimately translate to the development of future clinical trials with nontoxic compounds that target the expression of Id-1, a master regulator of GBM aggressiveness.

With its lack of systemic toxicity and psychoactivity, CBD is an ideal candidate agent in this regard and may prove useful in combination with front-line agents for the treatment of patients with aggressive and high-grade GBM tumors.”  http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3594064/

“McAllister Lab… Cannabidiol inhibits tumor (glioblastoma) progression in mouse models of brain cancer. Mice bearing human brain tumors derived from glioblastoma were treated with the naturally occurring cannabinoid, cannabidiol (CBD).”  http://www.cpmcri-currents.org/our-people/discovery-investigators/mcallister-lab

“New Study Finds Cannabis Compound Could Have Even Greater Reach in Inhibiting Aggressive Cancer than Previously Thought. Researchers at California Pacific Medical Center Research Institute (CPMCRI, a Sutter Health affiliate) have found that a compound in cannabis previously shown to decrease metastatic breast cancer now shows promise in stopping aggressive brain cancer as well. The findings are particularly important given the safety of the cannabis compound and the fact that patients with advanced brain cancer have few options for treatment.”  http://www.cpmc.org/about/press/news2012/cannabis-brain.html

http://www.thctotalhealthcare.com/category/brain-cancer/

Glioblastoma progression in mouse models of brain cancer, after treatment with CBD

Cannabinoid-mediated modulation of neuropathic pain and microglial accumulation in a model of murine type I diabetic peripheral neuropathic pain.

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“Despite the frequency of diabetes mellitus and its relationship to diabetic peripheral neuropathy (DPN) and neuropathic pain (NeP), our understanding of underlying mechanisms leading to chronic pain in diabetes remains poor.

Recent evidence has demonstated a prominent role of microglial cells in neuropathic pain states.

One potential therapeutic option gaining clinical acceptance is the cannabinoids, for which cannabinoidreceptors (CB) are expressed on neurons and microglia. We studied the accumulation and activation of spinal and thalamic microglia in streptozotocin (STZ)-diabetic CD1 mice and the impact of cannabinoid receptor agonism/antagonism during the development of a chronic NeP state.

The prevention of microglial accumulation and activation in the dorsal spinal cord was associated with limited development of a neuropathic pain state.

Cannabinoids demonstrated antinociceptive effects in this mouse model of DPN.

These results suggest that such interventions may also benefit humans with DPN, and their early introduction may also modify the development of the NeP state.”  http://www.ncbi.nlm.nih.gov/pubmed/20236533

“Tetrahydrocannabinol (THC), a component in marijuana, acts at both CB1 and CB2 receptors, but other forms of cannabinoids such as cannabinol and cannabidiol act predominantly at CB2 receptors. Such CB2 agonists may be potential anti-inflammatory therapies, antagonizing the 2-AG-induced recruitment of microglia and impacting upon development of an inflammatory state. Such properties may permit the cannabinoids to act in the prevention of microglial activation, perhaps limiting the development of neuropathic pain.

The present data confirm the efficacy of cannabinoid agonists, both for the CB1 and CB2 receptor, in modulation of acute thermal and tactile hypersensitivity as features of neuropathic pain. Furthermore, CB1 agonism from the onset of the offending stimulus (diabetes) normally leading to neuropathic pain ameliorated the development of a neuropathic pain state.”  http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2845559/

http://www.thctotalhealthcare.com/category/neuropathic-pain/

 

The relationship between cannabidiol and psychosis: A review.

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“Cannabis sativa is the most widely used illicit drug in the world…

THC is considered responsible for the main psychotropic effects of the drug, while CBD seems to antagonize these effects, particularly those that induce psychosis.

The effects of Cannabis seem to depend on several variables related to the type of plant, its strength, usage patterns, and intersubjective variations.

CBD could be used to treat several conditions, including psychosis, when the current treatment is associated with significant side effects.

…further research involving the possible antipsychotic effect and other potential positive effects of Cannabis are needed.”

http://www.ncbi.nlm.nih.gov/pubmed/25954940

http://www.thctotalhealthcare.com/category/schizophrenia/

Cannabidiol effects in the prepulse inhibition disruption induced by amphetamine.

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“Drugs that facilitate dopaminergic neurotransmission such as amphetamine induce PPI disruption in human and rodents.

Clinical and neurobiological findings suggest that the endocannabinoid system and cannabinoids may be implicated in the pathophysiology and treatment of schizophrenia.

Cannabidiol (CBD), a non-psychotomimetic constituent of the Cannabis sativa plant, has also been reported to have potential as an antipsychotic.

Our aim was to investigate if CBD pretreatment was able to prevent PPI disruption induced by amphetamine…

Pretreatment with CBD attenuated the amphetamine-disruptive effects…

These results corroborate findings indicating that CBD induces antipsychotic-like effects.

In addition, they pointed to the nucleus accumbens as a possible site of these effects.”

http://www.ncbi.nlm.nih.gov/pubmed/25943166

http://www.thctotalhealthcare.com/category/schizophrenia/

 

Perceived efficacy of cannabidiol-enriched cannabis extracts for treatment of pediatric epilepsy: A potential role for infantile spasms and Lennox-Gastaut syndrome.

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“There is a great need for safe and effective therapies for treatment of infantile spasms (IS) and Lennox-Gastaut syndrome (LGS). Based on anecdotal reports and limited experience in an open-label trial, cannabidiol (CBD) has received tremendous attention as a potential treatment for pediatric epilepsy, especially Dravet syndrome.

We sought to document the experiences of children with IS and/or LGS who have been treated with CBD-enriched cannabis preparations.

Perceived efficacy and tolerability were similar across etiologic subgroups.

Eighty-five percent of all parents reported a reduction in seizure frequency, and 14% reported complete seizure freedom.

Reported side effects were far less common during CBD exposure, with the exception of increased appetite (30%).

A high proportion of respondents reported improvement in sleep (53%), alertness (71%), and mood (63%) during CBD therapy… this study suggests a potential role for CBD in the treatment of refractory childhood epilepsy including IS and LGS…”

http://www.ncbi.nlm.nih.gov/pubmed/25935511

“Safety and side effects of cannabidiol, a Cannabis sativa constituent.”  http://www.ncbi.nlm.nih.gov/pubmed/22129319

“Cannabidiol, a safe and non-psychotropic ingredient of the marijuana plant Cannabis sativa…” http://www.ncbi.nlm.nih.gov/pubmed/19690824

http://www.thctotalhealthcare.com/category/epilepsy-2/

Inhaled cannabis reduces pain in diabetic peripheral neuropathy patients, study suggests

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“A small study finds that inhaling cannabis could demonstrate a dose-dependent pain reduction in patients with diabetic peripheral neuropathy.

Researchers at the University of California, United States conducted a study in which 16 patients with painful diabetic peripheral neuropathy were given placebo, or single doses of cannabis.

These doses were either low (one per cent tetrahydrocannibinol, THC), medium (four per cent THC) or high (seven per cent THC).

Tests were first performed on baseline spontaneous pain, evoked pain and cognitive function. Subsequently, participants either inhaled the cannabis or placebo, with measurements of pain intensity and cognitive function assessed over a three-hour period.

The higher the content of THC participants inhaled, the less pain they felt. The high dose of THC had a significant effect when researchers evoked pain using foam brush and von Frey.

These are tools used to test neuropathic pain in patients – von Frey are a set of filaments that test the pain of a patients by pushing against the skin to assess when the sensation becomes painful.

Patients on the high dose of THC showed impaired performance on the neuropsychological tests, but researchers concluded the pain reduction of patients adds further evidence on the efficacy of cannabis in treating diabetic peripheral neuropathy.

The results of this study were published in the Journal of Pain and Palliative Care Pharmacology.

Earlier this month, the CBD compound in cannabis was reported by researchers as a potential treatment for diabetes.”

http://www.diabetes.co.uk/news/2015/apr/inhaled-cannabis-reduces-pain-in-diabetic-peripheral-neuropathy-patients,-study-suggests-95680845.html

“Efficacy of Inhaled Cannabis on Painful Diabetic Neuropathy.”  http://www.ncbi.nlm.nih.gov/pubmed/25843054

http://www.thctotalhealthcare.com/category/diabetes/

The Antitumor Activity of Plant-Derived Non-Psychoactive Cannabinoids.

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“As a therapeutic agent, most people are familiar with the palliative effects of the primary psychoactive constituent of Cannabis sativa (CS), Δ9-tetrahydrocannabinol (THC), a molecule active at both the cannabinoid 1 (CB1) and cannabinoid 2 (CB2) receptor subtypes.

Through the activation primarily of CB1 receptors in the central nervous system, THC can reduce nausea, emesis and pain in cancer patients undergoing chemotherapy.

During the last decade, however, several studies have now shown that CB1 and CB2 receptor agonists can act as direct antitumor agents in a variety of aggressive cancers.

In addition to THC, there are many other cannabinoids found in CS, and a majority produces little to no psychoactivity due to the inability to activate cannabinoid receptors.

For example, the second most abundant cannabinoid in CS is the non-psychoactive cannabidiol (CBD). Using animal models, CBD has been shown to inhibit the progression of many types of cancer including glioblastoma (GBM), breast, lung, prostate and colon cancer.

This review will center on mechanisms by which CBD, and other plant-derived cannabinoids inefficient at activating cannabinoid receptors, inhibit tumor cell viability, invasion, metastasis, angiogenesis, and the stem-like potential of cancer cells.

We will also discuss the ability of non-psychoactive cannabinoids to induce autophagy and apoptotic-mediated cancer cell death, and enhance the activity of first-line agents commonly used in cancer treatment.”

Critical Role of Mast Cells and Peroxisome Proliferator-Activated Receptor γ in the Induction of Myeloid-Derived Suppressor Cells by Marijuana Cannabidiol In Vivo.

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“Cannabidiol (CBD) is a natural nonpsychotropic cannabinoid from marijuana (Cannabis sativa) with anti-epileptic and anti-inflammatory properties.

Effect of CBD on naive immune system is not precisely understood. In this study, we observed that administering CBD into naive mice triggers robust induction of CD11b+Gr-1+ myeloid-derived suppressor cells (MDSC) in the peritoneum, which expressed functional arginase 1, and potently suppressed T cell proliferation ex vivo…

Together, the results suggest that CBD may induce activation of PPAR-γ in mast cells leading to secretion of G-CSF and consequent MDSC mobilization.

CBD being a major component of Cannabis, our study indicates that marijuana may modulate or dysregulate the immune system by mobilizing MDSC.”

http://www.ncbi.nlm.nih.gov/pubmed/25917103

Cannabis has been shown to kill cancer cells

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“The use of Cannabis for medicinal purposes dates back to ancient times.” http://www.cancer.gov/cancertopics/pdq/cam/cannabis/patient/page1

“Cannabis has been used for medicinal purposes for thousands of years.” http://www.cancer.gov/cancertopics/pdq/cam/cannabis/healthprofessional/page1

“The use of Cannabis for medicinal purposes dates back at least 3,000 years. It came into use in Western medicine in the 19th century and was said to relieve pain, inflammation, spasms, and convulsions.” http://www.cancer.gov/cancertopics/pdq/cam/cannabis/patient/page2

“Cannabis has been shown to kill cancer cells in the laboratory”  http://www.cancer.gov/cancertopics/pdq/cam/cannabis/patient/page1

“…cannabinoids may be able to kill cancer cells while protecting normal cells…

A laboratory study of delta-9-THC… showed that it damaged or killed the cancer cells…

A laboratory study of cannabidiol… showed that it caused cancer cell death…” http://www.cancer.gov/cancertopics/pdq/cam/cannabis/patient/page2

“Cannabinoids appear to kill tumor cells but do not effect their nontransformed counterparts and may even protect them from cell death.” http://www.cancer.gov/cancertopics/pdq/cam/cannabis/healthprofessional/page4

“Because cannabinoid receptors, unlike opioid receptors, are not located in the brainstem areas controlling respiration, lethal overdoses from Cannabis and cannabinoids do not occur.” http://www.cancer.gov/cancertopics/pdq/cam/cannabis/healthprofessional/page6

http://www.thctotalhealthcare.com/category/cancer/

Cannabinoid agonists and antagonists modulate lithium-induced conditioned gaping in rats.

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“A series of experiments evaluated the potential of psychoactive cannabinoid agonists, delta-9-THC and HU-210, and non-psychoactive cannabinoids, Cannabidiol (CBD) and its dimethylheptyl homolog (CBD-dmh), to interfere with the establishment and the expression of conditioned gaping in rats.

All agents attenuated both the establishment and the expression of conditioned gaping.

Furthermore, the CB1 antagonist, SR-141716, reversed the suppressive effect of HU-210 on conditioned gaping.

Finally, SR-141716 potentiated lithium-induced conditioned gaping, suggesting that the endogenous cannabinoid system plays a role in the control of nausea.”

http://www.ncbi.nlm.nih.gov/pubmed/14527182

http://www.thctotalhealthcare.com/category/nauseavomiting/