Tag Archives: cannabidiol

Scientists believe marijuana compound could fight cancer

Posted on by
Reply

“Scientists in California believe they may have discovered a compound in marijuana that can reduce the aggressiveness of some forms of cancer.

The San Francisco Gate reports on the data that has been years in the making. While marijuana has been shown to help reduce nausea and pain in cancer patients, scientists believe that a compound in marijuana has the ability to “turn off” the activity of a gene responsible for metastasis in breast and other types of cancers.

The research team is working out of San Francisco’s California Pacific Medical Center Research Institute and have been working for years on the study. The compound they’re focused on, called cannabidiol, does not produce the psychotropic high associated with marijuana.

Last year, the team published a small study showing the positive effects of cannabidiol on mice. New data is about to be released that expands upon the previous results that the researchers hope will help propel the study even further.

“The preclinical trial data is very strong, and there’s no toxicity. There’s really a lot of research to move ahead with and to get people excited,” said Sean McAllister, who is working alongside scientist Pierre Desprez in the study.

Desprez and McAllister believe that their merging of separate areas of study was serendipitous.

Desprez had been studying the protein ID-1, which he found to play an important role in how cancer could spread. McAllister, on the other hand, was focused on studying anabolic steroids in drug abuse. He soon became focused on with the role non-psychotropic cannabidiol, or CBD, interacts with cancer.

McAllister, after hearing an internal seminar from Desprez on his studies of ID-1, came up with the question “How effective would cannabidiol be on targeting metastatic cancer cells?”

The two then teamed up, with Desprez armed with ID-1 cancer-causing protein, and McAllister with CBD, his cancer-fighting compound.

For their experimentation, the doctors exposed ID-1 to CBD in a petri dish. In a shocking result, the ID-1, the cancer-causing protein, reverted to a normal state and stopped acting “crazy.”

“We thought we did the experiment the wrong way,” McAllister said of the overwhelming results.

However, their results proved to be consisted.

“I told Sean, ‘Maybe your drug is working through my gene,’ ” Desprez said.

What the researchers have discovered thus far in their research is that CBD turns off the overexpression of ID-1, which prevents it from traveling to foreign tissues. Thus, the metastasization – cancer’s fatal ability – is blocked.

In the wake of their positive results, the doctors were forced to emphasize that the CBD will only work in the presence of high levels of ID-1 and these do not include all cancerous tumors but, rather, aggressive, metastatic cells. High levels have been found in leukemia, colorectal, pancreatic, lung, ovarian, brain and other cancers.”
Read more: http://www.irishcentral.com/news/Scientists-believe-marijuana-compound-could-fight-cancer-170689736.html#ixzz29rQbc2oS

Marijuana Compounds Could Beat Back Brain Cancer – ABCNews

Posted on by
Reply

“Preliminary research suggests that a combination of compounds in marijuana could help fight off a particularly deadly form of brain cancer.

But the findings shouldn’t send patients rushing to buy pot: the levels used in the research appear to be too high to obtain through smoking. And there’s no sign yet that the approach works in laboratory animals, let alone people.

Still, the finding does suggest that more than one compound in marijuana might boost cancer treatment, said study author Sean McAllister, an associate scientist at California Pacific Medical Center Research Institute in San Francisco. “Combination therapies might be more appropriate,” McAllister said.

Researchers have long studied the compounds in marijuana known as cannabinoids, which are thought to hold possible health benefits. One, known as THC, is well known for its role in making people high when they smoke or eat pot. Researchers have been testing it as a treatment for the brain tumors known as glioblastomas.

In the new study, researchers tested THC and cannabidiol, another compound from marijuana, on brain cancer cells. The findings appear in the January issue of Molecular Cancer Therapeutics.

The study authors found that the combination treatment seemed to work better at killing the cancerous cells and preventing them from growing back.

About 9,000 people in the United States develop glioblastomas each year, said Dr. Paul Graham Fisher, chief of the Division of Child Neurology at Stanford University and Lucile Packard Children’s Hospital. The most famous patient was the late U.S. Senator Ted Kennedy.

The prognosis for people with the condition is grim because tumors spread throughout the brain. It can be impossible for treatments to remove the entire tumor, Fisher said.

“No matter what you do, this tumor has a larger border than you ever think,” he said. “We know there are microscopic satellites all throughout one side of the brain and pretty soon in the other side of the brain. The only thing that will fix this disease is something that provides a more blanket approach.”

Instead of targeting the tumors itself, he explained, treatments need to do something like disrupt the pathways that cancer cells use to communicate.

In the big picture, “you’re seeing a lot more thinking outside the box about trying to treat glioblastoma,” he said. “I think in the next 10 to 15 years we’re going to start seeing progress forward.”

For now, he said, there’s no evidence that marijuana is good or bad for glioblastoma tumors.

Back in the laboratory, McAllister said the next step is to test the combination treatment on laboratory animals and then on people. The treatment may be given to people directly through the brain, which could be expensive. But the compounds themselves may not be expensive, McAllister said.

As for the idea of getting the same effect through a couple of marijuana joints, he had this to say: “It’s unlikely that you could reach effective concentrations by smoking the plant.””

http://abcnews.go.com/Health/Healthday/marijuana-compounds-beat-back-brain-cancer/story?id=9534388

“Cannabinoids selectively inhibit proliferation and induce death of cultured human glioblastoma multiforme cells.”
http://www.ncbi.nlm.nih.gov/pubmed/16078104

Can Cannabidiol (CBD) Fight Metastatic Cancer? According to the latest research the answer is yes. Important news for Medical Marijuana, Inc.’s new line of high concentrate CBD health and wellness products.

Posted on by
Reply

“(OTC: MJNA), a leading hemp industry innovator, is pleased to report on a September 18 San Francisco Chronicle Article, “Pot compound seen as tool against cancer.” The article states that scientists at California Pacific Medical Center who have been researching marijuana’s compounds for the 20 years have found that Cannabidiol, or CBD, has the ability to “turn off” the DNA that causes “breast and other types of cancers” to metastasize. CBD is the second-most abundant cannabinoid within marijuana, but does not cause the psychotropic high of THC.

As stated in the article: “We started by researching breast cancer,” said scientist Pierre Desprez. “But now we’ve found that Cannabidiol works with many kinds of aggressive cancers–brain, prostate–any kind in which these high levels of ID-1 are present.” Desprez said he is hopeful clinical trials will begin immediately. He currently has grant funding through the National Institutes of Health, Susan G. Komen for the Cure, the U.S. Department of Defense and the California Breast Cancer Research Program.

As previously announced in the MJNA press release dated September 5, MJNA portfolio company, Red Dice Holdings, recently launched its Hemp-based high concentrate CBD health and wellness products, Dixie X, for over-the-counter sales. These Cannabidiol products represent the highest strength of CBD products on the market today, and this same concentrate will soon be used to launch the CanChew Biotechnologies line of CBD-enriched chewing gum. Click here for recent production news from PhytoSphere. Dixie X can currently be purchased in over 100 retail locations in Colorado, Arizona and New Mexico as well as on-line by anyone living in the U.S.

In short, MJNA and its portfolio company, PhytoSphere Systems, currently produces non-THC, high quality CBD enriched Hemp oil that according to this story, may fight the most aggressive forms of cancers we know of today.

Studies, such as those in this article and at Project CBD, have continually shown that these non-psychoactive CBD wellness products provide powerful relief for pain and anxiety sufferers, but without the euphoric effects provided by THC. The CBD health and wellness industry is estimated by MJNA to be a $5 billion market.”

http://www.cnbc.com/id/49117540/Can_Cannabidiol_CBD_Fight_Metastatic_Cancer_According_to_the_latest_research_the_answer_is_yes_Important_news_for_Medical_Marijuana_Inc_s_new_line_of_high_concentrate_CBD_health_and_wellness_products

Marijuana Compound Fights Cancer; Human Trials Next

Posted on by
Reply

(NBC) “Research shows component in medical cannabis fights cancer.”

“The “medical” bit of medical marijuana may be legitimate after all: Turns out a component of cannabis fights cancer, according to research.

Scientists at California Pacific Medical Center found that cannabidiol, or CBD, has the ability to “turn off” the DNA that causes “breast and other types of cancers” to metastasize, according to the San Francisco Chronicle.

“If this plant were discovered in the Amazon today, scientists would be falling all over each other to be the first to bring it to market,” said Dr. Donald Abrams, chief of oncology at the University of California San Francisco, which has also found science behind marijuana’s efficacy.

The drug “has been shown to reduce pain and nausea” in cancer patients, the newspaper reported. AIDS patients also swear by cannabis for its ability to allow them to eat, sleep and otherwise function.

Turns out that cannabidiol has none of the psychotropic effects of marijuana as a whole, according to the newspaper. The researchers hope to move to clinical trials on humans soon.

Cancer cells exposed to cannabidiol lost their abilities to metastasize, according to the newspaper.”

http://www.nbcbayarea.com/news/local/Marijuana-Compound-Fights-Cancer-Human-Trials-Next-170406116.html

NBC News Reports that Cannabidiol (CBD) “Turns Off” the Cancer Gene Involved in Metastasis Findings by Scientists at California Pacific Medical Center gives Scientific Support for Cannabis Science

Posted on by
Reply

“Cannabis Science (CBIS), a pioneering U.S. Biotech Company developing pharmaceutical products for global public health challenges, reports on a recent press release by the San Francisco NBC news, with new studies by Scientists at California Pacific Medical Center, which have shown that cannabidiol, (CBD -1.18%, news), has the ability to “turn off” a gene that causes breast and other types of cancers to metastasize, according to the San Francisco Chronicle newspaper.

NBC News reports, “The drug “has been shown to reduce pain and nausea” in cancer patients. AIDS patients also use cannabis to eat, sleep and otherwise be more functional. Turns out that cannabidiol has none of the psychotropic effects of marijuana as a whole. The researchers hope to move to clinical trials on humans soon to test the cannabidiol inhibition of metastasis, reported in the San Francisco Chronicle. “What they found is that the cannabinoid turns off the overexpression of ID-1, which makes the cells lose their ability to travel to distant tissues. In other words, it keeps the cells more local and blocks their ability to metastasize. (spread to a new location) The researchers stressed cannabidiol works only on cancer cells that have these high levels of ID-1 and these do not include all cancerous tumors but, rather, aggressive, metastatic cells. But they’ve found such high levels in leukemia, colorectal, pancreatic, lung, ovarian, brain and other cancers.””

http://money.msn.com/business-news/article.aspx?feed=BW&date=20120920&id=15582334

SF Scientists: Marijuana Fights Cancer

Posted on by
Reply

(NBC Bay Area) “The “medical” bit of medical marijuana may be legitimate after all: Turns out a component of cannabis fights cancer, according to research.

Scientists at California Pacific Medical Center found that cannabidiol, or CBD, has the ability to “turn off” the DNA that causes “breast and other types of cancers” to metastasize, according to the San Francisco Chronicle.

“If this plant were discovered in the Amazon today, scientists would be falling all over each other to be the first to bring it to market,” said Dr. Donald Abrams, chief of oncology at the University of California San Francisco, which has also found science behind marijuana’s efficacy.

The drug “has been shown to reduce pain and nausea” in cancer patients, the newspaper reported. AIDS patients also swear by cannabis for its ability to allow them to eat, sleep and otherwise function.

Turns out that cannabidiol has none of the psychotropic effects of marijuana as a whole, according to the newspaper.”

http://m.nbcbayarea.com/nbcbayarea/pm_108022/contentdetail.htm?contentguid=DXQ0PNfC

Cannabinoids, Endocannabinoids, and Related Analogs in Inflammation.

Posted on by
Reply

“This review covers reports published in the last 5 years on the anti-inflammatory activities of all classes of cannabinoids, including phytocannabinoids such as tetrahydrocannabinol and cannabidiol, synthetic analogs such as ajulemic acid and nabilone, the endogenous cannabinoids anandamide and related compounds, namely, the elmiric acids, and finally, noncannabinoid components of Cannabis that show anti-inflammatory action. It is intended to be an update on the topic of the involvement of cannabinoids in the process of inflammation. A possible mechanism for these actions is suggested involving increased production of eicosanoids that promote the resolution of inflammation. This differentiates these cannabinoids from cyclooxygenase-2 inhibitors that suppress the synthesis of eicosanoids that promote the induction of the inflammatory process.”

 

“INTRODUCTION

This review is intended to be an update on the topic of the involvement of cannabinoids in the process of inflammation. Other reviews cover certain aspects of this subject and the reader is referred to them for a discussion of earlier reports. In this review are reports published in the last 5 years on the activities of all classes of cannabinoids, including the endogenous cannabinoids such as anandamide, related compounds such as the elmiric acids (EMAs), and noncannabinoid components of Cannabis that show anti-inflammatory action. An interesting recently published example of the latter one is caryophyllene, an abundant component of Cannabis oil that shows anti-inflammatory activity and has high affinity for cannabinoid receptor 2 (CB2; 5).”

 

“Phytocannabinoids: Tetrahydrocannabinol and Cannabidiol”

 

“PLANT PREPARATIONS AND NONCANNABINOID CONSTITUENTS OF CANNABIS”

“Cannabis sativa is a complex botanical, and it is not unlikely that the therapeutic benefits of marijuana are due to some of the more than 60 cannabinoids and 200–250 noncannabinoid constituents of the plant. One noncannabinoid, the geranylated flavone cannflavin A (Fig. 5), is 30 times more potent than aspirin as an inhibitor of prostaglandin E2 . These potentially important findings have been overlooked, as most attention in marijuana research has been directed to the analgesic effects of the plant and to mechanisms of psychoactivity. A further example that this line of inquiry has remained dormant is a series of overlooked observations, which demonstrate potent anti-inflammatory actions of a crude marijuana extract and of the nonpsychoactive Cannabis constituents, CBD, cannabinol, and cannabichromene in the carrageenan paw edema model of acute inflammation in rats. Volatile oil products of the plant also have biological activity. Thus, pyrolysis products may add to the therapeutic properties of smoked marijuana. Several of the most abundant cannabinoid and noncannabinoid constituents of C. sativa are nonpsychoactive.”

“Flavonoids are ubiquitous plant phenolic compounds that consist of two aromatic rings linked by a three carbon bridge. They are attracting interest because of their antioxidant, antitumor, anti-inflammatory, and antimicrobial activities. The flavone luteolin, a constituent of C. sativa, is also found in spices and in vegetables such as celery and green pepper. When added to peripheral blood mononuclear cells in vitro, luteolin suppresses production of the inflammatory cytokines TNFα, IL-1b, and IL-6, actions that relate to a selective reduction in numbers of monocytes. Perhaps more importantly, luteolin inhibits growth of Plasmodium falciparum in vitro and protects against induction of colon cancer in mice.”

“CONCLUSIONS

Possibly the very earliest literature reference on Cannabis describes its use as an anti-inflammatory agent. The Chinese emperor Shen-nung (ca. 2000 B.C.), in a work called Pen-ts’ao Ching, noted many of the effects of Cannabis in humans. Among other properties, it was claimed that cannabis “undoes rheumatism”, suggesting possible anti-inflammatory effects. The reports described in this review of the current literature provide support for the claims made by the ancient Chinese healers. These more recent publications include relief from chronic neuropathic pain, fibromyalgia, rheumatoid arthritis, and postoperative pain. In addition, a large body of preclinical data on all classes of cannabinoids, including the endogenous examples, point to a variety of therapeutic targets for cannabinoids and important roles for the endocannabinoids in the physiology of inflammation.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2664885/

Endocannabinoid chemical biology: a tool for the development of novel therapies.

Posted on by
Reply

Abstract

“The identification of the major psychoactive constituent of Cannabis and marijuana, Delta(9)-tetrahydrocannabinol, opened the way first to the cloning of the G-protein-coupled cannabinoid CB(1) and CB(2) receptors, and then to the isolation and characterisation of their endogenous agonists, the endocannabinoids. Considerable progress has been made in the characterisation of pathways and enzymes for the biosynthesis and degradation of anandamide and 2-arachidonoylglycerol, the two best-known endocannabinoids, as well as of endocannabinoid-related molecules, such as the N-acylethanolamines, which, as in the case of N-palmitoylethanolamine and N-oleoylethanolamine, may interact with other receptor types. However, it is still not fully understood how other plant cannabinoids, of which cannabidiol is the most studied representative, exert their pharmacological effects. Together with these issues, this first review article on the endocannabinoids describes the synthetic pharmacological tools that have been designed so far to interact with the proteins of the ‘endocannabinoid system’ and that can potentially be used as templates for the development of new therapies.”

http://www.ncbi.nlm.nih.gov/pubmed/19457702

Pharmacological actions of cannabinoids.

Posted on by
Reply

Abstract

“Mammalian tissues express at least two types of cannabinoid receptor, CB1 and CB2, both G protein coupled. CB1 receptors are expressed predominantly at nerve terminals where they mediate inhibition of transmitter release. CB2 receptors are found mainly on immune cells, one of their roles being to modulate cytokine release. Endogenous ligands for these receptors (endocannabinoids) also exist. These are all eicosanoids; prominent examples include arachidonoylethanolamide (anandamide) and 2-arachidonoyl glycerol. These discoveries have led to the development of CB1- and CB2-selective agonists and antagonists and of bioassays for characterizing such ligands. Cannabinoid receptor antagonists include the CB1-selective SR141716A, AM251, AM281 and LY320135, and the CB2-selective SR144528 and AM630. These all behave as inverse agonists, one indication that CB1 and CB2 receptors can exist in a constitutively active state. Neutral cannabinoid receptor antagonists that seem to lack inverse agonist properties have recently also been developed. As well as acting on CB1 and CB2 receptors, there is convincing evidence that anandamide can activate transient receptor potential vanilloid type 1 (TRPV1) receptors. Certain cannabinoids also appear to have non-CB1, non-CB2, non-TRPV1 targets, for example CB2-like receptors that can mediate antinociception and “abnormal-cannabidiol” receptors that mediate vasorelaxation and promote microglial cell migration. There is evidence too for TRPV1-like receptors on glutamatergic neurons, for alpha2-adrenoceptor-like (imidazoline) receptors at sympathetic nerve terminals, for novel G protein-coupled receptors for R-(+)-WIN55212 and anandamide in the brain and spinal cord, for novel receptors for delta9-tetrahydrocannabinol and cannabinol on perivascular sensory nerves and for novel anandamide receptors in the gastro-intestinal tract. The presence of allosteric sites for cannabinoids on various ion channels and non-cannabinoid receptors has also been proposed. In addition, more information is beginning to emerge about the pharmacological actions of the non-psychoactive plant cannabinoid, cannabidiol. These recent advances in cannabinoid pharmacology are all discussed in this review.”

http://www.ncbi.nlm.nih.gov/pubmed/16596770

Pharmacology of cannabinoids.

Posted on by
Reply

Abstract

“Dronabinol (Delta 9-tetrahydocannabinol, THC), the main source of the pharmacological effects caused by the use of cannabis, is an agonist to both the CB1 and the CB2 subtype of cannabinoid receptors. It is available on prescription in several countries. The non-psychotropic cannabidiol (CBD), some analogues of natural cannabinoids and their metabolites, antagonists at the cannabinoid receptors and modulators of the endogenous cannabinoid system are also promising candidates for clinical research and therapeutic uses. Cannabinoid receptors are distributed in the central nervous system and many peripheral tissues including spleen, leukocytes; reproductive, urinary and gastrointestinal tracts; endocrine glands, arteries and heart. Five endogenous cannabinoids have been detected so far, of whom anandamide and 2-arachidonylglycerol are best characterized. There is evidence that besides the two cannabinoid receptor subtypes cloned so far additional cannabinoid receptor subtypes and vanilloid receptors are involved in the complex physiological functions of the cannabinoid system that include motor coordination, memory procession, control of appetite, pain modulation and neuroprotection. Strategies to modulate their activity include inhibition of re-uptake into cells and inhibition of their degradation to increase concentration and duration of action. Properties of cannabinoids that might be of therapeutic use include analgesia, muscle relaxation, immunosuppression, anti-inflammation, anti-allergic effects, sedation, improvement of mood, stimulation of appetite, anti-emesis, lowering of intraocular pressure, bronchodilation, neuroprotection and antineoplastic effects.”

http://www.ncbi.nlm.nih.gov/pubmed/15159677