Psychoactive cannabinoids reduce gastrointestinal propulsion and motility in rodents.

“Marijuana has been reported to be an effective antinauseant and antiemetic in patients receiving cancer chemotherapy.

Whether this is due to psychological changes, central antiemetic properties and/or direct effects on gastrointestinal (GI) function is not known. The purpose of these investigations was to determine whether the major constituents of marijuana and the synthetic cannabinoid nabilone have any effects on GI function which can be detected in rodent models of GI transit and motility. Intravenous delta 9-tetrahydrocannabinol (delta 9-THC) slowed the rate of gastric emptying and small intestinal transit in mice and in rats. Delta 9,11-THC, cannabinol and nabilone given i.v. also inhibited small intestinal transit in mice, but were less effective in reducing gastric emptying. Cannabidiol given i.v. had no effect on gastric emptying or intestinal transit. Those cannabinoids which inhibited GI transit did so at doses equal to, or lower, than those reported to produce central nervous system activity. In rats, delta 9-THC produced greater inhibition of gastric emptying and small intestinal transit than large bowel transit, indicating a selectivity for the more proximal sections of the gut. In addition, i.v. delta 9-THC decreased the frequency of both gastric and intestinal contractions without altering intraluminal pressure. Such changes probably reflect a decrease in propulsive activity, without change in basal tone.

These data indicate that delta 9-THC, delta 9,11-THC, cannabinol and nabilone (but not cannabidiol) exert an inhibitory effect on GI transit and motility in rats.”

http://www.ncbi.nlm.nih.gov/pubmed/2542532

Pharmacological synergism between cannabinoids and paclitaxel in gastric cancer cell lines.

“Orally applicable Delta9-tetrahydrocannabinol and its synthetic derivatives have been used as antiemetic drugs during chemotherapy in cancer patients.

 However, it is not well known how cannabinoids influence the effects of chemotherapeutic agents on malignant tumors. In this study, we investigated how the endogenous cannabinoid anandamide (AEA) changes the effect of paclitaxel on gastric cancer cell lines.

 In the human gastric cancer cell line, HGC-27, which express cannabinoid receptor 1 (CB1), AEA stimulated proliferation at concentrations under 1 microM, while it strongly suppressed proliferation through the induction of apoptosis at 10 microM. This bimodal effect was reproduced by a selective CB1 agonist, arachidonyl-2-chloroethylamide, although the effects were less marked. When AEA was used with paclitaxel, AEA at 10 microM synergistically enhanced the cytotoxic effect of paclitaxel, whereas it showed no significant effect at lower concentrations. Flow cytometric analysis revealed that addition of 10 microM AEA synergistically enhanced paclitaxel-induced apoptosis, possibly through the activation of caspase-3, -8, and -9.

Our results suggest that cannabinoids could be a good palliative agent for cancer patients receiving paclitaxel.”

http://www.ncbi.nlm.nih.gov/pubmed/19394652

Effect of a synthetic cannabinoid agonist on the proliferation and invasion of gastric cancer cells.

“Although cannabinoids are associated with antineoplastic activity in a number of cancer cell types, the effect in gastric cancer cells has not been clarified. In the present study, we investigated the effects of a cannabinoid agonist on gastric cancer cell proliferation and invasion.

The cannabinoid agonist WIN 55,212-2 inhibited the proliferation of human gastric cancer cells in a dose-dependent manner and that this effect was mediated partially by the CB(1) receptor. We also found that WIN 55,212-2 induced apoptosis and down-regulation of the phospho-AKT expression in human gastric cancer cells. Furthermore, WIN 55,212-2 treatment inhibited the invasion of gastric cancer cells, and down-regulated the expression of MMP-2 and VEGF-A through the cannabinoid receptors.

Our results open the possibilities in using cannabinoids as a new gastric cancer therapy.”

http://www.ncbi.nlm.nih.gov/pubmed/20336665

Antiproliferative mechanism of a cannabinoid agonist by cell cycle arrest in human gastric cancer cells.

“For gastric cancers, the antineoplastic activity of cannabinoids has been investigated in only a few reports and knowledge regarding the mechanisms involved is limited. We have reported previously that treatment of gastric cancer cells with a cannabinoid agonist significantly decreased cell proliferation and induced apoptosis.

Here, we evaluated the effects of cannabinoids on various cellular mediators involved in cell cycle arrest in gastric cancer cells. AGS and MKN-1 cell lines were used as human gastric cancer cells and WIN 55,212-2 as a cannabinoid agonist.

 …Cell cycle arrest preceded apoptotic response. Thus, this cannabinoid agonist can reduce gastric cancer cell proliferation via G1 phase cell cycle arrest, which is mediated via activation of the MAPK pathway and inhibition of pAKT.”

http://www.ncbi.nlm.nih.gov/pubmed/21312237

Cannabinoid Receptor Agonist as an Alternative Drug in 5-fluorouracil-resistant Gastric Cancer Cells.

“Fluorouracil is the main chemotherapeutic drug used for gastrointestinal cancers, which suffers the important problem of treatment resistance. There is little information whether cannabinoid agonists can be used as an alternative drug for fluorouracil-resistant gastric cancer cells. In this study, we investigated the effects of a cannabinoid agonist, WIN-55,212-2, on 5-fluorouracil (5-FU)-resistant human gastric cancer cells, to examine whether the cannabinoid agonist may be an alternative therapy.

These results indicate that a cannabinoid agonist may, indeed, be an alternative chemotherapeutic agent for 5-FU-resistant gastric cancer.”

http://www.ncbi.nlm.nih.gov/pubmed/23749906

GW Pharmaceuticals: Giving New Meaning To ‘High Potential’

“GW Pharmaceuticals (GWPH) is an UK-based biopharmaceutical company focused on the discovery and development of cannabinoid-based products for a wide range of indications. GW has established a technology platform based on genetically modified cannabis plants and has become a leader in plant-derived cannabinoid therapeutics.

 GW’s lead program is Sativex, a cannabis extract based oromucosal spray whose main actives are the cannabinoids delta-9- tetrahydrocannabinol (THC), and cannabidiol (CBD). It is approved for the treatment of multiple sclerosis (MS) spasticity in 21 countries outside of the U.S and already marketed in seven countries (eight following Italian launch in Q213).

…While MS spasticity has provided proof-of-concept in the worldwide approvability of Sativex, a more meaningful commercial opportunity is in the treatment of opioid-refractory cancer pain. Sativex has been tested in two Phase II trials in cancer pain. The trials have demonstrated that Sativex is safe and effective when used in addition to opioids in patients whose cancer pain is not sufficiently managed by opioids alone. Based on these results, GW has initiated three Phase III trials. The first two are expected to complete during 2014 and support an FDA filing.”

More: http://seekingalpha.com/article/1490392-gw-pharmaceuticals-giving-new-meaning-to-high-potential

Marijuana Spray Proves Effective as Cancer Pain Treatment

“A mouth spray containing cannabinoids is effective in reducing pain in cancer patients who are still in pain despite using opioid medicines, according to a new study published in The Journal of Pain.”

 
“The oral mucosal spray known as nabixmols, which is marketed under the trade name Sativex, contains a formulation of cannabinoids, marijuana’s most active ingredients.”
 

More: http://americannewsreport.com/nationalpainreport/marijuana-spray-proves-effective-as-cancer-pain-treatment-8814518.html

A Double-Blind, Placebo-Controlled, Crossover Pilot Trial With Extension Using an Oral Mucosal Cannabinoid Extract for Treatment of Chemotherapy-Induced Neuropathic Pain.

“Neuropathic pain caused by chemotherapy limits dosing and duration of potentially life-saving anti-cancer treatment and impairs quality of life. Chemotherapeutic neuropathy responds poorly to conventional treatments, and there is an urgent medical need for new treatments. Recent preclinical studies demonstrate that cannabinoid agonists suppress established chemotherapy-evoked neuropathy.

This was a pilot trial to begin to investigate a currently available cannabinoid agent, nabiximols (oral mucosal spray containing cannabinoids), in the treatment of chemotherapy-induced neuropathic pain.

CONCLUSION:

Chemotherapy-induced neuropathic pain is particularly resistant to currently available treatments. This pilot trial found a number needed to treat of five and an average decrease of 2.6 on an 11-point NRS-PI in five “responders” (as compared with a decrease of 0.6 with placebo) and supports that it is worthwhile to study nabiximols in a full randomized, placebo-controlled trial of chemotherapy-induced neuropathic pain.”

http://www.ncbi.nlm.nih.gov/pubmed/23742737

Delta–9 Tetrahydrocannabinol inhibits growth and metastasis of lung cancer – Harvard University

“Lung cancer is the major cause of cancer-related mortality worldwide.Many of these over-express epidermal growth factor receptor(EGFR), and are usually highly aggressive and resistant to chemotherapy.

Recent studies have shown that {Delta}-9 Tetrahydrocannabinol (THC),the major component of Cannabis sativa, possess anti-tumor propertiesagainst various types of cancers.

 However, not much is knownabout its effect on lung cancer. In this study, we sought tocharacterize the effect of THC on EGF-induced growth and metastasisof human non small lung cancer cell (NSCLC) lines A549 and SW-1573.

We demonstrate that these cell lines and primary tumor samplesderived from lung cancer patients express cannabinoids receptorsCB1 and CB2, the known targets for THC action. We further showthat THC inhibits EGF-induced growth in these cell lines. Inaddition THC attenuated EGF-stimulated chemotaxis and chemoinvasion.Next we characterized the effect of THC on in vivo lung cancergrowth and metastasis in a murine model. A549 cells were implantedin SCID mice (n=6 per group) through subcutaneous and intravenousinjections to generate subcutaneous and lung metastatic cancer,respectively. THC (5mg/kg body wt.) was administered once dailythrough intraperitoneal injections for 21 days. The mice wereanalyzed for tumor growth and lung metastasis.

 A significantreduction (~50%) in tumor weight and volume were observed inTHC treated animals compared to the vehicle treated animals.THC treated animals also showed a significant (~60%) reductionin macroscopic lesions on the lung surface in comparison tovehicle treated control. Immunohistochemical analysis of thetumor samples from THC treated animals revealed anti-proliferativeand anti-angiogenic effects of THC with significant reductionin staining for Ki67, a proliferative marker and CD31, an endothelialmarker indicative of vascularization. Investigation into thesignaling events associated with reduced EGF-induced functionaleffects revealed that THC also inhibits EGF-induced Akt phosphorylation.Akt is a central signaling molecule of EGFR-mediated signalingpathways and it regulates a diverse array of cellular functions,including proliferation, angiogenesis, invasion and apoptosis.

Cumulatively, these studies indicate that THC has anti-tumorigenic and anti-metastatic effects against lung cancer. Novel therapies against EGFR overexpressing, aggressive and chemotherapy resistant lung cancers may include targeting the cannabinoids receptors.”

http://www.aacrmeetingabstracts.org/cgi/content/meeting_abstract/2007/1_Annual_Meeting/4749%20?maxtoshow&hits=80&RESULTFORMAT&fulltext=cannabinoid&searchid=1&FIRSTINDEX=1760&resourcetype=HWCIT

Cannabidiol (CBD): Fighting Inflammation & Aggressive Forms of Cancer

“Marijuana contains at least 60 known chemicals called cannabinoids, which activate cannabinoid receptors in your body. Tetrahydrocannabinol, or THC, is the main component responsible for the psychoactive effects, or “high,” marijuana is known for. While THC is known to have some medicinal value, there has been recent investigation into a new cannabinoid that is rumored to have more medicinal benefits than any single pharmaceutical drug on the market.”

“What is Cannabidiol (CBD)?

This cannabinoid is known as Cannabidiol (CBD), and is the second most abundant cannabinoid in cannabis. Research done by G.W. Pharmaceuticals suggests that CBD could be used for treating symptoms of rheumatoid arthritis and other autoimmune diseases, diabetes, nausea, bowel disorders, and many other hard-to-control side effects. According to an article from Projectcbd.com, CBD has even demonstrated neuroprotective effects, and its anti-cancer potential is currently being explored.

While it was originally believed that THC is a breakdown product of CBD, it is now known that both THC and CBD are actually metabolites of their decarboxylated acidic forms, THCa and CBDa. These acidic precursors are decarboxylated (essentially dried) by heat or extraction to produce THC and CBD; only then do they become psychoactive. The compound has medicinal benefits without the “high” that some patients do not desire. This makes CBD appealing to patients who are looking for an alternative to their current meds, which often have opiate-like effects.”

More: http://www.medicaljane.com/2012/12/20/cannabidiol-cbd-medicine-of-the-future/