Gliomas (tumors in the brain) are especially aggressive malignant forms of cancer, often resulting in the death of affected patients within one to two years following diagnosis. There is no cure for gliomas and most available treatments provide only minor symptomatic relief.
A review of the modern scientific literature reveals numerous preclinical studies and one pilot clinical study demonstrating cannabinoids’ ability to act as antineoplastic agents, particularly on glioma cell lines.
Writing in the September 1998 issue of the journal FEBS Letters, investigators at Madrid’s Complutense University, School of Biology, first reported that delta-9-THC induced apoptosis (programmed cell death) in glioma cells in culture.[1] Investigators followed up their initial findings in 2000, reporting that the administration of both THC and the synthetic cannabinoid agonist WIN 55,212-2 “induced a considerable regression of malignant gliomas” in animals.[2] Researchers again confirmed cannabinoids’ ability to inhibit glioma tumor growth in animals in 2003.[3]
Italian investigators that same year similarly reported that the non-psychoactive cannabinoid,cannabidiol (CBD), inhibited the growth of various human glioma cell lines in vivo and in vitro in a dose dependent manner. Writing in the November 2003 issue of the Journal of Pharmacology and Experimental Therapeutics Fast Forward, researchers concluded, “Non-psychoactive CBD … produce[s] a significant anti-tumor activity both in vitro and in vivo, thus suggesting a possible application of CBD as an antineoplastic agent.”[4]
In 2004, Guzman and colleagues reported that cannabinoids inhibited glioma tumor growth in animals and in human glioblastoma multiforme (GBM) tumor samples by altering blood vessel morphology (e.g., VEGF pathways). Writing in the August 2004 issue of Cancer Research, investigators concluded, “The present laboratory and clinical findings provide a novel pharmacological target for cannabinoid-based therapies.”[5]
Investigators at the California Pacific Medical Center Research Institute reported that the administration of THC on human glioblastoma multiforme cell lines decreased the proliferation of malignant cells and induced cell death more rapidly than did the administration of the synthetic cannabinoid agonist WIN 55,212-2. Researchers also noted that THC selectively targeted malignant cells while ignoring healthy ones in a more profound manner than the synthetic alternative.[6] A separate preclinical trial reported that the combined administration of THC and the pharmaceutical agent temozolomide (TMZ) “enhanced autophagy” (programmed cell death) in brain tumors resistant to conventional anti-cancer treatments.[7]
Guzman and colleagues have also reported that THC administration decreases recurrent glioblastoma multiforme tumor growth in some patients diagnosed with recurrent GBM. In the first ever pilot clinical trial assessing the use of cannabinoids and GBM, investigators found that the intratumoral administration of THC was associated with reduced tumor cell proliferation in two of nine subjects. “The fair safety profile of THC, together with its possible anti-proliferative action on tumor cells reported here and in other studies, may set the basis for future trials aimed at evaluating the potential antitumoral activity of cannabinoids,” investigators concluded.[8] Several additional investigators have also recently called for further exploration of cannabis-based therapies for the treatment of glioma.[9-11] A separate case report, published in 2011 in the journal of the International Society for Pediatric Neurosurgery, also documents the spontaneous regression of residual brain tumors in two children coinciding with the subjects use of cannabis.[12]
In addition to cannabinoids’ ability to moderate glioma cells, separate preclinical studies demonstrate that cannabinoids and endocannabinoids can also inhibit the proliferation of other various cancer cell lines, including breast carcinoma,[13-17] prostate carcinoma,[18-22] colorectal carcinoma,[23-24] gastric adenocarcinoma,[25] skin carcinoma,[26] leukemia cells,[27-30] neuroblastoma,[31-32] lung carcinoma,[33-34]uterus carcinoma,[35] thyroid epithelioma,[36] pancreatic adenocarcinoma,[37-38] cervical carcinoma,[39] oral cancer,[40] biliary tract cancer (cholangiocarcinoma)[41] and lymphoma, among others.[42-43] A 2013 case report published in the journal Case Reports in Oncology also reports successful treatment with cannabis extracts in a 14-year-old patient diagnosed with an aggressive form of acute lymphoblastic leukemia.[44] Population studies also report an inverse relationship between cannabis use and the prevalence of various types of cancer, including lung cancer,[45] head and neck cancer,[46] and bladder cancer.[47]
Consequently, some experts acknowledge that there exists “solid scientific evidences supporting that cannabinoids exhibit a remarkable anticancer activity in preclinical models of cancer,”[48] and that cannabinoids may one day “represent a new class of anticancer drugs that retard cancer growth, inhibit angiogenesis and the metastatic spreading of cancer cells.”[49-50]
REFERENCES
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[2] Guzman et al. 2000. Anti-tumoral action of cannabinoids: involvement of sustained ceramide accumulation and extracellular signal-regulated kinase activation. Nature Medicine 6: 313-319.
[3] Guzman et al. 2003. Inhibition of tumor angiogenesis by cannabinoids. The FASEB Journal 17: 529-531.
[4] Massi et al. 2004. Antitumor effects of cannabidiol, a non-psychotropic cannabinoid, on human glioma cell lines. Journal of Pharmacology and Experimental Therapeutics Fast Forward 308: 838-845.
[5] Guzman et al. 2004. Cannabinoids inhibit the vascular endothelial growth factor pathways in gliomas (PDF).Cancer Research 64: 5617-5623.
[6] Allister et al. 2005. Cannabinoids selectively inhibit proliferation and induce death of cultured human glioblastoma multiforme cells. Journal of Neurooncology 74: 31-40.
[7] Torres et al. 2011. A combined preclinical therapy of cannabinoids and Temozolomide against glioma.Molecular Cannabis Therapeutics 10: 90.
[8] Guzman et al. 2006. A pilot clinical study of delta-9-tetrahydrocannabinol in patients with recurrent glioblastoma multiforme. British Journal of Cancer (E-pub ahead of print).
[9] Parolaro and Massi. 2008. Cannabinoids as a potential new drug therapy for the treatment of gliomas. Expert Reviews of Neurotherapeutics 8: 37-49
[10] Galanti et al. 2007. Delta9-Tetrahydrocannabinol inhibits cell cycle progression by downregulation of E2F1 in human glioblastoma multiforme cells. Acta Oncologica 12: 1-9.
[11] Calatozzolo et al. 2007. Expression of cannabinoid receptors and neurotrophins in human gliomas.Neurological Sciences 28: 304-310.
[12] Foroughi et al. 2011. Spontaneous regression of septum pellucidum/forniceal pilocytic astrocytomas — possible role of cannabis inhalation. Child’s Nervous System 27: 671-679.
[13] Cafferal et al. 2006. Delta-9-Tetrahydrocannabinol inhibits cell cycle progression in human breast cancer cells through Cdc2 regulation. Cancer Research 66: 6615-6621.
[14] Di Marzo et al. 2006. Anti-tumor activity of plant cannabinoids with emphasis on the effect of cannabidiol on human breast carcinoma. Journal of Pharmacology and Experimental Therapeutics Fast Forward 318: 1375-1387.
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[21] Ramos and Bianco. 2012. The role of cannabinoids in prostate cancer: Basic science perspective and potential clinical applications. Journal of Urology 28: 9-14.
[22] DePetrocellis et al. 2013. Non-THC cannabinoids inhibit prostate carcinoma growth in vitro and in vivo: pro-apoptotic effects and underlying mechanisms. British Journal of Pharmacology 168: 79-102.
[23] Pastos et al. 2005. The endogenous cannabinoid, anandamide, induces cell death in colorectal carcinoma cells: a possible role for cyclooxygenase-2. Gut 54: 1741-1750.
[24] Aviello et al. 2012. Chemopreventive effect of the non-psychotropic phytocannabinoid cannabidiol on experimental colon cancer. Journal of Molecular Medicine [E-pub ahead of print]
[25] Di Marzo et al. 2006. op. cit
[26] Casanova et al. Inhibition of skin tumor growth and angiogenesis in vivo by activation of cannabinoid receptors. 2003. Journal of Clinical Investigation 111: 43-50.
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[29] Liu et al. 2008. Enhancing the in vitro cytotoxic activity of Ä9-tetrahydrocannabinol in leukemic cells through a combinatorial approach. Leukemia and Lymphoma 49: 1800-1809.
[30] Scott et al. 2013. Enhancing the activity of cannabidiol and other cannabinoids in vitro through modifications to drug combinations and treatment schedules 33: 4373-4380.
[31] Manuel Guzman. 2003. Cannabinoids: potential anticancer agents (PDF). Nature Reviews Cancer 3: 745-755.
[32] Marcu et al. 2010. Cannabidiol enhances the inhibitory effects of delta9-tetrahydrocannabinol on human glioblastoma cell proliferation and survival. Molecular Cancer Therapeutics 9: 180-189.
[33] Guzman. 2003 op. cit.
[34] Preet et al. 2008. Delta9-Tetrahydrocannabinol inhibits epithelial growth factor-induced lung cancer cell migration in vitro as well as its growth and metastasis in vivo. Oncogene 10: 339-346.
[35] Manuel Guzman. 2003. Cannabinoids: potential anticancer agents (PDF). Nature Reviews Cancer 3: 745-755.
[36] Baek et al. 1998. Antitumor activity of cannabigerol against human oral epitheloid carcinoma cells. Archives of Pharmacal Research: 21: 353-356.
[37] Carracedo et al. 2006. Cannabinoids induce apoptosis of pancreatic tumor cells via endoplasmic reticulum stress-related genes. Cancer Research 66: 6748-6755.
[38] Michalski et al. 2008. Cannabinoids in pancreatic cancer: correlation with survival and pain. International Journal of Cancer 122: 742-750.
[39] Ramer and Hinz. 2008. Inhibition of cancer cell invasion by cannabinoids via increased cell expression of tissue inhibitor of matrix metalloproteinases-1. Journal of the National Cancer Institute 100: 59-69.
[40] Whyte et al. 2010. Cannabinoids inhibit cellular respiration of human oral cancer cells. Pharmacology 85: 328-335.
[41] Leelawat et al. 2010. The dual effects of delta(9)-tetrahydrocannabinol on cholangiocarcinoma cells: anti-invasion activity at low concentration and apoptosis induction at high concentration. Cancer Investigation 28: 357-363.
[42] Gustafsson et al. 2006. Cannabinoid receptor-mediated apoptosis induced by R(+)-methanandamide and Win55,212 is associated with ceramide accumulation and p38 activation in mantle cell lymphoma. Molecular Pharmacology 70: 1612-1620.
[43] Gustafsson et al. 2008. Expression of cannabinoid receptors type 1 and type 2 in non-Hodgkin lymphoma: Growth inhibition by receptor activation. International Journal of Cancer 123: 1025-1033.
[44] Singh and Bali. 2013. Cannabis extract treatment for terminal acute lymphoblastic leukemia. Case Reports in Oncology 6: 585-592.
[45] Washington Post. May 26, 2006. “Study finds no cancer-marijuana connection.”
[46] Liang et al. 2009. A population-based case-control study of marijuana use and head and neck squamous cell carcinoma. Cancer Prevention Research 2: 759-768.
[47] Thomas et al. 2015. Association between cannabis use and the risk of bladder cancer: Results from the California Men’s Health Study. Urology 85: 388-393.
[48] Velasco et al. 2015. The use of cannabinoids as anticancer agents. Progress in Neuro-Psychopharmacology and Biological Chemistry. In print.
[49] Natalya Kogan. 2005. Cannabinoids and cancer. Mini-Reviews in Medicinal Chemistry 5: 941-952.
[50] Sarafaraz et al. 2008. Cannabinoids for cancer treatment: progress and promise. Cancer Research 68: 339-342.