London, United Kingdom: The concomitant administration of various non-psychoactive plant cannabinoids demonstrates synergistic anti-cancer activity in human leukemia cells, according to preclinical trial data published online this week in the journal Anticancer Research.

Investigators from Saint George’s, University of London assessed the anti-cancer potential of three non-psychoactive cannabinoids (cannabidiol, cannabigerol, and cannabigevarin) and their respective acids on two types of leukaemia cell lines. Authors reported that the administration of cannabinoids in concert with one another resulted in "in additive/mildly synergistic interaction."

Authors concluded: "Our findings indicate that cannabinoids act with each other in a way such that doses for therapy could be reduced without a significant loss of activity. … [T]his study adds further support to the idea that cannabinoids can have a role in the cancer setting, not only as single agents, but also in combination with each other."

Commenting on the study in a press release, lead author Wai Lui said: "These agents are able to interfere with the development of cancerous cells, stopping them in their tracks and preventing them from growing. In some cases, by using specific dosage patterns, they can destroy cancer cells on their own. Used in combination with existing treatment, we could discover some highly effective strategies for tackling cancer. Significantly, these compounds are inexpensive to produce and making better use of their unique properties could result in much more cost effective anti-cancer drugs in future."

Plant cannabinoids as well as endogenous cannabinoids have been consistently shown to be potent anti-cancer inhibitors in preclinical models, halting the proliferation of glioma cancer cells, prostate cancer cells, breast carcinoma, lung carcinoma, and lymphoma, among other cancer cell lines.

For more information, please contact Paul Armentano, NORML Deputy Director, at: paul@norml.org. Full text of the study, "Enhancing the activity of cannabidiol and other cannabinoids in vitro through modifications to drug combinations and treatment schedules," appears online in Anticancer Research.

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