Antitumor Effects of Cannabidiol, a Nonpsychoactive Cannabinoid, on Human Glioma Cell Lines

Massi, Paola; Vaccani, Angelo; Ceruti, Stefania; Colombo, Arianna; Abbracchio, Maria P.; Parolaro, Daniela

doi:10.1124/jpet.103.061002

Cited by 224 publications

(230 citation statements)

References 34 publications

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“…However, in line with our data cannabidiol has been reported to exert several of its effects, including modulation of cytokine release and macrophage chemotaxis [11] as well as antiproliferative [12] and proapoptotic properties [13] in a cannabinoid receptor-dependent manner. One possible explanation for the discrepancy between the low receptor affinity and the apparent involvement of cannabinoid receptors in cannabidiol-mediated effects may be given by cannabidiol´s inhibitory action on fatty acid amidohydrolase activity that confers release of anandamide and increased receptor-mediated signalling by this endocannabinoid [16][17][18].…”

Section: Discussionsupporting

confidence: 79%

“…Although cannabidiol displays a low affinity to CB 1 and CB 2 receptors [10], several effects of cannabidiol including modulation of cytokine release and macrophage chemotaxis [11], antiproliferative [12] as well as proapoptotic properties [13] have been shown to be mediated via CB 1 and/or CB 2 receptors. In other investigations, cannabidiol has even been reported to display antagonistic effects on CB 1 and CB 2 receptor [14], as well as synergistic effects on THC-mediated hypoactivity, hypothermia and impairment of spatial memory [15].…”

Section: Introductionmentioning

confidence: 99%

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Cannabidiol inhibits cancer cell invasion via upregulation of tissue inhibitor of matrix metalloproteinases-1

Ramer

Merkord

Rohde

et al. 2010

Biochemical Pharmacology

148

149

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Although cannabinoids exhibit a broad variety of anticarcinogenic effects, their potential use in cancer therapy is limited by their psychoactive effects. Here we evaluated the impact of cannabidiol, a plant-derived non-psychoactive cannabinoid, on cancer cell invasion. Using Matrigel invasion assays we found a cannabidiol-driven impaired invasion of human cervical cancer (HeLa, C33A) and human lung cancer cells (A549) that was reversed by antagonists to both CB 1 and CB 2 receptors as well as to transient receptor potential vanilloid 1 (TRPV1). Additionally, in vivo studies in thymic-aplastic nude mice revealed a significant inhibition of A549 lung metastasis in cannabidiol-treated animals as compared to vehicle-treated controls.Altogether, these findings provide a novel mechanism underlying the anti-invasive action of cannabidiol and imply its use as a therapeutic option for the treatment of highly invasive cancers. Page 3 of 40A c c e p t e d M a n u s c r i p t 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64

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Section: Discussionsupporting

confidence: 79%

Section: Introductionmentioning

confidence: 99%

Cannabidiol inhibits cancer cell invasion via upregulation of tissue inhibitor of matrix metalloproteinases-1

Ramer

Merkord

Rohde

et al. 2010

Biochemical Pharmacology

148

149

View full text Add to dashboard Cite

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“…In contrast, when the same in vitro assay was performed on normal fibroblasts (WI-38 human lung fibroblasts) CBD exerted no statistically significant effect on sphingomyelin hydrolysis. Furthermore, the antitumor effect of CBD has been shown to be independent on the production of ceramide in human glioma cells (but was associated with a fall in mitochondrial potential; see below) [83] and thus it remains unclear as to whether or not CBD acts directly on the ceramide pathway. …”

Section: Effects On Enzymes Controlling Ceramidementioning

confidence: 99%

Molecular Targets of Cannabidiol in Neurological Disorders

Bih

Chen

Nunn³

et al. 2015

Neurotherapeutics

425

323

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Cannabis has a long history of anecdotal medicinal use and limited licensed medicinal use. Until recently, alleged clinical effects from anecdotal reports and the use of licensed cannabinoid medicines are most likely mediated by tetrahydrocannabinol by virtue of: 1) this cannabinoid being present in the most significant quantities in these preparations; and b) the proportion:potency relationship between tetrahydrocannabinol and other plant cannabinoids derived from cannabis. However, there has recently been considerable interest in the therapeutic potential for the plant cannabinoid, cannabidiol (CBD), in neurological disorders but the current evidence suggests that CBD does not directly interact with the endocannabinoid system except in vitro at supraphysiological concentrations. Thus, as further evidence for CBD's beneficial effects in neurological disease emerges, there remains an urgent need to establish the molecular targets through which it exerts its therapeutic effects. Here, we conducted a systematic search of the extant literature for original articles describing the molecular pharmacology of CBD. We critically appraised the results for the validity of the molecular targets proposed. Thereafter, we considered whether the molecular targets of CBD identified hold therapeutic potential in relevant neurological diseases. The molecular targets identified include numerous classical ion channels, receptors, transporters, and enzymes. Some CBD effects at these targets in in vitro assays only manifest at high concentrations, which may be difficult to achieve in vivo, particularly given CBD's relatively poor bioavailability. Moreover, several targets were asserted through experimental designs that demonstrate only correlation with a given target rather than a causal proof. When the molecular targets of CBD that were physiologically plausible were considered for their potential for exploitation in neurological therapeutics, the results were variable. In some cases, the targets identified had little or no established link to the diseases considered. In others, molecular targets of CBD were entirely consistent with those already actively exploited in relevant, clinically used, neurological treatments. Finally, CBD was found to act upon a number of targets that are linked to neurological therapeutics but that its actions were not consistent withmodulation of such targets that would derive a therapeutically beneficial outcome. Overall, we find that while >65 discrete molecular targets have been reported in the literature for CBD, a relatively limited number represent plausible targets for the drug's action in neurological disorders when judged by the criteria we set. We conclude that CBD is very unlikely to exert effects in neurological diseases through modulation of the endocannabinoid system. Moreover, a number of other molecular targets of CBD reported in the literature are unlikely to be of relevance owing to effects only being observed at supraphysiological concentrations. Of interest and after excludin...

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“…The authors also showed for the first time that the antiproliferative effect of CBD was correlated to induction of apoptosis, as determined by cytofluorimetric analysis and single-strand DNA staining, which was not reverted by cannabinoid and vanilloid receptor antagonists. 109 CBD also caused apoptosis in human myeloblastic leukemia cells. 110 In addition, CBD inhibits the migration of U87 human glioma cells in vitro and this effect was also not antagonized by either selective CB 1 or CB 2 receptor antagonists.…”

Section: Anticancer Actionmentioning

confidence: 99%

Cannabidiol: from an inactive cannabinoid to a drug with wide spectrum of action

Zuardi

2008

Rev. Bras. Psiquiatr.

341

302

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Antitumor Effects of Cannabidiol, a Nonpsychoactive Cannabinoid, on Human Glioma Cell Lines

Cited by 224 publications

References 34 publications

Cannabidiol inhibits cancer cell invasion via upregulation of tissue inhibitor of matrix metalloproteinases-1

Cannabidiol inhibits cancer cell invasion via upregulation of tissue inhibitor of matrix metalloproteinases-1

Molecular Targets of Cannabidiol in Neurological Disorders

Cannabidiol: from an inactive cannabinoid to a drug with wide spectrum of action

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