Category Archives: Cancer

Cannabidiol Targets Colorectal Cancer Cells via Cannabinoid Receptor 2, Independent of Common Mutations

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“Cannabidiol (CBD) is a non-neurotoxic, phytocannabinoid from cannabis with reported medicinal properties, including antiepileptic and anti-inflammatory activity.

Several in vitro and in vivo studies have shown that CBD has antitumor potential against colorectal cancer (CRC), the third deadliest cancer in the world. However, as different mutations influence the antitumor effects and CBD can bind a variety of receptors, it is yet to be determined whether specific CRC mutations affect CBD’s efficacy in treatment of CRC.

To investigate this, we selected four CRC cell lines, including HCT116, HT-29, LS174T, and LS153, which harbor distinct mutations. Cells were treated with a range of concentrations of CBD to evaluate its cytotoxic effects and impact on cell proliferation, migration, and invasion by using a live-cell imaging system. IC50 values were then calculated for each parameter. The level of endoplasmic reticulum (ER) stress pathway markers was also measured using qRTPCR. The requirements for CB1 or CB2 receptor-medicated signaling were investigated using the selective inhibitors AM251 and SR144528, respectively.

Our results demonstrate that CBD induces apoptosis and halts proliferation, migration, and invasion of CRC cell lines in a concentration-dependent manner.

CBD showed potent antitumor effects in the tested cell lines with no obvious effect from different mutations such as KRAS, BRAF, APC, PTEN, etc. CBD also induced ER stress in CRC cells but not in healthy intestinal organoids. Cotreatment with SR144528 inhibited the effects of indicating involvement of CB2 receptor activation in the anticancer effects of CBD.

Together, these results demonstrated that CBD could be effective for CRC regardless of the underlying mutation through CB2 receptor activation.”

https://pubmed.ncbi.nlm.nih.gov/39974647/

https://pubs.acs.org/doi/10.1021/acsptsci.4c00644

UK Medical Cannabis Registry: An Analysis of Clinical Outcomes of Medicinal Cannabis Therapy for Cancer Pain

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“Cancer pain (CP) is a prevalent condition with limited pharmacotherapeutic options. Cannabis-based medicinal products (CBMPs) have shown analgesic effects, but their efficacy in CP remains contentious.

This study aims to evaluate the change in patient-reported outcome measures (PROMs) and adverse events (AEs) in CP patients treated with CBMPs.

A case series was conducted using prospectively collected clinical data from the UK Medical Cannabis Registry. Primary outcomes were the changes in the Brief Pain Inventory (BPI), pain visual analogue scale (Pain-VAS), EQ-5D-5L, Generalized Anxiety Disorder-7 (GAD-7), Patient Global Impression of Change (PGIC) and Single-Item Sleep Quality Scale (SQS) questionnaires from baseline to 1, 3, and 6 months. AEs were recorded and graded. p < 0.050 was considered statistically significant. One hundred and sixty-eight participants were included.

CBMPs were associated with improvements in all pain-specific PROMs at all follow-up periods (p < 0.050).

Improvements in GAD-7, SQS, and EQ-5D-5L index scores were also observed (p < 0.050). Twenty-nine AEs (17.26%) were reported by five patients (2.98%), mostly mild-to-moderate (72.41%). Although the observational design means causality cannot be established, the findings support the development of future randomized controlled trials into CP management with CBMPs.”

https://pubmed.ncbi.nlm.nih.gov/39921589/

“This study found that initiation of CBMPs is associated with improvements in pain-specific and general health-related quality of life outcomes in CP patients over six months, with a relatively low incidence of mild-to-moderate AEs and no life-threatening AEs.”

https://www.tandfonline.com/doi/full/10.1080/15360288.2025.2457101

The impact of cannabis on immune checkpoint inhibitor therapy: a systematic review of immunomodulatory effects of cannabis in patients with and without cancer

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“Purpose: Cannabis is commonly used among patients with cancer for palliative benefit. As the use of immune checkpoint inhibitors (ICIs) for cancer therapy increases, there is concern about potential interactions between ICIs and cannabis. Preclinical studies suggest that cannabis leads to immunosuppression, which could impair the function of ICIs. However, only a few clinical studies have investigated this relationship. The goal of this review is to synthesize reported immunomodulatory effects of cannabis in patients with and without cancer in order to better understand whether these preclinical findings translate to the clinical space.

Methods: A database search was conducted through Ovid Medline to identify relevant articles. Clinical studies investigating cannabis use in humans and the immune system were included. Preclinical studies and case studies were excluded. Information pertaining to immune changes with cannabis exposure was abstracted.

Results: Forty studies met inclusion criteria, including 9 randomized, placebo-controlled clinical trials. Analysis of immune-related markers demonstrated no change in cytokines, T-cell counts, and CRP in most studies with cannabis exposure.

Among patients with autoimmune diseases, cannabis use showed improvements in clinical symptoms even while objective laboratory immune markers remained unchanged.

Conclusion: We did not find evidence of meaningful changes in immune parameters with cannabis use in the clinical setting across multiple diseases. In particular, immune markers relevant to ICI function did not appear to be associated with cannabis use. This evidence may provide some reassurance to patients and oncologists contemplating concomitant cannabis use with ICIs; however, additional well-controlled prospective studies are warranted in this setting.”

https://pubmed.ncbi.nlm.nih.gov/39921765/

https://link.springer.com/article/10.1007/s00520-025-09218-x

Cannabidiol attenuates lipid metabolism and induces CB1 receptor-mediated ER stress associated apoptosis in ovarian cancer cells

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“Ovarian cancer (OC) is the most deadly gynecological tumor. OC cells utilize cellular metabolic reprogramming to gain a survival advantage, particularly through aberrant lipid metabolic process.

As the primary ingredient in exogenous cannabinoids, cannabidiol (CBD) has been confirmed to exhibit antitumor activity in preclinical studies. However, it is still unclear whether CBD can disrupt fatty acid metabolism and induce apoptosis in OC cells.

In this study, we have demonstrated that CBD significantly inhibits the proliferation of OCs through a cannabinoid receptor type 1 (CB1R)-mediated manner.

Fatty acid metabolic profiling and flow cytometry analysis revealed that CBD has the ability to decrease fatty acid levels and significantly suppress the transcription of genes involved in fatty acid uptake and synthesis in ES-2 cells. In addition, the analysis from RNA-seq and real-time RT-PCR revealed that CBD activated the endoplasmic reticulum (ER) stress pathway. Conversely, by supplementation with unsaturated fatty acid or blocking CB1R, ER stress or reactive oxygen species (ROS) signals with specific inhibitors could significantly relieve CBD induced, dose-dependent, ER stress associated apoptosis, G0-G1 phase arrest, and mitochondrial dysfunction.

Taken collectively, these data indicate that CBD may disrupt lipid metabolism, and lead to ER stress-related apoptosis in OCs. Our findings may provide a theoretical mechanism for anti-ovarian cancer using CBD.”

https://pubmed.ncbi.nlm.nih.gov/39910152/

“Preclinical studies have demonstrated that CBD, either as a monotherapy or in conjunction with other treatments, holds potential as a novel anti-tumor, anti-inflammatory, and analgesic agent. Our results demonstrated that CBD promoted OC cells apoptosis and G0-G1 phase arrest by disrupting the CBR1-mediated lipid metabolism and ER stress- and mitochondrial dysfunction-associated apoptosis signaling pathways (Fig. 8). Therefore, CBD may serve as a potential candidate for adjuvant therapy in the treatment of ovarian cancer. However, larger-scale clinical studies involving more patient samples and detailed dose-response relationship analyses are still needed to confirm the efficacy of CBD in cancer patients.”

https://www.nature.com/articles/s41598-025-88917-1

GPR55 in the tumor microenvironment of pancreatic cancer controls tumorigenesis

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“Background: The G protein-coupled receptor 55 (GPR55) is part of an expanded endocannabinoid system (ECS), and plays a pro-tumorigenic role in different cancer models, including pancreatic cancer. Next to cancer cells, various cells of the immune tumor microenvironment (TME) express receptors of the ECS that critically determine tumor growth. The role of GPR55 in cancer cells has been widely described, but its role in the immune TME is not well understood.

Methods: We intended to uncover the role of GPR55 in tumor immunity in a model of pancreatic ductal adenocarcinoma (PDAC). To this end, a KPCY tumor cell line or a GPR55-overexpressing KPCY cell line (KPCY55) from murine PDAC were subcutaneously injected into wildtype (WT) and GPR55 knockout (KO) mice, and immune cell populations were evaluated by flow cytometry.

Results: Deficiency of GPR55 in the TME led to reduced tumor weight and volume, and altered the immune cell composition of tumors, favoring an anti-tumorigenic environment by increasing the number of CD3+ T cells, particularly CD8+ T cells, and the expression of PDL1 on macrophages. RNA-seq pathway analysis revealed higher T cell activity in KPCY55 tumors of GPR55 KO vs. WT mice. In addition, tumors from GPR55 KO mice displayed increased levels of T cell chemokines Cxcl9 and Cxcl10. Migration of T cells from GPR55 KO mice towards CXCL9 was increased in comparison to T cells from WT mice, suggesting that a CXCR3/CXCL9 axis was involved in T cell influx into tumors of GPR55 KO mice. Notably, anti-PD-1 immunotherapy increased tumor burden in WT mice, while this effect was absent in the GPR55 KO mice.

Conclusion: Our study indicates that GPR55 in TME cells may drive tumor growth by suppressing T cell functions, such as migration, in a model of PDAC, making it an interesting target for immunotherapies.”

https://pubmed.ncbi.nlm.nih.gov/39885986/

“Our study indicates that GPR55 in TME cells may drive tumor growth by suppressing T cell functions, such as migration, in a model of PDAC, making it an interesting target for immunotherapies.”

https://www.frontiersin.org/journals/immunology/articles/10.3389/fimmu.2024.1513547/full

“GPR55 – a putative “type 3″ cannabinoid receptor in inflammation”

https://pubmed.ncbi.nlm.nih.gov/26669245/

“Therapeutic targeting of the tumor microenvironments with cannabinoids and their analogs: Update on clinical trials”

https://pubmed.ncbi.nlm.nih.gov/37146933/

“Anti-proliferative and apoptotic effect of cannabinoids on human pancreatic ductal adenocarcinoma xenograft in BALB/c nude mice model”

https://pubmed.ncbi.nlm.nih.gov/38499634/

“Antitumor Effects of Cannabinoids in Human Pancreatic Ductal Adenocarcinoma Cell Line (Capan-2)-Derived Xenograft Mouse Model”

https://pubmed.ncbi.nlm.nih.gov/35937289/

“Cannabinoid improves survival rates of mice with pancreatic cancer”

https://medicalxpress.com/news/2018-07-cannabinoid-survival-mice-pancreatic-cancer.html

Cannabidiol Ameliorates Doxorubicin-Induced Myocardial Injury via Activating Hippo Pathway

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“Background: Doxorubicin (DOX) is a chemotherapeutic agent widely used for cancer treatment and has non-negligible cardiotoxicity. Some previous studies have reported that cannabidiol (CBD) has cardioprotective effects. In this study, we evaluated the protective effects of CBD against DOX-induced cardiomyocyte injury, and explored the downstream molecular mechanism.

Methods and materials: GSE193861, containing healthy myocardial tissues and myocardial tissues with DOX-induced injury, was analyzed to screen for the involved proteins and pathways. Molecular docking was performed to identify candidate drugs. After H9c2 cells were treated with DOX and CBD, their viability, oxidative stress, and apoptosis were assessed. After YAP depletion, the role of the Hippo pathway in CBD function was investigated. C57BL/6 mice were treated with DOX to establish an in vivo model, and CBD and verteporfin (VP) were used to treat the mice. Histological analyses and immunofluorescence were used to evaluate myocardial tissue injury, and apoptosis and oxidative stress of the myocardial tissues were also analyzed. Western blotting was used to investigate the regulatory effects of CBD on the Hippo and apoptosis-related pathways.

Results: Bioinformatic analysis suggested that the Hippo pathway was a crucial pathway involved in DOX-induced myocardial injury. Molecular docking showed that CBD targeted multiple regulators of the Hippo pathway. CBD showed cardioprotective effects against DOX-induced myocardial injury both in vitro and in vivo and regulated Hippo pathway activity in cardiomyocytes. After inactivation of the Hippo pathway by YAP knockdown or VP intervention, the protective effects of CBD were reversed.

Conclusion: For the first time, we revealed that CBD is likely to reduce DOX-induced myocardial injury by regulating the Hippo signaling pathway.”

https://pubmed.ncbi.nlm.nih.gov/39876987/

“Overall, this study reports that CBD alleviates DOX-induced myocardial injury by regulating the Hippo pathway.”

https://www.dovepress.com/cannabidiol-ameliorates-doxorubicin-induced-myocardial-injury-via-acti-peer-reviewed-fulltext-article-DDDT

Exploring the Therapeutic Potential of Cannabidiol in U87MG Cells: Effects on Autophagy and NRF2 Pathway

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“Cannabinoids include both endogenous endocannabinoids and exogenous phytocannabinoids, such as cannabidiol (CBD), and have potential as therapeutic agents in cancer treatment due to their selective anticancer activities.

CBD exhibits both antioxidant and pro-oxidant effects depending on its concentration and cell types. These properties allow CBD to influence oxidative stress responses and potentially enhance the efficacy of antitumor therapies.

In this study, we treated U87MG glioma cells with low dose (1 μM) CBD and evaluated its molecular effects.

Our findings indicate that CBD reduced cell viability by 20% (p < 0.05) through the alteration of mitochondrial membrane potential. The alteration of redox status by CBD caused an attempt to rescue mitochondrial functionality through nuclear localization of the GABP transcription factor involved in mitochondria biogenesis. Moreover, CBD treatment caused an increase in autophagic flux, as supported by the increase in Beclin-1 and the ratio of LC3-II/LC3-I. Due to mitochondria functionality alteration, pro-apoptotic proteins were induced without activating apoptotic effectors Caspase-3 or Caspase-7. The study of the transcription factor NRF2 and the ubiquitin-binding protein p62 expression revealed an increase in their levels in CBD-treated cells.

In conclusion, low-dose CBD makes U87MG cells more vulnerable to cytotoxic effects, reducing cell viability and mitochondrial dynamics while increasing autophagic flux and redox systems. This explains the mechanisms by which glioma cells respond to CBD treatment.

These findings highlight the therapeutic potential of CBD, suggesting that modulating NRF2 and autophagy pathways could represent a promising strategy for glioblastoma treatment.”

https://pubmed.ncbi.nlm.nih.gov/39857352/

“Our study demonstrates that low-dose CBD treatment (1 μM) in U87MG glioblastoma cells stimulates the autophagy process, which is essential for mitochondrial renewal, contributing to an increase in mitochondria with altered membrane potential. Moreover, CBD-treated U87MG cells present an abnormal activation of the NRF2 pathway, reducing the expression of antioxidant target genes and consequently altering mitochondrial integrity. These molecular effects suggest that CBD could have therapeutic repercussions or be useful in the development of multi-target agents acting on the NRF2 mitochondrial biogenesis–autophagy axis.”

https://www.mdpi.com/2076-3921/14/1/18

Cannabidiol suppresses proliferation and induces cell death, autophagy and senescence in human cholangiocarcinoma cells via the PI3K/AKT/mTOR pathway

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“Background and aim: Cholangiocarcinoma (CCA) is usually diagnosed at a late stage, leading to treatment failure. Cannabidiol (CBD), exhibits diverse anti-cancer effects in various cancers, offering avenues for improving CCA treatment. This study investigated the effects of CBD on human CCA cells and the underlying mechanisms in vitro and in vivo.

Experimental procedure: The effects of CBD on three CCA cell lines (KKU-213B, KKU-100, KKU-055) were assessed using the SRB assay, clonogenic assay, cell cycle arrest, and 3D holotomography. Morphological changes were examined using transmission electron microscopy, while mitochondrial ROS levels and mitochondrial membrane potential were studied using MitoSOX, JC-1, and DCFH-DA. Cellular senescence induction was evaluated via SA-β-gal staining. Protein associatedwith autophagy and cellular senescence were analyzed using Western blot and/or immunofluorescent assays. A xenograft model demonstrated the anti-tumor activity of CBD and the induction of cellular senescence through immunohistochemistry targeting PCNA, β-gal, and p21.

Results and conclusion: CBD effectively inhibited CCA cell proliferation, suppressed colony formation and induced G0/G1 phase cell cycle arrest. Morphological examination revealed lipid droplets/vesicles in CCA cell lines. CBD induced autophagy by upregulating LC3BII, downregulating p62, and inhibiting the p-PI3K, p-AKT, and p-mTOR pathways. Additionally, CBD disrupted mitochondrial homeostasis by elevating ROS, reducing membrane potential, and induced cellular senescence by increasing the expression of p53 and p21. In-vitro results were confirmed by xenograft models. Overall, CBD suppresses proliferation and induces cell death, autophagy and senescence in CCA cells via the PI3K/AKT/mTOR pathway, which indicates a therapeutic option for CCA treatment.”

https://pubmed.ncbi.nlm.nih.gov/39850601/

“Although CBD has shown anti-tumor activity in various solid tumors, including CCA, its mechanism of action remains poorly understood.”

“The study reported here has shown that CBD has a significant anti-tumor effect on CCA cells through various mechanisms, including the inhibition of cell proliferation both in vitro and in vivo, the reduction of colony formation ability and the induction of multiple cellular processes, notably autophagy, cell cycle arrest, cellular senescence, mitochondrial dysfunction, lipid droplet formation, and ROS overproduction.

The significant findings from our study strongly suggest that CBD, through its targeting of the PI3K/AKT/mTOR pathway, holds great promise as a therapeutic agent for treating CCA and potentially other cancers.”

“Various herbal agents, including CBD, have shown promise for the treatment of CCA.”

https://www.sciencedirect.com/science/article/pii/S2225411024000506?via%3Dihub

Unveiling cellular changes in leukaemia cell lines after cannabidiol treatment through lipidomics

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“The present study was aimed at revealing the metabolic changes that occurred in the cellular lipid pattern of acute and chronic myeloid leukaemia cells following treatment with cannabidiol (CBD).

CBD is a non-psychoactive compound present in Cannabis sativa L., which has shown an antiproliferative action in these type of cancer cells.

CBD treatment reduced cell viability and initiated apoptotic and necrotic processes in both cancer cell lines in a time and dose-dependent manner, showing acute myeloid leukaemia (HL-60) cells greater sensitivity than chronic myeloid leukaemia ones (K-562), without differences in the activation of caspases 3/7. Then, control and treated cells of HL-60 and K-562 cell lines were studied through an untargeted lipidomic approach.

The treatment was carried out with CBD at a concentration of 10 μM for HL-60 cells and 23 µM CBD for K-562 cells for 48 h. After the extraction of the lipid content from cell lysates, the samples were analysed by UHPLC-QTOF-MS/MS both in the positive and the negative ionization modes. The comprehensive characterization of cellular lipids unveiled several classes significantly affected by CBD treatment. Most of the differences correspond to phospholipids, including cardiolipins (CL), phosphatidylcholines (PC) and phosphosphingolipids (SM), and also triacylglycerols (TG), being many TG species increased after CBD treatment in the acute and chronic models, whereas phospholipids were found to be decreased.

The results highlight some important lipid alterations related to CBD treatment, plausibly connected with different metabolic mechanisms involved in the process of cell death by apoptosis in cancer cell lines.”

https://pubmed.ncbi.nlm.nih.gov/39824876/

“Cannabinoids have shown to be effective both as a single agent and in combination with antineoplastic drugs.”

https://www.nature.com/articles/s41598-025-86044-5

Lebanese Cannabis sativa L. extract protects from cisplatin-induced nephrotoxicity in mice by inhibiting podocytes apoptosis

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“Background: Cisplatin is an anti-cancer drug used to treat a plethora of solid tumors. However, it is associated with dose dependent nephrotoxicity limiting its use as anticancer agent.

Objective: The current study aimed to investigate the nephroprotective effect of native Lebanese Cannabis sativa in both in vitro and in vivo mice model of cisplatin-induced nephrotoxicity.

Methods: Podocytes cell viability was assessed using MTS assay with cisplatin (30µM) in presence or absence of Cannabis oil extract (COE) at 0.5, 1 and 2µg/ml for 24h. Acute renal injury was established in adult female C57BL/6 mice with 20mg/kg, i.p. single dose cisplatin. Mice were divided into control group (vehicle), COE group, cisplatin group and cisplatin plus COE (2.5, 5 and 20mg/kg, i.p.). Animal body weight, serum creatinine, blood urea nitrogen (BUN), and proteinuria were measured.

Results: Cell viability assay and western blot analysis revealed that COE prevented apoptosis induced by cisplatin in cultured immortalized rat podocytes. In addition, in vitro scratch assay demonstrated the ability of COE to promote and restore the migratory capacity of podocytes in cisplatin-treated cells. Interestingly, COE treatment improved urinary and serum parameters characterized by a significant decrease in serum creatinine, urea, and proteinuria at various COE doses. Western blot analysis showed that COE inhibited COX-2 protein induction as well as apoptosis marker production (Bax/Bcl2 ratio) in cisplatin-treated mice when compared to mice treated with cisplatin alone.

Conclusion: Collectively, the aforementioned findings indicate that COE could be a promising approach to protect against cisplatin-induced nephrotoxicity.”

https://pubmed.ncbi.nlm.nih.gov/39819647/

“In conclusion, our results corroborated previous findings but on kidney podocytes. We strongly suggest that the Lebanese Cannabis oil extract may be of significant therapeutic benefits against the renal complications of cisplatin. Thus, Lebanese COE produces its renoprotective effects partly through activating antiinflammatory and antiapoptoric mechanisms in podocytes.”

https://jcannabisresearch.biomedcentral.com/articles/10.1186/s42238-025-00260-4