The Effect of Cannabidiol on Cancer-Pathway Genes in Doxorubicin-Sensitive and Resistant Breast Cancer Cells

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Purpose: Cannabidiol (CBD) is a primary bioactive, non-intoxicating cannabinoid found in the cannabis plant. Studies have shown that CBD causes anticancer activity by inhibiting the expression of growth factors and inducing apoptosis, leading to cell cycle arrest. In this study, we aimed to determine how CBD influences the expression of genes that affect cancer pathways in doxorubicin-sensitive (MCF-7) and doxorubicin-resistant (MCF-7/Adr) breast cancer cells. 

Materials and Methods: IC50 concentrations of CBD in MCF-7 and MCF-7/Adr cell lines were determined by the MTT cell cytotoxicity assay. RNA isolation and subsequent cDNA synthesis were performed for qPCR experiments with the determined IC50 values. The effects of CBD on the cell cycle and apoptosis were studied using flow cytometry. IC50 values of CBD were determined in MCF-7 and MCF-7/Adr breast cancer cell lines at eight different concentrations and at three different incubation periods (24 h, 48 h, and 72 h) with different doses. RT-qPCR was used to investigate the molecular mechanisms underlying the expression of genes involved in cancer pathway analysis. 

Results: Treatment with CBD at concentrations of 17.57 μM (MCF-7) and 11.41 μM (MCF-7/Adr) for 48 h decreased colony formation, induced apoptosis, and inhibited cell invasion in both cell lines. In addition, we observed significant alterations of angiogenesis, apoptosis, cell cycle, cellular senescence, DNA damage and repair, epithelial-to-mesenchymal transition, hypoxia, metabolism, telomeres, and telomerase in both cell lines. 

Conclusions: Our research indicates that CBD could be an effective natural bioactive compound for breast cancer treatment, inhibiting tumor cell proliferation and inducing apoptosis.”

https://pubmed.ncbi.nlm.nih.gov/42075870

“The plant Cannabis sativa has been used medicinally for several thousand years.”

“These findings support the relevance of CBD as a potential therapeutic agent in breast cancer and provide a basis for further investigation “

https://www.mdpi.com/1424-8247/19/4/615

Cannabinoid-Driven Rewiring of GPCR and Ion Channel Signaling in Lung Cancer

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“Lung cancer remains the leading cause of cancer-related mortality worldwide, with non-small cell lung cancer accounting for the majority of cases and exhibiting persistent challenges related to therapy resistance and metastatic progression. Increasing evidence indicates that dysregulated G protein-coupled receptor signaling and ion channel activity function cooperatively as master regulators of tumor cell proliferation, migration, survival, and therapeutic response.

Cannabinoids, including phytocannabinoids such as delta-9-tetrahydrocannabinol and cannabidiol, as well as endogenous endocannabinoids, are uniquely positioned to modulate both G protein-coupled receptors and ion channels, thereby influencing key oncogenic signaling networks.

This review synthesizes current knowledge on the role of major ion channel families, including transient receptor potential channels, potassium channels, and sodium channels, and principal G protein-coupled receptor pathways involved in lung cancer progression. We further discuss how cannabinoids reprogram these interconnected signaling systems through canonical cannabinoid receptors, non-classical targets such as G protein-coupled receptor 55 and adenosine receptors, and direct modulation of ion channel activity.

Special attention is given to G protein-coupled receptor-ion channel coupling within membrane microdomains and to the capacity of cannabinoids to act as biased ligands, redirecting downstream pathways, such as the phosphoinositide 3-kinase-protein kinase B-mechanistic target of rapamycin and epidermal growth factor receptor signaling, toward apoptosis and reduced metastatic potential. Emerging strategies, including cannabinoid-based combination therapies, selective receptor biasing, and targeted delivery systems, are also highlighted.

Altogether, cannabinoid-driven rewiring of G protein-coupled receptor and ion channel signaling represents a promising mechanistic framework for developing innovative therapeutic approaches against lung cancer.”

https://pubmed.ncbi.nlm.nih.gov/42072396

“While challenges remain (optimal dosing, patient selection, and regulatory hurdles), the insight that can simultaneously target GPCRs and ion channels to cripple lung cancer is a paradigm shift. The convergence of cancer signaling biology with cannabinoid pharmacology opens up exciting possibilities for combination treatments that might tackle tumor resistance and recurrence. In summary, cannabinoid-driven modulation of GPCR and ion channel signaling represents a promising multi-pronged strategy against lung cancer, warranting further investigation and translation into clinical trials.”

https://www.mdpi.com/2227-9059/14/4/856

Cannabinoid receptors orchestrate distinct anti-tumour pathways in gastric cancer via and beyond specialized pro-resolving mediators

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“Endocannabinoids (ECS) and specialized pro-resolving mediators (SPMs) are both lipid-based compounds, but differ significantly in origin, mechanisms, and functions. Their mechanistic interaction in cancer remains undefined, particularly in gastric cancer (GC). Several interconnections have been described between these two “bioactive lipids” involved in inflammation resolution, homeostatic and anti-tumour functions.

Cannabinoid signalling can modulate SPM biosynthesis in immune cells, thus we investigated whether this crosstalk operates in GC cells, and whether SPMs mediate part of the anti-tumour activity of cannabinoid receptors.

Using synthetic and selective agonists for the cannabinoid G-protein-coupled receptors CB1 and CB2 (ACEA and JWH133, respectively), we found that receptor activation in GC cells (AGS and MKN45) sustains the synthesis of two SPMs, Resolvin D1 and Lipoxin B4, which in turn suppresses the angiogenic potential of GC cells. These CB1/CB2-driven activities required a SRC/MAPK signalling. At physiological concentrations, these SPMs further enhanced the binding affinity of ACEA and JWH133 for CB1 and CB2, indicating a functional crosstalk between the two systems.

Beyond angiogenesis, CB1/2 stimulation reduced cell proliferation and viability, induced apoptosis, impaired the migration and the epithelial-to-mesenchymal program in GC cells. Only CB2 activation reduced the stemness properties of GC cells. Interestingly, while the anti-angiogenic properties of CB1 and CB2 required SPM production, their other anti-tumour actions were independent of the pro-resolving pathway.

Our results extend the current knowledge of the endocannabinoid system by defining a new dual mechanism, SPM-dependent and SPM-independent, that restrains GC progression and identify the ECS-SPM axis as a potential target for therapeutic intervention.”

https://pubmed.ncbi.nlm.nih.gov/41775095

“CB1 and CB2 activation sustain potent anti-tumour effects in gastric cancer (GC).”

“In conclusion, this work demonstrates that cannabinoid receptor activation restrains gastric cancer cell proliferation, migration, stemness, and angiogenesis through both SPM-dependent and SPM-independent mechanisms. By linking ECS activation to pro-resolving lipid metabolism via SRC-ERK signalling, our data position CB1 and CB2 as regulators of tumour control rather than progression. These findings open the way for preclinical in vivo studies aimed at exploiting cannabinoid-SPM crosstalk as a novel therapeutic axis in gastric cancer.”

https://www.sciencedirect.com/science/article/pii/S0753332226002192?via%3Dihub

Comprehensive two-dimensional liquid chromatographic analysis of Cannabis phenolics and first evidence of flavoalkaloids in Cannabis

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“Cannabis contains a large number of diverse metabolites. Compared to the well-studied cannabinoids and terpenoids, characterization of the phenolic composition of Cannabis has received little attention. With studies reporting synergistic effects in Cannabis, the importance of investigating polyphenols in Cannabis is becoming more apparent.

We report an on-line comprehensive 2D HILIC × RP-LC method hyphenated to high resolution (HR) MS for the detailed characterization of polar phenolics in Cannabis inflorescence and leaf samples of three commercial strains. Optimal HILIC × RP-LC conditions were derived using an automated method optimization program, and provided excellent separation performance (peak capacity > 3000) and high orthogonality. Diode array and HR-MS data enabled tentative identification of 79 compounds, comprising mainly flavone and (hydroxy)cinnamic acid derivatives. Compound assignment was facilitated by the group-type separation obtained between the phenolic acids and flavonoids, as well as the structured elution patterns for the flavone glycosides.

The presence of three C-glycosylated flavones, as well as several of their O-glycosylated derivatives, distinguished one of the strains from the other two. In the same strain, flavoalkaloids were detected, mainly in the leaf extracts.

The structures of the alkaloid moieties could not be unambiguously assigned based on the available HR-MS data, but four classes of flavoalkaloids comprising 16 flavone derivates could be tentatively identified.

This is the first time that this relatively rare and chemically interesting class of compounds has been detected in Cannabis.

These findings highlight the diversity of Cannabis, and the utility of HILIC × RP-LC-HR-MS for the in-depth study of its phenolic composition.”

https://pubmed.ncbi.nlm.nih.gov/40359741

Cannabis is a herbaceous plant of the Cannabaceae family originating from Western Asia, that has been cultivated across the world for many purposes ranging from textile to medicinal uses for more than six millennia “

https://www.sciencedirect.com/science/article/pii/S0021967325003711?via%3Dihub

“Don’t toss cannabis leaves: Scientists found rare compounds with medical potential. Cannabis just revealed a hidden chemical treasure—rare compounds scientists never knew were there.” https://www.sciencedaily.com/releases/2026/05/260501002156.htm

Antiproliferative Effects of Cannabinoids and Cisplatin in Cervical Cancer Cells

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Introduction: Cervical cancer remains a leading cause of cancer-related mortality among women globally, particularly in low- and middle-income countries. Cisplatin, a standard chemotherapeutic agent, is limited by severe toxicities and chemoresistance. This study aimed to assess the effects of cisplatin in combination with phytocannabinoids, Δ9-tetrahydrocannabinol (THC) and cannabidiol (CBD) on cell proliferation, morphology, cell cycle progression, cell death, and DNA damage.

Methods: Synergistic interactions between THC, CBD, and cisplatin were assessed in HeLa, SiHa, and MCF-12A cells using the checkerboard assay and SRB assay. Cell morphology, cell cycle progression, apoptosis induction, autophagic activity, and DNA repair gene expression were evaluated using various techniques.

Results: The THC-CBD-cisplatin combination exhibited the strongest apoptotic response in cancer cells (HeLa 53%, SiHa 58%), while minimally affecting MCF-12A cells (32%). Cannabinoid co-treatment amplified the antiproliferative and pro-apoptotic effects of cisplatin in HeLa and SiHa cells. The triple combination induced a G2/M arrest in HeLa cells and sub-G1 accumulation in SiHa cells. Autophagic activity, indicated by LC3B puncta formation, increased in HeLa and SiHa cells following THC and CBD exposure. DNA repair genes XRCC1 and RAD51 were downregulated by the cannabinoid-cisplatin combination.

Conclusion: These findings demonstrate that combining THC and CBD with cisplatin results in enhanced and mechanistically diverse anticancer effects, with a higher degree of selectivity for cervical cancer cells compared to non-cancerous MCF-12A cells by inducing apoptosis and autophagy while inhibiting DNA repair capacity. This study highlights the potential of cannabinoid-based combination therapies as a promising approach for cervical cancer treatment.”

https://pubmed.ncbi.nlm.nih.gov/42055476

“Cannabinoids, a diverse group of bioactive compounds from the cannabis plant, have been shown to inhibit cancer cell proliferation through mechanisms such as inducing apoptosis, arresting the cell cycle, and inhibiting angiogenesis.”

“This study demonstrates that the combination of cannabinoids, specifically THC and CBD, with cisplatin results in enhanced, selective, and mechanistically diverse anticancer effects in cervical cancer cells. The combined treatment induces apoptosis and autophagy while inhibiting DNA repair capacity, leading to significant cytotoxicity against cancer cells and minimizing damage to normal cells. These findings underscore the potential of cannabinoid-based combination therapies as a promising and safer approach for cervical cancer treatment.”

https://onlinelibrary.wiley.com/doi/10.1002/cnr2.70561

Immunohistochemical analysis and distribution of lymphocytes and Kupffer cells in the liver of rats with long-term experimental use of hemp seed oil

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Objective: Aim: To conduct histological and immunohistochemical analysis and distribution of lymphocytes and Kupffer cells in the liver of rats with long-term experimental use of hemp seed oil (HSO).

Patients and methods: Materials and Methods: 26 sexually mature male rats (180-230 g, 5-7 months old) were divided into three groups: experimental (n=14, 0.5 ml/kg/day HSO orally for 10 weeks), control (n=6, 0.1 ml/kg/day HSO orally for 10 weeks), and intact (n=6). Histological and immunohistochemical (CD3, CD20, CD56, CD68) studies, alongside quantitative analysis of lymphocyte and macrophage distribution in hepatic lobules, were performed. Statistical significance was assessed using Mann-Whitney and Pearson tests, with p<0.05 considered significant.

Results: Results: After 10 weeks of 0.5 ml/kg/day HSO, 71.43% of experimental rats developed mild fatty liver disease (Kleiner grade S1 steatosis), a significant difference from the control group (p<0.0001). No histological inflammation or necrotic changes in hepatocytes were observed. Small numbers of CD3 lymphocytes were present in portal tracts, without extending into or damaging the adjacent parenchyma. CD20 and NK resident lymphocytes were sparse. Aggregates of CD68-positive Kupffer cells were most common near liver lobule triads. The average number of Kupffer cells (5.79±0.06 per 0.01 mm2) in the experimental group significantly (p<0.001) exceeded the control by 1.49 times, suggesting hyperplasia of specialized macrophages and their increased role in liver immune function.

Conclusion: Conclusions: Ten weeks of experimental use indicates that hemp seed oil is safe to consume at a dose of 0.5 ml/kg/day.”

https://pubmed.ncbi.nlm.nih.gov/42048501

Evaluation of Dronabinol to Decrease Opioid Use for Cancer-Induced Bone Pain

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Background: Bone metastases (BM) from breast cancer cause significant cancer-induced bone pain (CIBP). Management of CIBP is primarily with opioids, which have notable side effects. In preclinical models, cannabinoid receptor (CB)2 and CB1 agonists were shown to decrease CIBP and bone degradation. We hypothesized that the addition of CB2/CB1 agonists would decrease opioid requirements in patients with BM.

Methods: We conducted a single-arm study among breast cancer patients with BM on opioid therapy. Patients were treated with 10 mg dronabinol BID for 8 weeks. Our primary objective was to determine the proportion who decreased their opioid use by ≥ 20%. Participants completed the Brief Pain Inventory and the European Organization for Research and Treatment of Cancer quality of life questionnaires before and after treatment. Pre- and post-treatment blood and urine were collected for analysis of biomarkers of bone remodeling.

Results: We enrolled 14 evaluable patients, and 4 decreased opioid use by ≥ 20%, meeting the primary endpoint. Patients reported significant improvements in pain severity, interference scores, quality of life, and insomnia. There was one grade 3 adverse event (dizziness) related to the study drug. A significant decrease was noted in serum C-terminal telopeptide levels with therapy.

Conclusion: Our pilot study shows that the addition of dronabinol resulted in decreased opioid requirements for CIBP. Patient-reported outcomes also demonstrated improved pain and QOL with addition of dronabinol. Our results are promising and warrant further investigation into novel analgesics for CIBP to decrease opioid use.”

https://pubmed.ncbi.nlm.nih.gov/42050177

https://academic.oup.com/oncolo/advance-article/doi/10.1093/oncolo/oyag163/8664403

Dronabinol, sold under the brand names Marinol and Syndros, is the generic name for the molecule of (−)-trans-Δ9-tetrahydrocannabinol (THC) in the pharmaceutical context. It has indications as an appetite stimulant and antiemetic and is approved by the US Food and Drug Administration (FDA) as safe and effective for HIV/AIDS-induced anorexia and chemotherapy-induced nausea and vomiting.”

Cannabidiol modulates spontaneous recovery through distinct and conserved transcriptomic signatures in mPFC subregions

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“Cannabidiol (CBD) has shown therapeutic potential for post-traumatic stress disorder (PTSD) by reducing spontaneous recovery (SR), yet the underlying mechanisms remain unclear.

We examined the effects of CBD on SR in male and female mice and found greater behavioral efficacy in males. To uncover the molecular basis of these effects, we performed transcriptomic profiling of the prelimbic (PL) and infralimbic (IL) subregions of the medial prefrontal cortex (mPFC).

We identified distinct and overlapping SR-associated gene sets in each subregion, and CBD shifted the expression of a significant subset of these genes toward non-stressed control levels, including genes involved in retrograde endocannabinoid signaling. Cross-species comparisons with human PTSD transcriptomic datasets revealed conserved gene alterations within each subregion, suggesting shared molecular signatures between mouse SR and human PTSD.

These findings highlight region-specific and conserved pathways through which CBD may exert therapeutic effects and provide mechanistic insight to advance CBD-based interventions for PTSD-associated spontaneous recovery.”

https://pubmed.ncbi.nlm.nih.gov/42050066

https://www.nature.com/articles/s42003-026-10111-4

Cannabidiol potentiates olaparib-induced cytotoxicity through cell cycle arrest and DNA damage modulation in breast cancer cells

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“Triple-negative breast cancer (TNBC) remains a major clinical challenge due to its aggressive nature and limited treatment options, while therapeutic resistance in estrogen receptor-positive (ER+) breast cancer continues to limit treatment efficacy.

Although olaparib is primarily effective in BRCA-mutated cancers, its activity in BRCA-wild type (BRCA-wt) tumors is limited. Therefore, this study aimed to investigate whether cannabidiol (CBD) can enhance the response of BRCA-wt breast cancer cells to PARP inhibition.

The effects of olaparib (OLAP) and CBD, alone and in combination, were evaluated in MDA-MB-231 (TNBC) and MCF-7 (ER+) cell lines using comprehensive two-dimensional (2D) mechanistic analyses and three-dimensional (3D) spheroid models, including HCC-70 cells to extend TNBC validation.

The results demonstrate that combined OLAP and CBD treatment enhanced cytotoxic effects compared to single treatments, with more pronounced responses observed in 3D spheroid models, particularly in TNBC models. Flow cytometry and caspase 3/7 assays indicated increased apoptosis and G2​/M phase arrest following combination treatment. Gene expression analysis revealed downregulation of key DNA damage response and cell cycle-related genes (ATM, ATR, BRCA1/2, RAD51, and CDK1/2/4/6), supporting a role for cell cycle arrest and DNA damage modulation in mediating these effects. Functional assays showed reduced colony formation and migratory capacity, although these effects may reflect both cytotoxic and cytostatic responses under the selected experimental conditions.

Overall, these findings suggest that CBD may enhance the efficacy of olaparib in BRCA-wt breast cancer models and highlight its potential as a combinational therapeutic strategy in breast cancer treatment.”

“Cannabinoids have been reported to enhance the effects of conventional cancer treatments, including chemotherapy and radiotherapy, thereby improving therapeutic efficacy while potentially reducing treatment-related toxicity.”

“CBD, in particular, has shown promising antitumor activity in triple-negative breast cancer (TNBC) by inducing apoptosis, autophagy, and oxidative stress through modulation of signaling pathways such as AKT/mTOR.”

https://link.springer.com/article/10.1007/s11010-026-05550-w

Decoding the antihypertensive mechanism of cannabidiol through integrative bioinformatics and machine learning

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“Hypertension (HTN) results from intricate molecular mechanisms, making clinical remission difficult to achieve. This study explores the molecular pathways through which cannabidiol (CBD) may influence HTN.

Methods

Several RNA sequencing datasets related to HTN were retrieved from the GEO database and divided into training and validation sets. Candidate genes potentially associated with HTN were screened through differential expression analysis and weighted gene co-expression network analysis. The interactions and binding potential between CBD and key target proteins were then systematically investigated using bioinformatics, machine learning, immune cell infiltration analysis, and molecular dynamics simulation.

Result

Seventy genes were identified as potential targets for CBD intervention in HTN. Machine learning analysis refined this list to five core genes: pyruvate kinase PKM (PKM), thyroid hormone receptor beta (THRB), aldo–keto reductase family 1 member B1 (AKR1B1), TGF-beta receptor type-1 (TGFBR1), and proto-oncogene tyrosine-protein kinase Src (SRC). Among these, PKM, THRB, AKR1B1, and SRC were significantly upregulated in HTN, while TGFBR1 was downregulated (P < 0.05). These genes formed a regulatory network, showing direct or indirect interactions, and were associated with infiltration levels of neutrophils and resting mast cells. Molecular dynamics simulation revealed that CBD exhibits strong binding specificity to these target proteins.

Conclusion

This integrated analysis prioritized PKM, THRB, AKR1B1, TGFBR1, and SRC as candidate genes potentially associated with HTN progression. Molecular dynamics simulation suggested a favorable binding potential between CBD and these targets. These findings may provide supportive evidence for future studies exploring the potential mechanisms by which CBD may act in HTN.”