Author Archives: David Worrell

Elucidating the putative role of cannabigerol: a hypothesis-generating review of neuroinflammatory and neuroprotective mechanisms with implications for drug-resistant epilepsy

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“Drug-resistant epilepsy (DRE) affects approximately 30% of individuals with epilepsy and remains a major clinical challenge despite the availability of multiple antiseizure medications (ASMs). Beyond recurrent seizures, accumulating evidence implicates chronic neuroinflammation, blood-brain barrier (BBB) dysfunction, excitotoxic injury, and progressive neurodegeneration as processes associated with epileptogenesis and disease progression.

While cannabidiol (CBD) has demonstrated clinical efficacy in specific DRE syndromes, increasing recognition of these mechanisms has motivated interest in exploratory, mechanism-oriented approaches that extend beyond direct seizure suppression.

Cannabigerol (CBG) is a non-psychoactive phytocannabinoid with a pleiotropic pharmacological profile, interacting with cannabinoid receptors, transient receptor potential (TRP) channels, nuclear receptors such as peroxisome proliferator-activated receptor gamma (PPARγ), and additional neuromodulatory targets.

Preclinical studies indicate that CBG can modulate inflammatory, oxidative, and cell-survival pathways across diverse experimental models of neuroinflammatory and neurodegenerative injury. Importantly, most available evidence derives from non-epilepsy paradigms or in vitro systems, and direct support for antiseizure efficacy or disease modification in epilepsy remains limited.

This review synthesizes current preclinical evidence on the molecular targets and mechanistic actions of CBG, with particular emphasis on neuroimmune modulation and neuronal vulnerability, while critically addressing the limitations and translational gaps of the existing literature. Rather than providing confirmatory evidence, this work is intended as a hypothesis-generating framework to inform future epilepsy-focused studies evaluating whether modulation of neuroinflammatory and neurodegenerative pathways by CBG may hold relevance within disease-modifying research strategies for DRE.”

https://pubmed.ncbi.nlm.nih.gov/41919226

“Recent preclinical research has highlighted CBG as a multi-target phytocannabinoid capable of modulating neuroinflammatory, oxidative, and cell-survival pathways across diverse experimental systems.”

https://www.frontiersin.org/journals/pharmacology/articles/10.3389/fphar.2026.1755956/full

Cannabidiol and pBDNF Cotreatment Attenuates Pathological Symptoms and Improves Cognition in 3 month-Old 5XFAD Mice

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“The marginal efficiency observed with the existing therapies in Alzheimer’s Disease (AD) can be attributed to the timing of the treatment. The beneficiaries of symptomatic or disease-modifying therapy for AD are mild-cognitive-impairment (MCI) or late-stage dementia patients. At this stage, the pathological features are already advanced and irreversible, as the shift in biomarker levels starts in a continuum 15-20 years prior. Early intervention, therefore, is a plausible solution to this issue. Consequently, we selected 3 month-old 5XFAD AD mice as an early intervention model.

We administered cannabidiol (CBD) and plasmid brain-derived neurotrophic factor (BDNF) encapsulated in liposome nanoparticles, functionalized with penetratin and mannose for brain-targeting, as a therapy.

Neuroinflammation is emerging as a key driver of AD progression by its interaction with amyloid plaques and phosphorylated tau. Therefore, CBD, which is anti-inflammatory and neuroprotective, was used.

BDNF, a synaptic modulation and cognitive maintenance agent, is declined and, thus, aggravates pathology and cognition in AD. BDNF expressed from the liposome nanoparticles supplements the reduced BDNF and aids in ameliorating AD pathology.

We found four weekly doses of our formulation reduced the amyloid burden by 3.04-fold (p-value < 0.0001), declined pro-inflammatory cytokines TNF-α by 2.51-fold (p-value < 0.0001), IL-1β by 2.34-fold (p-value < 0.0001) and microglial activation by 2.15-fold (p-value < 0.0001) than saline controls. In addition, it increased the synaptic markers level and promoted adult hippocampal neurogenesis, eventually improving cognitive functions.

These findings suggest the use of CBD and pBDNF has a potential therapeutic combination for AD management if intervened early.”

https://pubmed.ncbi.nlm.nih.gov/41924980

https://pubs.acs.org/doi/10.1021/acschemneuro.5c01009

Cannabidiol as a Modulator of the Gut-Liver Axis: Clinical and Pharmacological Insights into Hepatic and Metabolic Disorder Therapies

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“A non-intoxicating substance produced from Cannabis sativa, cannabidiol (CBD) has shown promise as a treatment for metabolic and hepatic diseases, primarily due to its capacity to alter the gut-liver axis.

A vital bidirectional communication pathway, the gut-liver axis is where substances produced from the liver affect gut homeostasis and gut-derived microbial products and metabolites influence liver health. Conditions including alcoholic liver disease (ALD), metabolic syndrome, and non-alcoholic fatty liver disease (NAFLD) are mostly caused by dysregulation of this axis.

According to preclinical research, CBD has hepatopro-tective benefits via improving the integrity of the gut barrier, decreasing intestinal permea-bility, altering the gut microbiota, and suppressing inflammatory signaling pathways such NF-κB and NLRP3 inflammasome activation. Furthermore, CBD improves insulin sensitivi-ty and lowers hepatic steatosis via modifying lipid and glucose metabolism via the PPARγ and CB1/CB2 receptor pathways. Its antioxidant qualities also help to lessen cellular dam-age and oxidative stress in hepatic tissues.

Despite these encouraging results, there is still inconsistency in the clinical data because of variations in dosage, formulation, administra-tion method, and patient-specific variables including liver function and microbiota makeup. Furthermore, broad therapeutic usage is restricted by issues with hepatic metabolism, pos-sible drug-drug interactions, and regulatory obstacles.

This review highlights information gaps, critically assesses the available preclinical and clinical evidence, and investigates the mechanisms underlying CBD’s impact on the gut-liver axis. Additionally, it identifies po-tential avenues for future optimization of CBD-based therapies targeting liver and metabol-ic illnesses through personalized medicine, sophisticated delivery methods, and standard-ized clinical trial procedures.”

https://pubmed.ncbi.nlm.nih.gov/41935387

https://www.eurekaselect.com/article/154488


Safety and Tolerability of Low-Dose Full-Spectrum Cannabidiol in Long-Term Virally Suppressed Adults with HIV: A Randomized Double-Blind Placebo-Controlled Trial

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Introduction: People with long-term virologically suppressed HIV (PWH) experience chronic inflammation. Beneficial effects such as lower levels of inflammation were reported for cannabis-based medicine, but data on the safety of standardized low-dose full-spectrum cannabidiol (CBD) are limited.

Methods: This double-blind randomized placebo-controlled trial (NCT05306249) included 80 ART-treated PWH with undetectable viremia (median time on efficient ART 14 years, median age 54 years), encompassing 30% women. Participants received 1 mg/kg CBD oil twice daily (full-spectrum, tetrahydrocannabinol < 0.3%) or placebo for 12 weeks plus a 4-week follow-up. Primary trial end-point (autophagy gene expression) will be described elsewhere; here we evaluate the treatment impact on prespecified safety outcomes such as hemodynamic with electrocardiograms, HIV immunovirological parameters, and comprehensive assessments of liver and kidney functions, performed using standard blood tests. Mixed-effects models adjusted for baseline age, sex, body mass index, CD4 count and duration of viral suppression assessed longitudinal changes.

Results: Of 80 randomized participants, 35 PWH in CBD and 37 in placebo groups completed week 12. No clinically meaningful differences emerged in creatinine, aminotransferases (alanine aminotransferase, aspartate aminotransferase), or conjugated bilirubin. Total bilirubin decreased in the CBD arm vs placebo (mixed effect model considering time, group and time*group, adjusted for covariates, p = 0.046). In exploratory sex-stratified analysis, a significant difference starting at week 12 (-8.0 bpm [95% CI: -15.6; -0.4], p = 0.0425) and persisting at week 16 (-7.9 bpm [95% CI: -14.6; -1.3], p = 0.0191) evidences a lower heart rate in men belonging to the CBD group compared with the placebo group; no change in females. There was no change in plasma viral load, cell-associated HIV-DNA levels, and CD4/CD8 ratio.

Discussion: Low-dose full-spectrum GMP-certified CBD was well tolerated over 12 weeks in virally suppressed people with HIV. Observed reductions in total bilirubin and male heart rate are exploratory and warrant confirmation in adequately powered trials incorporating inflammatory biomarkers and pharmacokinetics.”

https://pubmed.ncbi.nlm.nih.gov/41934259

https://journals.sagepub.com/doi/10.1177/25785125261439014

Radical Revelations: The Interplay of Nitrosative Stress, the Endocannabinoid System, and Treatment of Age-Related Disorders

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“The crosstalk between the endocannabinoid system (ECS) and reactive nitrogen species (RNS) has emerged as an important area of investigation in recent years.

Although many aspects of this interaction remain elusive, accumulating evidence demonstrates that the ECS plays a critical role in regulating RNS-mediated signaling under physiological conditions. This modulation can be either inhibitory or stimulatory, depending on the specific receptor subtype, cell type, and tissue location involved.

While ECS-RNS interactions support normal cellular homeostasis, their dysregulation contributes to various disease states, particularly neurodegenerative disorders. Studies in both rodent models and human subjects show that ECS modulation can reduce anxiety, attenuate neuroinflammatory responses, and slow disease progression in neurodegenerative conditions.

This review examines how cannabinoid-based interventions modulate nitrosative stress and neuroinflammation in Alzheimer’s disease (AD) and Parkinson’s disease (PD), highlighting their potential as targeted therapeutics that address multiple pathological mechanisms simultaneously and may offer advantages over conventional treatment approaches.”

https://pubmed.ncbi.nlm.nih.gov/41898672

“cannabinoid treatment offers a promising alternative to conventional treatments by addressing symptomology and the underlying molecular mechanisms of these diseases. Cannabinoid treatment uniquely addresses AD and PD pathology via crosstalk between the RNS and ECS, which provides hope for disease modification as an alternative to/supplement to conventional treatments.”

https://www.mdpi.com/1422-0067/27/6/2813


Synergistic Anticancer Activity of Cannabinoids and Terpenes Against Triple-Negative Breast Cancer Resistance

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“Triple-negative breast cancer (TNBC) remains highly aggressive and refractory to conventional treatments, underscoring the need for novel combination strategies.

Here, we employed 2D and 3D in vitro models, transcriptomic profiling, and in vivo xenograft studies to evaluate the anticancer efficacy of cannabinoids combined with the terpene β-caryophyllene (BC) in resistant TNBC models.

Among the tested cannabinoids, cannabichromene (CBC) exhibited the greatest potency, and its combination with BC at sub-toxic concentrations significantly reduced IC50 values, enhanced cytotoxicity in spheroids, and suppressed colony formation and migration. The combination treatment induced pronounced G1 cell cycle arrest and increased apoptotic cell death. Western blot analyses revealed downregulation of PARP, Survivin, mTOR, Vimentin, Glypican-5, and PD-L1, while RNA sequencing demonstrated suppression of proliferative and migratory signaling pathways alongside activation of apoptosis, autophagy, and ferroptosis-related pathways. In vivo, CBC + BC significantly inhibited tumor growth in MDA-MB-231 xenografts, outperforming single-agent treatments.

Collectively, these findings demonstrate that BC synergistically enhances cannabinoid activity, yielding superior antiproliferative and anti-migratory effects, and highlight this combination as a promising therapeutic strategy for resistant TNBC.”

https://pubmed.ncbi.nlm.nih.gov/41898593

“Our findings indicate that BC significantly enhances the anticancer effects of cannabinoids, particularly in resistant TNBC cells.”

https://www.mdpi.com/1422-0067/27/6/2730

The Therapeutic Crossroad Between Mitochondria and Cannabidiol: A Mini-Review

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“Cannabidiol is a non-psychoactive compound originating from Cannabis sativa L., with a promising therapeutic profile that influences numerous cellular processes. A major area of interest is its impact on mitochondria, organelles essential for cellular metabolism, ATP production, calcium homeostasis, and stress response.

This article explores the available data on contribution of CBD effect on mitochondria to its therapeutic potential in treatment of various pathologies: cancer, cardiovascular, lung, neurological, gastrointestinal and liver disease, and muscle pathologies.

Regarding cancer, the cytotoxic effects of cannabidiol on glioma, leukaemia, non-Hodgkin lymphoma, prostate, gastric, and breast cancer are analysed. In the case of cardiomyopathies and heart failure, cannabidiol plays an important role in reducing oxidative stress and promoting mitochondrial biogenesis. In lung diseases, cannabidiol reduces the expression of mitochondrial fission genes and increases the expression of fusion genes.

When it comes to neurological pathologies, cannabidiol protects neurons and exhibits a strong antioxidant effect, while in gastrointestinal and liver diseases, cannabidiol stabilises mitochondrial membrane potential, increases ATP production, and reduces oxidative stress. In muscle affections, cannabidiol improves mitochondrial function by inhibiting excessive mitophagy. Although modern formulations may improve the low bioavailability of CBD, its potential non-selective cytotoxicity toward non-malignant cells remains an important concern that warrants further investigation.

Nevertheless, cannabidiol possesses a remarkable therapeutic potential, and its effects on mitochondria open new perspectives in the treatment of numerous diseases.”

https://pubmed.ncbi.nlm.nih.gov/41892270

“In conclusion, CBD represents a molecule with remarkable therapeutic potential, and its targeting to mitochondria opens new perspectives in the treatment of chronic and degenerative diseases.”

https://www.mdpi.com/2079-7737/15/6/510

Efficacy of Cannabidiol in Reducing Virulence of Listeria monocytogenes

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Listeria monocytogenes (LM) is a major foodborne pathogen causing illnesses ranging from gastroenteritis to severe systemic infections. The key virulence factors include bacterial motility, hemolysin and lecithinase production, and invasion of host tissues.

This study investigated the anti-virulence effects of cannabidiol (CBD), the main non-psychoactive compound in Cannabis sativa, against LM.

The minimum inhibitory concentration (MIC, 2289 μM; 719.8 µg/mL) and sub-inhibitory concentration (SIC, 11.92 μM; 3.75 µg/mL) of CBD were determined for LM strains Scott A and ATCC 19115. Cultures were treated with SIC, 6× SIC, 1/4× MIC, and MIC to assess effects on motility, hemolysin and lecithinase production, and adhesion and invasion of human intestinal (Caco-2) and brain endothelial (HBMEC) cells, alongside virulence gene expression by RT-qPCR. Cannabidiol’s efficacy was also determined using a Galleria mellonella larval infection model at SIC and 6× SIC.

Cannabidiol at 6× SIC significantly reduced motility, toxin production, and host cell adhesion and invasion (p < 0.05). RT-qPCR revealed downregulation of key virulence genes, including prfAhlyplcAplcBiapmotAmotBactAinlA, and inlB. In vivo, CBD enhanced larval survival in a dose-dependent manner and cytotoxicity was observed at concentrations above 33.75 µg/mL.

These results indicate that CBD, at non-bactericidal levels, effectively suppresses multiple virulence mechanisms in LM, highlighting its potential as a novel anti-virulence agent for food safety and therapeutic applications.”

https://pubmed.ncbi.nlm.nih.gov/41898547

“Cannabidiol has been reported to exert antibacterial activity through multiple, primarily membrane-associated mechanisms.”

“Collectively, these findings suggest that CBD holds promise as a prophylactic or therapeutic agent, or as an adjunct to conventional antibiotics, in mitigating listeriosis.”

https://www.mdpi.com/1422-0067/27/6/2682

The Diminished Availability of 2-AG in Aged Synaptic Terminals is Ameliorated by a Full-Spectrum Cannabis Extract with a High THC Content

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“We have previously demonstrated that the endocannabinoid system is dysregulated in the synaptic terminals of the cerebral cortex in aged rats. Specifically, the availability of the neuroprotective endocannabinoid 2-arachidonoylglycerol (2-AG) is reduced due to impairments in the enzymes involved in its metabolism, a deficit only partially compensated by the binding of cannabinoid receptor ligands.

Given that ∆9-tetrahydrocannabinol (THC) acts as a ligand for cannabinoid receptors (CBR), we designed the present study to investigate the effects of a full-spectrum cannabis extract with a high THC content, the THC-free fraction of this cannabis extract, and pure THC on the previously mentioned aging model. Thus, 2-AG metabolic enzymes were assayed incubating synaptosomes from aged and adult rat cerebral cortex, with ethanolic cannabis extract, the THC-free fraction of this cannabis extract or pure THC, and the corresponding radiolabeled substrates.

Our key findings indicate that the age-related decline in 2-AG bioavailability: (a) is exacerbated in the presence of either the THC-free fraction from the cannabis extract or pure THC, primarily due to a significant decrease in 2-AG synthesis; and (b) is partially mitigated by the inhibition of 2-AG hydrolysis when the extract contains THC.

These results provide compelling evidence for the regulation of 2-AG metabolism by a full-spectrum cannabis extract with high THC content, supporting the theory of the entourage effect among cannabis phytochemicals.

This highlights the potential of high THC content extracts as therapeutic agents for restoring the decreased 2-AG levels observed in the aging brain.”

https://pubmed.ncbi.nlm.nih.gov/41880097

https://link.springer.com/article/10.1007/s11064-026-04739-1

Cannabis oil modulates liver alterations and endocannabinoid system changes in a female rat model of diet-induced MASLD

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“Introduction: Metabolic dysfunction-associated steatotic liver disease (MASLD) is closely linked to alterations in liver lipid metabolism, oxidative stress, fibrosis, and dysregulation of the endocannabinoid system (ECS). Although increasing evidence supports a role for cannabinoids in metabolic disorders, most preclinical studies have been conducted in male models, leaving female-specific responses largely unexplored.

Methods: This study evaluated the effects of oral administration of a full-spectrum cannabis oil (CBD:THC 2:1) on MASLD-related alterations and ECS regulation in female Wistar rats fed a sucrose-rich diet (SRD). Rats were assigned to reference diet (RD), SRD, or SRD plus cannabis oil (1 mg/kg/day) for 3 weeks.

Results: SRD-fed rats developed liver steatosis and increased NAFLD activity score (NAS), accompanied by enhanced de novo lipogenesis, reduced mitochondrial fatty acid oxidation, increased oxidative stress, early fibrotic changes, and ECS overactivation. Cannabis oil administration improved liver lipid metabolism, reduced NAS and fibrosis markers, attenuated lipid peroxidation and oxidative stress, increased NrF2 and decreased NF-κB p65 expression, and normalized hepatic CB1 expression and circulating endocannabinoid levels.

Discussion: These findings demonstrate that full-spectrum cannabis oil is associated with improved MASLD-related outcomes and modulation of ECS tone in a female-specific model of diet-induced metabolic liver disease.”

https://pubmed.ncbi.nlm.nih.gov/41883411

“For millions of years, medicinal plants have been employed in the treatment and handling of liver diseases”

 “Our results indicate that cannabis oil with this particular CBD:THC ratio may serve as a natural nutraceutical to help prevent metabolic disorders linked to hepatic steatosis, oxidative stress, liver fibrosis, and MASLD.”

https://www.frontiersin.org/journals/nutrition/articles/10.3389/fnut.2026.1770150/full