Author: Liotti, Federica ; Melillo, Rosa Marina ; Esposito, Daniela ; De Simone, Chiara ; Marotta, Maria ; Ligresti, Alessia ; Costanzo, Mattia ; Zirpoli, Sara ; Mollica, Maria Pina ; Prevete, Nella ; Kumar, Poulami

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.

01 Dec 2025·BIOCHEMICAL PHARMACOLOGY

Cannabidiol biases A2A-CB2 receptor heteromer function by decoupling β-arrestin signaling from complex formation

Article

Author: Navarro, Gemma ; Rivas-Santisteban, Rafael ; Franco, Rafael ; Griñán-Ferré, Christian ; de Medina, Verónica Sánchez ; Pallàs, Mercè ; Ferreiro-Vera, Carlos

Cannabidiol (CBD), a phytocannabinoid with pleiotropic effects, exhibits complex mechanisms of action that remain incompletely understood, particularly its role as an allosteric modulator of G protein-coupled receptor (GPCR) heteromers. Among these, the adenosine A_2A-cannabinoid CB₂ receptor heteromer (A_2AR-CB₂R) is a functionally relevant complex implicated in diverse physiological processes. This study aimed to characterize the modulatory effects of CBD on A_2AR-CB₂R heteromers. A multi-technique approach was employed using HEK-293T cells co-transfected with A_2AR and CB₂R. Real-time NanoBRET assays at 37 °C were used to assess receptor interaction kinetics. Functional consequences were evaluated via β-arrestin II recruitment assays, and complex formation was visualized and quantified using proximity ligation assays (PLA). CBD acted as a potent allosteric modulator, enhancing the kinetics of agonist-induced A_2AR-CB₂R interaction. Notably, this effect was accompanied by functional dissociation: CBD inhibited β-arrestin II recruitment in a probe-dependent manner, with significant modulatory effects at concentrations of 100 nM, and showed a greater inhibition of the selective CB₂R agonist JWH-133-induced signaling than that induced by CGS 21680, a selective A_2AR agonist. PLA data confirmed that this functional modulation occurred without altering the extent of heteromer complex formation. These findings reveal that CBD operates as a biased allosteric modulator of the A_2AR-CB₂R heteromer. Rather than disrupting heteromer formation, CBD selectively induces a conformational state that uncouples physical receptor interaction from β-arrestin II signaling. This defines a distinct mechanism of action for CBD and highlights A_2AR-CB₂R heteromers as promising targets for biased signaling-based therapeutics.

01 Sep 2025·Neurotherapeutics

Neuroprotective effects of G9a inhibition and cannabinoid receptor activation in Alzheimer's disease through a pharmacological approach

Article

Author: Ribalta-Vilella, Marta ; Franco, Rafael ; Lillo, Jaume ; Pallàs, Mercè ; Griñán-Ferré, Christian ; Bellver-Sanchis, Aina ; Ortuño-Sahagún, Daniel ; Navarro, Gemma

Epigenetic alterations are key contributors to Alzheimer's disease (AD), driving age-related cognitive decline. This study explores the combined neuroprotective effects of G9a histone methyltransferase inhibition (via UNC0642) and cannabinoid receptor activation (CB1R: ACEA; CB2R: JWH133) in AD models. We used HEK-293T cells and hippocampal neurons to demonstrate that G9a inhibition selectively enhances CB1R-mediated ERK/cAMP signaling. In SAMP8 mice (sporadic AD model), we evaluated the effects of pharmacological inhibition of G9a (UNC0642), combined with CB₁R agonism (ACEA) and/or CB₂R agonism (JWH133), on cognitive recovery, neuronal morphology, and neuroinflammation. Our results demonstrated that SAMP8 mice treated with UNC0642 and ACEA exhibited significant recovery in short-term memory, as assessed by the Novel Object Recognition Test (NORT), and complete recovery of spatial memory in the Object Location Test (OLT). These improvements were accompanied by enhanced neuronal morphology (increased dendritic length and density) and reduced neuroinflammation markers, suggesting a synergistic effect of G9a inhibition and CB₁R activation. Importantly, JWH133 treatment, both alone and in combination with UNC0642, resulted in a pronounced reduction of neuroinflammatory markers (Trem2, Cd33, iNOS) and a significant restoration of dendritic spine density and branching length, with the dual treatment showing the most robust effects. JWH133 alone produced moderate cognitive improvement, but its combination with G9a inhibition led to outcomes comparable to those of control animals. Thus, the results underscore G9a inhibition's potential to amplify cannabinoid receptor-mediated neuroprotection while mitigating psychoactive risks, offering a promising multi-target approach for neurodegenerative diseases.

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Indication	Highest Phase	Country/Location	Organization	Date
Graft Rejection	Discovery	United States	Clemson University	-

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