Search Results (208)

Obesity resulting from melanocortin-4 receptor (MC4R) dysfunction is characterized by combined metabolic dysregulation and maladaptive reward-related behaviors that limit the durability of existing therapies. The endocannabinoid system is a central regulator of appetite, lipid metabolism, and reward processing; however, first-generation cannabinoid receptor 1 (CB1) antagonists were limited by adverse neuropsychiatric effects. SKNY-1 is an orally active tetrahydrocannabivarin (THCV) analog designed to engage pathway-biased CB1 signaling, modulate cannabinoid receptor 2 (CB2), and selectively inhibit monoamine oxidase B (MAO-B), with the objective of addressing both metabolic and behavioral components of obesity while minimizing central nervous system liability through biased CB1 signaling, CB2 modulation, and potential complementary MAO-B inhibition. Here, we integrated in vitro pharmacological profiling of SKNY-1 with in vivo evaluation in an adult mc4r(G894C) zebrafish model exhibiting obesity-associated metabolic and reward-related phenotypes. In vitro, SKNY-1 displayed low-potency modulation of CB1 cyclic AMP signaling (EC₅₀ ~30 µM) but more potent antagonism of the CB1 β-arrestin pathway (IC₅₀ ~6 µM), consistent with differential CB1 pathway modulation. SKNY-1 acted as a CB2 partial agonist (EC₅₀ ~0.1 µM), with antagonist activity emerging at higher concentrations, and selectively inhibited MAO-B at low affinity with no activity against MAO-A. In vivo, mc4r(G894C) zebrafish mutants exhibited dyslipidemia, hepatic triglyceride accumulation, altered appetite-regulatory gene expression, increased metabolic rate, and enhanced compulsive high-calorie feeding and nicotine-seeking behaviors. Oral administration of SKNY-1 for six days produced dose-dependent effects. Both doses normalized total cholesterol and low-density lipoprotein levels and reduced hepatic triglycerides toward wild-type values without affecting circulating triglycerides. The higher dose (200 ng per fish per day) induced significant body weight reduction while preserving body density and attenuated reward-associated feeding and nicotine-seeking behaviors. The lower dose (20 ng per fish per day) more effectively normalized the leptin a-to-ghrelin expression ratio. Collectively, these findings demonstrate that SKNY-1 engages integrated endocannabinoid and potential dopaminergic mechanisms to improve metabolic parameters and attenuate maladaptive reward-related behaviors in an MC4R-deficient vertebrate model, supporting its further translational investigation for obesity complicated by compulsive eating and substance-seeking behaviors. Full article

Cannabinoid receptors occupy strategic control nodes within motor circuitry, making them potential targets for modulating different motor manifestations. They are positioned both within basal ganglia circuits that regulate movement and within spinal circuits that control skeletal muscle tone. Consequently, cannabinoids have been studied across diverse motor disorders, most notably in movement disorders and tone disorders, particularly those resulting in spasticity. Because motor control spans multiple anatomically and functionally distinct levels, relating cannabinoid signaling to effects on motor function is not straightforward. Limited understanding of cannabinoid receptor distribution has led to cannabinoids being tested even in disorders where receptor localization would predict little or no benefit. Mapping receptor distribution within individual motor circuits and integrating them with their pharmacological effects can help anticipate how cannabinoid signaling shapes motor output. Combined with characteristic motor manifestations, one can identify motor disorders in which cannabinoids may have therapeutic value. In this review, we integrate existing evidence to place cannabinoid receptors within key motor pathways, ranging from basal ganglia circuits controlling movement to peripheral mechanisms governing muscle tone. We consider both cannabinoid 1 receptor (CB₁R) and cannabinoid 2 receptor (CB₂R), with CB₂R gaining attention only recently for its potential relevance within the central nervous system. Building on this framework, we infer how cannabinoids acting at these sites may modulate motor control, and consequently, influence motor manifestations across major motor disorders. Finally, we examine how these distribution-based expectations align with available clinical observations. Full article

The role of the endocannabinoid system (ECS) in the development of depression and anxiety is being actively studied, with evidence suggesting that elevation of ECS signaling can have anxiolytic and antidepressant properties. The current study explored the therapeutic potential of Oleoyl Serine (OS), an endocannabinoid-like lipid, and HU-910, a synthetic selective Cannabinoid type 2 (CB2) receptors agonist, in depression and anxiety, using both sexes of the depressive-like genetic model: Wistar Kyoto (WKY) rats. The aim was to investigate behavioral and molecular mechanisms associated with acute and sub-chronic intraperitoneal administration of these compounds. We showed that, in females, acutely administered OS yielded antidepressant-like and anxiolytic-like effects in the Forced Swim Test (FST) and Open Field Test (OFT), respectively. In males, OS yielded acute and sub-chronic anxiolytic-like effects. HU-910 yielded an acute anxiolytic-like effect in females and an acute antidepressant-like effect in males. Sub-chronic administration of imipramine (IMI), used as a positive control, yielded an antidepressant-like effect in both sexes but an anxiogenic-like effect in females. Sub-chronic administration of all the treatments increased hippocampal Cannabinoid Receptor 1 (CNR1) mRNA expression (but not Fatty Acid Amide Hydrolase (FAAH)) in males. Exploratory in silico absorption, distribution, metabolism, and excretion (ADME) profiling suggests that sex-dependent pharmacokinetic variability may partly underlie the observed behavioral differences, in addition to possible pharmacodynamic factors. Our study provides a lead towards unraveling the putative sex differences in response to both conventional antidepressants (e.g., IMI) and emerging pharmacological agents (e.g., OS, HU-910). Further, our study helps advance the field of neuropharmacology by elucidating the anxiolytic-like and antidepressant-like effects of OS and HU-910. Full article

Background: SARS-CoV-2 infection during pregnancy has been associated with systemic inflammatory responses and placental pathology; however, the molecular mechanisms underlying placental involvement remain incompletely understood. The endocannabinoid system plays a critical role in placental development, immune regulation, and vascular homeostasis. Materials and Methods: Placental tissues were obtained from 20 healthy pregnant women and 20 women with confirmed SARS-CoV-2 infection who had recovered by the time of delivery. Demographic and laboratory parameters were recorded. Histopathological evaluation was performed using hematoxylin and eosin staining. Immunohistochemical analysis of cannabinoid receptor 1 (CNR1) and cannabinoid receptor 2 (CNR2) expression was conducted, supported by quantitative digital image analysis using QuPath. Network-based protein–protein interaction and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analyses were performed to explore potential molecular mechanisms. Results: COVID-19-positive placentas exhibited prominent histopathological alterations, including increased fibrinoid deposition, syncytial knot formation, vascular congestion, and intervillous inflammatory cell infiltration. Systemic inflammatory and coagulation markers, particularly neutrophil percentage, C-reactive protein, D-dimer, and fibrinogen levels, were significantly elevated in the COVID-19 group. CNR1 and CNR2 expressions were markedly increased across multiple placental compartments, including decidual cells, trophoblastic layers, syncytial knots, and Hofbauer cells. Quantitative digital analysis confirmed significant upregulation of both receptors. Bioinformatic analysis revealed enrichment of endocannabinoid signaling, cAMP-related pathways, and inflammatory mediator regulation of TRP channels. Conclusions: The findings indicate that SARS-CoV-2 infection is associated with coordinated inflammatory, structural, and molecular alterations in the placenta. Upregulation of CB1 and CB2 suggests an active involvement of the endocannabinoid system in placental immune and vascular responses to COVID-19, highlighting its potential relevance for understanding placental pathology associated with maternal viral infections Full article

The G-protein-coupled receptor cannabinoid receptor 2 (CB₂R) initiates a key signaling pathway in mammalian physiology and pathophysiology. CB₂R signaling holds significant therapeutic potential in ameliorating many pathologies, particularly in inflammatory conditions, neurodegenerative disorders, fibroproliferative and ocular diseases. CB2 modulators have been studied for their anti-inflammatory and tissue protective effects in preclinical animal models of cardiovascular, gastrointestinal, liver, kidney, lung and neurodegenerative disorders with numerous compounds undergoing clinical evaluation. Existing ligands can be classified as endocannabinoids, cannabinoid-like natural products and synthetic CB₂R ligands. A genetically encoded G-protein-coupled receptor activation-based (GRAB) sensor for CB₁R—GRAB_eCB2.0 was developed recently. This current study extends the sensor’s development to allow for a GPCR activation-based sensor for CB₂R. The sensor, GRAB-CB2, will facilitate the evaluation of pharmacological characteristics and responses of various functionally selective and indiscriminate cannabinoid ligands acting on CB2. Full article

Background: n-3 PUFA derived from marine sources, including eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), exhibit potential for breast cancer prevention. In contrast, higher dietary intakes of n-6 PUFA, such as linoleic acid (LA), have been implicated in promoting mammary tumourigenesis. However, there is a need for further exploration into how n-3 PUFA influence breast cancer development in comparison to different amounts and sources of LA. Objective: The purpose of this study was to compare the effects of n-3 PUFA-enriched diets versus n-6 PUFA diets differing in LA content, including corn oil (50% LA) and safflower oil (70% LA), on mammary tumour development in a HER2+ breast cancer model. Methods: Using the HER2+ breast cancer MMTV-neu(ndl)YD5 transgenic mouse model, this study determined the effects of: (1) 10% w/w corn oil (CO, n-6 PUFA, n = 14), (2) 10% w/w safflower oil (SO, n-6 PUFA, n = 14), (3) 3% w/w menhaden oil + 7% w/w CO (3% FO 7% CO, n-3 PUFA, n = 12), and (4) 3% w/w menhaden oil + 7% w/w SO (3% FO 7% SO, n-3 PUFA, n = 14) on puberty onset, tumour incidence, tumour volume, and tumour number in utero until 20 weeks of age. Results: Mice fed the n-3 PUFA-enriched diets showed a lower trajectory of tumour development compared to the n-6 PUFA diets, although the differences for palpated tumour volume and number over time reached significance only between the 10% CO and 3% FO 7% CO groups. This suggests that high LA content in CO may represent a threshold for promoting tumour growth whereby further LA content marginally influences additional tumour development. Exposure to the CO n-6 PUFA diet further resulted in earlier onset of puberty compared to the n-3 PUFA-enriched diet containing CO. To investigate the underlying mechanisms, a qPCR analysis of mammary glands and tumour tissue revealed that the n-3 PUFA diets downregulated the expression of pro-tumourigenic immune markers, including CD206 and F4/80 in the mammary glands and the cannabinoid receptor CB2 in tumours, compared to the n-6 PUFA diets. Conclusions: These findings indicate that the presence of dietary n-3 PUFA plays a key role in modulating mammary tumour development, which may be further influenced by the underlying n-6 PUFA background. The associated changes in immune markers suggest that n-3 PUFA exert anticancer effects in part by shifting the tumour immune microenvironment toward an anti-tumour phenotype and modulating cannabinoid receptor signalling. Collectively, this work informs future human studies investigating the role of dietary fat composition in breast cancer risk. Full article

The cannabinoid 1-receptor (CB1R) is found in particularly high levels in the hippocampus (HPC). Increased CB1R density and binding are observed in patients with schizophrenia, and epidemiological studies suggest that regular cannabis use during adolescence is a risk factor for the disease. CB1R was shown to interfere with neuronal network oscillations and to impair sensory gating and memory function. Neuronal oscillations are essential in multiple cognitive functions, and their impairment was documented in neurological and psychiatric diseases. The aim of this study was to investigate how adolescent pre-treatment with the CB1R-selective agonist CP-55940 may lead to abnormalities in theta synchronization in adulthood. Rats were pre-treated with CP-55940 or vehicle during adolescence (daily injections in PND 32–36 or PND 42–46). They were then tested in adulthood (PND over 70) under urethane anesthesia. Hippocampal theta rhythm was elicited by brainstem stimulation at five intensity levels 1 hour before and up to 5 h after injection. We found a significant decrease in elicited theta power after CP-55940 in adult rats, which was aggravated further in rats pre-treated in adolescence with the CB1R agonist. The effect was significantly larger in rats pre-treated during early adolescence (PND 32–36) compared to the group pre-treated during late adolescence (PND 42–46). We conclude that (1) exposure to cannabis during adolescence leads to increased sensitivity to CB1R agonist in adulthood, and (2) early adolescence, a critical period for development of HPC networks generating theta rhythms, is particularly prone to this sensitivity. Full article

The cannabinoid receptor type 2 (CB₂) is increasingly recognized as a crucial regulator of neuroimmune balance in the brain. In addition to its well-established role in immunity, the CB₂ receptor has been identified in specific populations of neurons and glial cells throughout various brain regions, and its expression is dynamically increased during inflammatory and neuropathological conditions, positioning it as a potential non-psychoactive target for modifying neurological diseases. The expression of the CB₂ gene (CNR2) is finely tuned by epigenetic processes, including promoter CpG methylation, histone modifications, and non-coding RNAs, which regulate receptor availability and signaling preferences in response to stress, inflammation, and environmental factors. CB₂ signaling interacts with TRP channels (such as TRPV1), nuclear receptors (PPARγ), and orphan G Protein-Coupled Receptors (GPCRs, including GPR55 and GPR18) within the endocannabinoidome (eCBome), influencing microglial characteristics, cytokine production, and synaptic activity. We review how these interconnected mechanisms affect neurodegenerative and neuropsychiatric disorders, underscore the species- and cell-type-specificities that pose challenges for translation, and explore emerging strategies, including selective agonists, positive allosteric modulators, and biased ligands, that leverage the signaling adaptability of the CB₂ receptor while reducing central effects mediated by the CB₁ receptor. This focus on the neuro-centric perspective repositions the CB₂ receptor as an epigenetically informed, context-dependent hub within the eCBome, making it a promising candidate for precision therapies in conditions featuring neuroinflammation. Full article

Although antiviral therapy has improved quality of life, around 50% of people with HIV (PWH) experience neurodegeneration and cognitive decline. This is prompted in part by the migration of HIV-infected monocyte-derived macrophages (MDMs) to the brain, leading to neuronal death. Previous studies in our lab have shown that HIV-infected MDMs secrete cathepsin B (CATB), which is a pro-inflammatory neurotoxic enzyme that is reduced by the addition of cannabinoid receptor-2 (CB2R) agonist JWH-133 to cell cultures. In this study, we aimed to identify the proteins secreted (secretome) by HIV-infected macrophages exposed to JWH-133 and quantify them using tandem mass tag (TMT) mass spectrometry. Frozen 13-day MDM supernatants from (1) an MDM negative control; (2) HIV+MDM, and (3) HIV+MDM-JWH-133 were compared in triplicate by mass spectrometry (LC/MS/MS) and analyzed for protein identification. Subsequently, the same samples were labeled by TMT labeling and quantified by LC/MS/MS. After a database search, 528 proteins were identified from all groups. Thereafter, proteins with more than three unique peptides and more than 10% coverage were selected for protein identification. Venn diagrams revealed one unique protein secreted by MDM-HIV, 10 unique proteins in HIV+MDM-JWH-133, and 15 common proteins in the three groups. CATB was unique to HIV+MDM. HIV+MDM exposed to JWH-133 showed proteins related to metabolism, cell organization, antiviral activity, and stress response. TMT analysis revealed 1454 proteins with abundance for statistical analysis based on FC ≥ |1.5| and p-value ≤ 0.05, of which Ruvb-like 1 and Hornerin decreased significantly with JWH-133 treatment. Both proteins stimulate HIV replication. In addition, HIV infection upregulated proteins associated with pathways of viral latency that were inhibited by JWH-133. In conclusion, JWH-133 treatment in HIV-infected macrophages leads to the secretion of antiviral host factors and decreases the secretion of proviral, inflammatory, and neurotoxic host factors. Full article

Background: Chronic inflammatory skin disorders, including atopic dermatitis, psoriasis, acne, and chronic wounds, affect nearly two billion people worldwide, impose substantial morbidity and economic burden, and remain only partially controlled by existing therapies. The cutaneous endocannabinoid system (ECS), comprising cannabinoid receptors, endocannabinoids, and their metabolic enzymes, regulates inflammation, pruritus, barrier integrity, and tissue repair; cannabinoid receptor type 2 (CB₂) has emerged as a particularly relevant target. β-Caryophyllene (BCP), a dietary sesquiterpene and highly selective CB₂ agonist with favorable safety and pharmacokinetic attributes, has attracted attention as a promising topical candidate. Methods: We systematically searched PubMed, Embase, and Web of Science (inception–30 July 2025) for studies on “β-caryophyllene” and dermatological outcomes, prioritizing purified BCP and analytically characterized BCP-rich fractions. Quantitative parameters, including tested concentration ranges (0.5 µM–10%) and principal mechanistic outcomes, were extracted to provide a translational context. Results: BCP penetrates the stratum corneum, suppresses NF-κB/MAPK and IL-4/TSLP pathways, enhances Nrf2-driven antioxidant defenses, and accelerates re-epithelialization and collagen remodeling. Across in vitro, in vivo, and formulation studies, BCP produced consistent anti-inflammatory and barrier-restorative effects within this concentration range. CB₂ antagonism attenuated these responses, confirming receptor specificity. BCP’s volatility and autoxidation to β-caryophyllene oxide (BCPO) necessitate stability-by-design strategies using antioxidants, low-oxygen processing, and protective packaging. Human evidence, limited to BCP-rich botanicals such as Copaifera oleoresins, suggests benefits for scars, wounds, and acne but lacks compound-specific validation. Conclusions: BCP exhibits coherent CB₂-mediated anti-inflammatory, antipruritic, antioxidant, and reparative actions with a favorable safety profile. Dose-defined, oxidation-controlled clinical trials of purified BCP are warranted to establish its potential as a steroid-sparing topical therapy. Full article

Background/Objectives: The cannabinoid type 2 receptor (CB₂ receptor) has been extensively studied in recent years due to the benefits associated with its modulation, including the regulation of the inflammatory response, neuroimmunomodulatory properties, and antitumor effects, all with the advantage of lacking significant psychoactive effects. Herein, we report the design, synthesis, characterization, biological assays, and molecular modelling analyses of novel (5/6-chloro-2-aryl-1H-benzo [d]imidazol-1-yl)(4-methoxyphenyl)methanone and 5/6-chloro-1-(4-methoxybenzyl)-2-aryl-1H-benzo [d]imidazole regioisomers as potential cannabinoid type 2 receptor ligands. Methods: The compounds were evaluated for their presumed CB₂ agonist activity using an indirect receptor-dependent apoptotic cell death assay exerted by cannabinoids, using the cell lines HEK293 (low CB₁/CB₂ expression), U-87 MG (high CB₁ expression), and HL-60 (exclusive CB₂ expression), and including the known cannabinoid ligands WIN-55,212-2 and AM630 as reference ligands. Flow cytometry was performed to assess apoptosis. Molecular docking and molecular dynamics simulations were used to explore ligand-receptor interactions at the CB₂ active site. Results: Compounds 3a, 3b’, 3c, and 4b selectively reduced HL-60 cell viability, similar to WIN-55,212-2, while showing no toxicity toward HEK293 or U-87 MG cells. Flow cytometry indicated that compounds 3a and 3c induced apoptosis in HL-60 cells comparable to WIN-55,212-2. Computational studies suggested that both compounds bind within the CB₂ receptor active site predominantly through π–π and hydrophobic interactions involving their benzo [d]imidazole cores, 2-aryl moieties, and 4-methoxybenzoyl scaffolds, resembling the binding patterns of established CB₂ ligands. Conclusions: Compounds 3a and 3c exert selective cytotoxicity against HL-60 cells, likely via a CB₂ agonist-mediated apoptotic mechanism. The applied combined experimental and computational approach provides a rapid, informative strategy for preliminary evaluation of CB₂ ligands and guides subsequent detailed pharmacological studies. Full article

Background/Objectives: Dysgeusia is a taste disorder commonly associated with chronic inflammation, reducing the quality of life, particularly in ageing populations or individuals with non-communicable chronic diseases. This study aimed to evaluate the effect of β-Caryophyllene, a natural sesquiterpene and agonist of the cannabinoid receptor 2 (CB2), on dysgeusia through an analysis of inflammation, Renin–Angiotensin System (RAS) and taste perception. Methods: Male BALB/c mice were subjected to a dysgeusia model induced by molecular mimicry with lipopolysaccharide. Animals received intraperitoneal injections of lipopolysaccharide in a chronic–persistent regimen, starting at a dose of 35 μg/100 g body weight for 7 days until reaching a final concentration of 250 μg/100 g and a daily oral administration of β-Caryophyllene at a dose of 10 mg/kg. The effect of β-Caryophyllene on taste perception, inflammatory biomarkers, RAS key-elements, CB2 expression and physiological parameters was evaluated. Results: Data indicate that β-Caryophyllene attenuates systemic inflammation by decreasing IL-1β and IL-6 and increasing ACE2 enzymatic activity in lingual tissue. Also, it was shown that the sesquiterpene reduced taste cell apoptosis and improved sucrose preference, suggesting a feasible restoration of taste dysfunction. Conclusions: These findings demonstrate that β-Caryophyllene could be a potential candidate for treating dysgeusia due to its putative anti-inflammatory and angiotensinergic effects. Full article

Previous research has demonstrated that the transient bilateral common carotid artery occlusion and reperfusion (BCCAO/R) effectively models early brain inflammation resulting from sudden hypoperfusion and subsequent reperfusion. According to studies showing that diet and nutrition strongly influence brain neuroplasticity, in this study we evaluated whether kaempferol (KAM), a dietary flavonoid, offers neuroprotection in a rat BCCAO/R model. Adult Wistar rats were gavage fed a single dose of KAM (40 mg) six hours before surgery. Comprehensive lipidomic and molecular analyses were conducted on samples from the frontal and temporal-occipital cortices, as well as the plasma. In the frontal cortex, KAM elevated anti-inflammatory N-acylethanolamines palmitoylethanolamide (PEA), oleoylethanolamide (OEA), and docosahexaenoylethanolamide (DHAEA) and reduced oxidized arachidonic acid metabolites. KAM also downregulated cyclooxygenase- 2 (COX-2) protein and selectively decreased the endocannabinoid 2-arachidonoylglycerol (2-AG), showing a shift in AA metabolism. These molecular changes correlated with increased levels of peroxisome proliferator-activated receptor alpha (PPARα) and cannabinoid receptors CB1R and CB2R, supporting activation of both nuclear and membrane-bound anti-inflammatory pathways. No significant changes were observed in the temporal-occipital cortex. In plasma, DHAEA levels increased similarly to those in the cortex. However, rises in PEA and OEA were detected only in sham-operated KAM-treated animals, suggesting possible central redistribution under hypoperfusion/reperfusion stress. In summary, these findings demonstrate that KAM exerts dual anti-inflammatory effects by inhibiting COX-2-mediated prostanoid synthesis and promoting PPARα-driven lipid signaling. This dual mechanism highlights the potential of KAM as a dietary intervention to reduce neuroinflammation associated with hypoperfusion–reperfusion challenges. Full article

Background/Objectives: The expanding focus on novel therapeutic pathways for long-term pain relief has directed interest toward compounds obtained from Cannabis sativa. This study evaluated the antinociceptive potential of cannabigerol-enriched extract (CBG) in models of acute and chronic hypernociception, along with morphological outcomes. Methods: Formalin and hot plate tests were used on male Swiss mice to assess acute oral antinociception. To the chronic pain model, 8-week-old male Wistar rats underwent spinal nerve ligation (SNL), and CBG was administered orally by gavage once daily for 14 days. Results: CBG reduced nociceptive responses in the formalin test and hot plate tests, mainly at a dose of 30 mg/kg, showing antinociceptive activity. CBG attenuated SNL-induced thermal and mechanical hypersensitivity, accompanied by reduced microglial density and spinal morphological changes. Importantly, cannabinoid receptor type 2 (CB2R) signaling contributed to the antinociceptive effects of orally administered CBG, whereas cannabinoid receptor type 1 (CB1R), Brain-Derived Neurotrophic Factor (BDNF), and Tumor Necrosis Factor (TNF) did not appear to play major roles under our experimental conditions. Conclusions: Collectively, these findings support CBG as a promising alternative for chronic pain management. Full article

Obesity is a complex, multifactorial disease and a growing global health challenge associated with type 2 diabetes, cardiovascular disorders, cancer, and reduced quality of life. The existing pharmacological therapies are characterized by their limited number and efficacy, and safety concerns further restrict their utilization. This review synthesizes extensive knowledge regarding the role of the endocannabinoid system (ECS) in the pathogenesis of obesity, as well as its potential as a therapeutic target. A thorough evaluation of preclinical and clinical data concerning endocannabinoid ligands, cannabinoid receptors (CB1, CB2), their genetic variants, and pharmacological interventions targeting the ECS was conducted. Literature data suggests that the overactivation of the ECS may play a role in the pathophysiology of excessive food intake, dysregulated energy balance, adiposity, and metabolic disturbances. The pharmacological modulation of ECS components, by means of CB1 receptor antagonists/inverse agonists, CB2 receptor agonists, enzyme inhibitors, and hybrid or allosteric ligands, has demonstrated promising anti-obesity effects in animal models. However, the translation of these findings into clinical practice remains challenging due to safety concerns, particularly neuropsychiatric adverse events. The development of novel strategies, including peripherally restricted compounds, hybrid dual-target agents, dietary modulation of endocannabinoid tone, and non-pharmacological interventions, promises to advance the field of obesity management. Full article