Search Results (185)

This study investigates the immunomodulatory effects of a well-characterized cannabidiol (CBD)-rich cannabis extract, CAN296, on T lymphocytes (T cells), particularly Cluster of Differentiation 4 (CD4⁺) helper and Cluster of Differentiation 8 (CD8⁺) cytotoxic subsets, by examining T-cell activation, cytokine secretion, and cytotoxic molecule expression in comparison with the conventional treatments dexamethasone (DEX) and tacrolimus (TAC). It addresses key processes involved in the formation of premalignant immune-mediated lesions, such as those seen in oral lichen planus (OLP) and oral manifestations of graft-versus-host disease (oGVHD). CD4⁺ and CD8⁺ T cells were isolated from healthy donors and assessed in vitro for T cell activation via CD69 expression, secreted tumor necrosis factor alpha (TNF-α) and interferon gamma (IFN-γ) levels according to enzyme-linked immunosorbent assay (ELISA), and cytotoxic molecule expression Granzyme B, Perforin, Fas Ligand (Fas-L) quantified by flow cytometry. Cells were treated with different doses of CAN296 (2, 4, 8 µg/mL), DEX (0.4, 4, 40 µg/mL), or TAC (0.1, 1, 10 ng/mL), and all parameters were compared to untreated controls. CAN296 significantly inhibited T cell activation, reducing CD69 expression in CD4⁺ T cells to 2–11% and in CD8⁺ T cells to 5–17%. It also markedly suppressed TNF-α secretion in CD4⁺ T cells at all concentrations (p < 0.0001). In CD8⁺ T cells, CAN296 led to a near-complete reduction in TNF-α and IFN-γ, leaving both cytokines barely detectable at all tested doses (p < 0.0001). The effect of cell inhibition was significantly more pronounced than that observed with DEX or TAC, displaying dose-dependent reductions. TAC inconsistently lowered TNF-α while paradoxically increasing IFN-γ at lower concentrations. Additionally, CAN296 consistently suppressed cytotoxic molecule expression, reducing Granzyme B by 81–82%, Perforin by 40–53%, and Fas-L by 40–44%. DEX showed variable effects on cytotoxic molecule expression. At the same time, TAC demonstrated inconsistent modulation of Perforin and Granzyme B. Overall, CAN296 outperformed DEX and TAC, demonstrating more potent and consistent immunomodulatory effects. CBD-rich cannabis extract, CAN296, exhibits potent immunomodulatory properties by effectively inhibiting T cell activation, lowering pro-inflammatory cytokines, and suppressing cytotoxic molecule expression. Its efficacy surpasses conventional therapies like DEX and TAC, offering a promising novel treatment modality for T cell-mediated disorders, including OLP and oGVHD. These findings support further development of CAN296 formulations to optimize dosing and delivery, followed by clinical trials to validate its therapeutic potential. Full article

Triatoma infestans is one of the primary vectors of Chagas disease. This vector has developed increasing resistance to pyrethroids, the main insecticides used for its control. Recent studies have highlighted the repellent and lethal effects of Cannabis sativa on insects, suggesting its potential use in pest management. Based on this, we hypothesize that C. sativa could be a viable bioactive for controlling T. infestans. To test this hypothesis, acetone and ethanol extracts were obtained from the inflorescences of C. sativa L. (Deep Mandarine variety) using sonication. These extracts were analyzed through gas chromatography and high-performance liquid chromatography. The repellent and lethal effects of the extracts were evaluated on fifth-instar nymphs of T. infestans from a laboratory colony, as well as on the beneficial non-target species, Apis mellifera. The most abundant terpenes identified were β-caryophyllene and β-pinene, with concentrations exceeding 100 ppm in both extracts. Cannabidiol and Δ⁹-tetrahydrocannabinol were the predominant cannabinoids. Both extracts exhibited maximum lethal activity 48 h after insect contact, with the acetone extract demonstrating a potency five times greater than the ethanolic extract. Binary combinations of C. sativa extracts with major terpenes showed dose-dependent interactions against T. infestans, ranging from strong synergy (e.g., AE + β-caryophyllene, CI = 0.06–0.17) to marked antagonism (e.g., AE + E-ocimene, CI = 1.60–4.80). Furthermore, the acetone extract showed a more effective repellent action compared to the ethanol extract, even outperforming N,N-Diethyl-meta-toluamide (DEET, positive control). At a concentration of 25 µg/cm² for 60 min, the acetone extract achieved a 100% repellent effect, whereas DEET required a concentration of 50 µg/cm² to achieve the same effect. Unlike imidacloprid (positive control), neither extract showed toxicity to adult A. mellifera at the evaluated doses. Full article

Oleosomes are submicron oil bodies of a triacylglycerol core enveloped by a phospholipid monolayer and embedded proteins, forming a naturally assembled nanocarrier with exceptional oxidative resilience, interfacial stability, and biocompatibility. Their unique architecture supports solvent-free extraction, self-emulsification, and near-complete encapsulation of highly lipophilic compounds (log P > 4), including curcumin and cannabidiol, with reported efficiencies exceeding 95%. These plant-derived droplets enhance oral bioavailability through lymphatic uptake and enable targeted delivery strategies such as magnetically guided chemotherapy, which has reduced tumor burden by approximately 70% in vivo. The review critically examines recent advances in oleosome research, spanning botanical sourcing, green extraction technologies, interfacial engineering, xenobiotic encapsulation, pharmacokinetics, and therapeutic applications across oncology, dermatology, metabolic disease, and regenerative medicine. Comparative analyses demonstrate that oleosomes rival or surpass synthetic lipid nanocarriers in encapsulation efficiency, oxidative stability, and cost efficiency while offering a sustainable, clean-label alternative. Remaining challenges, including low loading of hydrophilic drugs, allergenicity, and regulatory standardization, are addressed through emerging strategies such as hybrid oleosome–liposome systems, recombinant oleosin engineering, and stimulus-responsive coatings. These advances position oleosomes as a versatile and scalable platform with significant potential for food, cosmetic, and pharmaceutical applications. Full article

Background: Skin diseases of inflammatory origin, such as atopic dermatitis, psoriasis and acne, have a substantial prevalence in the world population. Natural products are particularly important at a topical level. Essential oils are examples of natural products and thyme in particular has been used for medicinal purposes due to its biological properties. Objectives: The aim of present work was to study the anti-inflammatory potential of Thymus mastichina essential oil, focusing on purified terpene-rich fractions. whose major compounds were thymol and linalool, eucalyptol and α-terpineol, and γ-terpinene and terpinolene, respectively. Additionally, a phytocannabinoid formulation containing cannabidiol (CBD) and cannabigerol (CBG) was evaluated to explore potential synergistic effects. Methods: Thymus mastichina essential oil was extracted and purified to obtain terpene-enriched fractions, which were used to develop three distinct formulations. These were screened for antioxidant activity using the 2,2-diphenyl-1-picrylhydrazyl (DPPH) assay and assessed for cytotoxicity in HaCaT human keratinocytes. Anti-inflammatory potential was evaluated via gene expression. Selected thyme formulations—alone or in combination with CBD/CBG—were also tested in vivo using a mouse model of acute skin inflammation. Results: The antioxidant activity of the three formulations showed a reduction in DPPH radicals. In addition, the formulations demonstrated to be safe in vitro in the human keratinocyte cell model HaCaT. Under PMA-induced inflammatory stress, the fractions modulated-inflammatory gene expression to varying degrees While terpene fractions alone showed moderate activity, their combination with CBD/CBG enhanced the anti-inflammatory response. In vivo, the gel formulations reduced oedema in a mouse model of acute inflammation. Conclusions: The data support the safe and effective use of Thymus mastichina-derived terpene fractions for topical anti-inflammatory applications. The synergistic effect observed with CBD and CBG suggests that combining essential oil terpenes with phytocannabinoids may offer a novel therapeutic strategy for managing inflammatory skin disorders. Full article

The endocannabinoid system regulates key biological functions such as neuroprotection, pain modulation, inflammation, and immunomodulation. Cannabis-based therapies have gained attention due to the therapeutic potential of their bioactive compounds, particularly phytocannabinoids like cannabidiol (CBD), which exhibit anti-inflammatory, neuroprotective, and immunomodulatory properties. Mesenchymal stem cells (MSCs) are widely studied for their regenerative and immunomodulatory potential. This study evaluated the effects of priming canine adipose tissue-derived MSCs (cAT-MSCs) with a CBD-rich cannabis extract on cell morphology, viability, neurotrophic factor gene expression, and cytokine gene and protein expression. cAT-MSCs (n = 5) were primed for 24 h and divided into three groups: Control (C, unprimed), D1 (2.25 µM CBD), and D2 (225 nM CBD). No morphological or viability changes were observed. Gene expression analysis showed that groups D1 and D2 exhibited increased HGF expression. D1 also showed increased IDO and decreased BDNF expression. In contrast, no significant changes were observed in GDNF, IL-10, TNF-α, IFN-γ, or PTGES2. Regarding the cytokine profile, GM-CSF, IL-2, and IL-10 were undetectable. Notably, IL-8 and MCP-1 levels were significantly reduced in D1 compared to the control. These findings suggest that CBD priming modulates key regenerative and inflammatory mediators in cAT-MSCs, supporting its potential application in enhancing the efficacy of cell-based therapies. Full article

In the present study, pectin films with antioxidant activity were obtained in response to the increasing demand for active packaging systems related to the need for safe finished products with a long shelf life. To obtain the films, Cannabis sativa L. herb extract was used as the active agent. The samples with the highest extract contents of 20:80 2.0F and 80:20 2.0F (PA:PC ratio + wt.% extract) were characterized by a polyphenols content of 0.9067 ± 0.0184 [%]. They also showed the highest antioxidant activity, at ABTS = 1.79 ± 0.04 [mg/mL] and DPPH = 4.44 ± 0.10 [mg/mL]. Mechanical tests conducted showed that samples without extract addition, regardless of the pectin apple to citrus ratio, were characterized by similar values of mechanical parameters (p > 0.05). Spearman’s rank correlation coefficients were used to demonstrate the strength and direction of the relationship between pairs of variables. Statistical analysis showed strong correlations between antioxidant indices and polyphenol content. Full article

Background: Ulcerative colitis (UC) is an autoimmune disorder characterized by inflammation of the mucosa that gives rise to a disrupted epithelial morphology. Persistent or recurrent inflammation and the debilitating nature of the associated symptoms make treatment of UC challenging. Cannabinoids derived from Cannabis sativa L. have been used for treatment of gastrointestinal disorders due to the wide-ranging therapeutic benefits of these compounds. Methods: We evaluated a commercial hemp extract, high in cannabigerol (CBG) and cannabidiol (CBD), as a novel treatment for UC symptoms using the dextran sodium sulfate (DSS) model in mice. Hemp extract was administered via two different routes of administration, intraperitoneal (i.p) and oral (p.o). Results: Specifically, we observed that cannabinoid treatment reduced damage to the colonic epithelium. We also observed that CBG/CBD rich hemp extracts help reduce pain-related responses in these animals. Conclusions: Together, the data suggest that cannabinoid administration has the potential to be an effective alternate therapeutic option for UC management. Full article

Cannabis sativa L. is a high-value medicinal crop whose nutritional requirements and fertilization strategies remain poorly defined, particularly in relation to cannabinoid production. This study evaluated the effects of inorganic fertilization (N, P, and K) on biomass accumulation, nutrient uptake and balance, and cannabinoid content in Cannabis sativa L. A high-cannabidiol (CBD) cultivar was propagated from ex vitro cuttings and grown in 10 L pots with commercial substrate. Treatments included a non-fertilized control and increasing doses of N (0–10 g plant⁻¹), P (0–6 g plant⁻¹), and K (0–10 g plant⁻¹), with higher P and K doses applied during the reproductive stage. Biomass production peaked at 5 g N, 2 g P, and 3 g K plant⁻¹, yielding 41.9% more than the control. Fertilized plants showed harvest indexes of 31–42%. Additional P and K during the reproductive stage did not enhance inflorescence biomass and CBD content. Tissue nutrient concentrations increased with fertilization. Inflorescences had maximum N and P levels at 5 g N and 2 g P plant⁻¹, while leaves accumulated more K at 7.5 g K plant⁻¹. CBD content increased and THC (%) decreased progressively with nutrient supply. High nutrient doses, however, led to nutritional imbalances and plant health issues. Nutrient balance analysis showed differential macronutrient extraction by treatment. These findings highlight the importance of optimized fertilization strategies to enhance both biomass and cannabinoid production in high-CBD cannabis cultivars. Full article

This study evaluated the effects of dietary cannabidiol (CBD) supplementation on behavior, blood parameters, oxidative status, metabolomic profile, and the fatty acid composition of meat and liver in rabbits. A total of 42 New Zealand White × California rabbits (60 days old; 1:1 sex ratio; average weight 1621.3 ± 46.2 g) were randomly assigned to two groups (a control group, CTRL, and a CBD group, n = 21 each). Both groups received the same commercial diet, with the CBD group additionally supplemented with 0.1 mL of cannabis extract in coconut oil, corresponding to 10 mg CBD/animal/day. At 92 days of age, rabbits were slaughtered, and samples were collected for analyses. Results showed that CBD supplementation significantly improved body weight gain, reduced plasma triglyceride levels, and enhanced oxidative status. Behavioral observations indicated increased motor and grooming activities in CBD-supplemented animals, suggesting enhanced psychological well-being. The fatty acid profile of meat and liver was not significantly altered by CBD supplementation. Overall, dietary CBD demonstrated the potential to positively influence physiological and behavioral responses, representing a promising strategy to enhance animal welfare and productivity in rabbit farming. Although no adverse effects on lipid profiles were observed, further studies are warranted to explore CBD’s role in lipid metabolism and cholesterol regulation. Full article

The global incidence of cancer continues to rise at an alarming rate, with annual cases projected to increase by 47% from 19.3 million in 2020 to 28.4 million by 2025. Cannabis sativa L. was among the earliest plants investigated for potential anticancer therapies, due to its more than 100 bioactive constituents that confer notable antioxidant properties. Hemp-derived extracts, particularly those rich in cannabidiol (CBD), exhibit notable synergistic biological effects, including the inhibition of cancer cell proliferation, angiogenesis, and metastasis, alongside the promotion of apoptosis. These pharmacological attributes suggest that hemp oils may serve as promising alternatives or adjuncts to conventional chemotherapy, offering potential therapeutic benefits with a reduced risk of severe adverse effects. This review discusses the current literature on hemp oils, with emphasis on their roles in cancer prevention, therapeutic efficacy, and potential toxicity in humans. Furthermore, it explores the various extraction methods employed in hemp oil production and examines their chemical compositions, offering a comprehensive understanding of the principal antioxidant constituents responsible for their bioactivity to the readers. Full article

Cannabis (Cannabis sativa L.) contains numerous secondary metabolites with different bioactivities. Extraction methods differ in their efficiency in recovering metabolites from plant material, and thus cannabis extracts vary significantly in their composition and activity. We aimed to develop a repeatable and accurate HPLC-MS method for the determination of nine common cannabinoids and compare two widely used extraction techniques: ultrasound-assisted extraction (UAE) with methanol and supercritical CO₂ extraction (SFE). Inflorescences of the Kompolti cultivar were used as the plant material. On a polar C18 column, more than thirty compounds were well separated within 25 min; thirteen cannabinoids were identified and eight of them were quantified, with cannabidiol and its acidic precursor being the most abundant. Additionally, three spectrophotometric assays were employed for extract characterization: the total phenolic content, total flavonoid content, and DPPH radical scavenging capacity. The SFE extract, obtained using ethanol as a co-solvent under low pressure (<100 bar) and temperature (<45 °C), was more enriched than the UAE extract (181.62 ± 2.90 vs. 140.64 ± 13.24 mg quercetin equivalents/g of dry extract) and cannabinoids (446.29 ± 22.66 vs. 379.85 ± 17.16 mg/g of dry extract), especially cannabinoid acids. However, UAE achieved greater recovery from the plant material (cannabinoids: 83.42 ± 5.15 vs. 68.84 ± 3.49 mg/g of plant material) and showed superior antioxidant capacity (DPPH IC₅₀: 2.50 ± 0.18 vs. 3.37 ± 0.07 mg/mL). Notwithstanding the observed partial decarboxylation, the high repeatability (RSD < 15%, n = 11) of the entire analytical workflow involving UAE extraction and LC-MS analysis renders it suitable for routine analyses. This study contributes to the ongoing efforts toward the quality control and valorization of C. sativa. Full article

Cannabis sativa L. is known for its high-value compounds, like Cannabidiol (CBD) and Cannabidiolic Acid (CBDA). It is widely used in the pharmaceutical and food industries. Different extraction methods, like Soxhlet and maceration, are commonly employed to obtain its extracts. High temperature and long extraction time can influence the yield and the purity of the extracts, affecting the quality of the final product. This study focused on optimizing CBD oil extraction from hemp inflorescences and its incorporation into a gluten-free bakery product for functionalization. Dynamic maceration (DME), assisted by ultrasound and microwave irradiation, was used. Our study explored the impact of varying sonication times (three distinct durations) and microwave powers (three levels, applied for two different irradiation times) on the resulting extracts. HPLC analysis was performed on these extracts. Subsequently, we used hemp flour and hemp oil to bake gluten-free cupcakes, which were fortified with the extracted CBD oil. Rheological characterization was used to investigate the cupcake properties, along with stereoscopic, color and puncture analysis performed on the baked samples. The most effective extraction parameters identified were 30 s of microwave irradiation at 700 W, yielding 45.2 ± 2.0 g of CBD extract, and 15 min of sonication, which resulted in 53.2 ± 2.5 g. Subsequent rheological characterization indicated that the product exhibited mechanical properties and a temperature profile comparable to a benchmark, evidenced by a height of 4.1 ± 0.2 cm and a hardness of 1.9 ± 0.2 N. These promising values demonstrate that hemp oil and hemp flour are viable ingredients for traditional cakes and desserts, notably contributing increased nutritional value through the CBD-enriched hemp oil and the beneficial profile of hemp flour. Full article

Background/Objectives: The main biologically active molecules of Cannabis sativa L. are cannabidiol (CBD) and Δ9-tetrahydrocannabinol (THC). Both exert anticonvulsant effects when evaluated as single drugs, but their possible interaction as components of C. sativa extracts has been scarcely studied. For this reason, we evaluated CBD and THC, combined or not, in two seizure models in mice, using an improved vehicle formula. Methods: Firstly, acute seizures were induced by intraperitoneal (i.p.) pentylenetetrazole (PTZ, 80 mg/kg), and mice received CBD or THC at 1, 3, 6, and 10 mg/kg, or a CBD/THC 1:1 combination at 1.5, 3, and 6 mg/kg, per os (p.o.), one hour before PTZ administration. Secondly, mice received p.o. CBD (10 mg/kg), CBD/THC (1.5, 3, and 6 mg/kg), valproic acid (50 mg/kg), or vehicle (nanoemulsions without CBD or THC), one hour before PTZ (30 mg/kg, i.p.) every other day for 21 days. Behavioral, biochemical, and immunohistochemical analyses were performed to assess the response to PTZ, oxidative stress, and astroglial activation. Results: In the acute model, CBD and THC at 3–10 mg/kg, and their combinations, significantly increased latency to generalized seizures and death, and improved survival rates. In the chronic model, similarly to valproic acid, CBD 10 mg/kg and CBD/THC at 1.5 and 3 mg/kg delayed kindling acquisition, while CBD/THC 6 mg/kg had no effect. CBD and CBD/THC treatments reduced oxidative and nitrosative stress and attenuated astrogliosis, as indicated by decreased glial fibrillary acidic protein and GABA transporter 1 expression and increased inwardly rectifying potassium channel 4.1 expression in hippocampal regions. However, no cannabinoid treatment prevented the impairment in novel object recognition and Y maze tests. Conclusions: These findings support the potential role of cannabinoids in counteracting seizures, possibly by reducing oxidative stress and astrogliosis. The study also highlights the importance of nanoemulsions as a delivery vehicle to enhance cannabinoid effectiveness while considering the risks associated with direct cannabinoid receptor activation. Full article

The ultra-high-performance liquid chromatography high-resolution mass spectrometry (LC-ESI-HR-MS/MS) technique was used to characterize the polyphenolic fraction of the hot water infusion (WI) of inflorescences of Cannabis sativa L. Kompolti variety, commercially used for food preparations or cosmetic purposes. On water infusion extract, we applied a multidisciplinary approach, where NMR, MS, in vitro cell-free and cell-based assays coupled with in silico studies, were used to rationalize at the molecular level the effects of the major component Cannabidiol (CBD), in a model of Parkinson’s disease (PD). The phytochemical analysis by LC-MS/MS led to the tentative identification of many components belonging to different classes of polyphenols, such as phenolic acids, flavonoids, and their glycosides. CBD and cannabidiolic acid (CBDA) were also detected in good amounts in the infusion, together with several minor cannabinoids. In addition, the water infusion WI was evaluated for mineral content, total phenolic content, flavonoid content, and antioxidant capacity by DPPH and FRAP methods. Notably, our results in a cellular model of PD highlight that CBD protects against rotenone-induced cell death without recovering neuronal morphology. These biological outcomes were rationalized by an in silico approach, where we hypothesize that CBD could influence the cellular response to oxidative stress via its interaction with the Keap1/Nrf2 pathway. In summary, these results enriched the nutraceutical profile of the water infusion of the inflorescences of the Kompolti cultivar, which demonstrated a high CBD content. This study could lead to the development of dietary supplements that could help in the management of clinical symptoms related to the antioxidant activity of CBD in the pathophysiology of PD, which remains poorly characterized. Full article

After cannabidiol was extracted from the hemp biomass using supercritical CO₂ extraction, the residual could be utilized as a source of other valuable ingredients. The stability of the extracted CBD in pre- and post- encapsulation states were evaluated. Dynamic macerations with ethanol and hexane were compared for CBD extraction. The ethanol extract yielded 0.11% ± 0.10 CBD and 1.83% ± 0.00 cannabidiolic acid (CBDA), while the hexane extraction yielded 0.08% ± 0.04 CBD, 1.06% ± 0.04 CBDA, and 0.30% ± 0.04 delta-9-tetrahydrocannabinol (Δ9-THC). Ethanol extraction was selected due to the low THC detection in the extract. The CBD extract was encapsulated using water soluble yellow mustard mucilage (WSM), maltodextrin (MD), gum Arabic (GA), and protein extracted from the hemp biomass waste (HBP) via freeze drying. The WSM-MD-GA 1:5 particle formulation exhibited superior thermal stability over 72 h, whereas the WSM-HBP-GA 1:5 formulation offered the most protection against UVa-induced degradation within the same duration. Incorporating hemp biomass protein as an encapsulation material enhanced protection against light exposure through UV absorption, although it did not grant thermal protection. These findings indicated that encapsulation significantly protects against CBD degradation when subjected to thermal and light conditions compared to non-encapsulated CBD. Full article