BACKGROUND AND PURPOSEThe non-psychotropic cannabinoid cannabichromene is known to activate the transient receptor potential ankyrin-type1 (TRPA1) and to inhibit endocannabinoid inactivation, both of which are involved in inflammatory processes. We examined here the effects of this phytocannabinoid on peritoneal macrophages and its efficacy in an experimental model of colitis.
EXPERIMENTAL APPROACHMurine peritoneal macrophages were activated in vitro by LPS. Nitrite levels were measured using a fluorescent assay; inducible nitric oxide (iNOS), cyclooxygenase-2 (COX-2) and cannabinoid (CB1 and CB2) receptors were analysed by RT-PCR (and/or Western blot analysis); colitis was induced by dinitrobenzene sulphonic acid (DNBS). Endocannabinoid (anandamide and 2-arachidonoylglycerol), palmitoylethanolamide and oleoylethanolamide levels were measured by liquid chromatographymass spectrometry. Colonic inflammation was assessed by evaluating the myeloperoxidase activity as well as by histology and immunohistochemistry.
KEY RESULTSLPS caused a significant production of nitrites, associated to up-regulation of anandamide, iNOS, COX-2, CB1 receptors and down-regulation of CB2 receptors mRNA expression. Cannabichromene significantly reduced LPS-stimulated nitrite levels, and its effect was mimicked by cannabinoid receptor and TRPA1 agonists (carvacrol and cinnamaldehyde) and enhanced by CB1 receptor antagonists. LPS-induced anandamide, iNOS, COX-2 and cannabinoid receptor changes were not significantly modified by cannabichromene, which, however, increased oleoylethanolamide levels. In vivo, cannabichromene ameliorated DNBS-induced colonic inflammation, as revealed by histology, immunohistochemistry and myeloperoxidase activity.
CONCLUSION AND IMPLICATIONSCannabichromene exerts anti-inflammatory actions in activated macrophages -with tonic CB1 cannabinoid signalling being negatively coupled to this effect -and ameliorates experimental murine colitis.
BJP
Nowadays
chemotherapy is the main treatment for osteosarcoma disease,
even if limited by the lack of selectivity between healthy and cancer
cells during the inhibition of cell division. Herein, we propose the
use of few-layer two-dimensional black phosphorous (2D bP) as an alternative
tool for osteosarcoma treatment and report how 2D bP can stimulate
newly forming bone tissue generation after osteosarcoma resection.
In our study, we have developed an in vitro model to evaluate the
efficacy of 2D bP material with and without near-infrared light irradiation
treatment, and we have demonstrated that the presence of 2D bP without
treatment inhibits the metabolic activity of osteosarcoma cells (SAOS-2)
while inducing both the proliferation and the osteogenic differentiation
of human preosteoblast cells (HOb) and mesenchymal stem cells. Furthermore,
we also propose an in vitro coculture model (SAOS-2 and HOb cell lines)
in order to study the effect of 2D bP on inflammatory response related
to cancer. On this coculture model, 2D bP may increase anti-inflammatory
cytokine generation (i.e., interleukin-10) and inhibit proinflammatory
mediators synthesis (i.e., interleukin-6), thus suggesting the opportunity
to prevent cancer-related inflammation. Finally, we have demonstrated
that 2D bP represents a promising candidate for future regenerative
medicine and anticancer applications.
Bromelain exerts antiproliferative and proapoptotic effects in colorectal carcinoma cells and chemopreventive actions in colon carcinogenesis in vivo. Bromelain-containing foods and/or bromelain itself may represent good candidates for colorectal cancer chemoprevention.
Background and AimsFree radicals are implicated in the aetiology of some gastrointestinal disorders such as gastric ulcer, colorectal cancer and inflammatory bowel disease. In the present study we investigated the antioxidant and genoprotective activity of some rotenoids (i.e. boeravinones) isolated from the roots of Boerhaavia diffusa, a plant used in the Ayurvedic medicine for the treatment of diseases affecting the gastrointestinal tract.Methods/Principal FindingsAntioxidant activity has been evaluated using both chemical (Electron Spin Resonance spectroscopy, ESR) and Caco-2 cells-based (TBARS and ROS) assays. DNA damage was evaluated by Comet assay, while pERK1/2 and phospho-NF-kB p65 levels were estimated by western blot. Boeravinones G, D and H significantly reduced the signal intensity of ESR induced by hydroxyl radicals, suggesting a scavenging activity. Among rotenoids tested, boeravinone G exerted the most potent effect. Boeravinone G inhibited both TBARS and ROS formation induced by Fenton's reagent, increased SOD activity and reduced H2O2-induced DNA damage. Finally, boeravinone G reduced the levels of pERK1 and phospho-NF-kB p65 (but not of pERK2) increased by Fenton's reagent.ConclusionsIt is concluded that boeravinone G exhibits an extraordinary potent antioxidant activity (significant effect in the nanomolar range). The MAP kinase and NF-kB pathways seem to be involved in the antioxidant effect of boeravinone G. Boeravinone G might be considered as lead compound for the development of drugs potentially useful against those pathologies whose aetiology is related to ROS-mediated injuries.
Within the framework of neurodegenerative disorder therapies, the fabrication of 3D eumelanin architectures represents a novel strategy to realize tissue-engineering scaffolds for neuronal cell growth and control by providing both mechanical support and biological signals. Here, an appropriate procedure combining electrospinning, spin coating and solid-state polymerization process is established to realize the scaffolds. For biological analysis, a human derived cell line SH-SY5Y from neuroblastoma is used. Cell maturation on eumelanin microfibers, random and aligned, is evaluated by using confocal analysis and specific markers of differentiating neurons (βIII tubulin and GAP-43 expression). Cell morphology is tested by SEM analysis and immunofluorescence techniques. As results, eumelanin coated microfibers prove capable to support biological response in terms of cell survival, adhesion and spreading and to promote cell differentiation toward a more mature neuronal phenotype as confirmed by GAP-43 expression over the culture.
Bioactive glasses
are well-known materials suitable for bone-related
applications thanks to their biocompatibility and osteoconductivity.
In order to improve their in vivo performance, the modification of the glass composition by adding
ions with specific biological functions is required. As copper (Cu)
possesses antibacterial properties, in this study, 5 wt % of CuO has
been added to the 45S5 bioactive glass composition. The investigation
of the effect of the Cu-containing bioactive glass on cellular behavior
has revealed that the presence of Cu induces an early differentiation
of human mesenchymal stem cells through osteoblast phenotype, promotes
the expression of anti-inflammatory interleukin, and reduces proinflammatory
interleukin expression. With the aim to produce coatings with antibacterial
properties, the Cu-containing bioactive glass was used as the target
material for the pulsed laser deposition (PLD) of bioactive thin films.
PLD experiments were carried out at different substrate temperatures
to study the effect on the film’s characteristics. All of the
films are compact, crack-free, and characterized by a rough morphology
and good wettability. The in vitro bioactivity was demonstrated by
the apatite growth on the coating surface, after soaking in simulated
body fluid, revealed by Raman spectroscopy and scanning electron microscopyenergy
dispersive X-ray analyses. The antibacterial study proved that the
material showed more effective activity against three Gram-negative
bacteria (Pseudomonas aeruginosa, Escherichia coli, Salmonella enterica) rather than against Gram-positive bacteria (Staphylococcus
aureus).
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