76 research outputs found

    The isoprenoid end product N6-Isopentenyladenosine inhibits inflammation in bronchial epithelial cells through modulating the NFκB pathway

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    N6-Isopentenyladenosine (iPA) is a cytokinin identified in plants but also present in a free form or as a modified nucleoside bound to selenocysteine tRNA in human cells. It is an adenosine modified by an isopentenyl chain which derives from dimethylallil pyrophosphate (DMAPP), an intermediate of the mevalonate pathway. iPA is required for efficient translational decoding of selenoproteins, and can modulate a variety of biological processes including cell cycle progression, DNA synthesis and apoptosis (1). Recently, it has been shown that iPA can exhibit immunomodulatory and anti-inflammatory properties by activating NK cells and modulating cytokine production in a way depending on the concentration used (2). In order to further investigate the anti-inflammatory properties of iPA and its possible mechanisms of action, we analyzed its ability to inhibit TNFα-induced inflammation, either in normal human bronchial epithelial cells or in a model of exacerbated inflammation represented by bronchial cells derived from a Cystic Fibrosis (CF) patient bearing the ΔF508 mutation. Results showed that iPA inhibited IL-8 and RANTES release in both type of cells in a different manner. The analysis of the key enzymes of the STAT3 and NF-κB signalling pathways showed that iPA decreased the phosphorylation of STAT3 enzyme and markedly increased the expression of the direct NF-κB inhibitor, IκBα. These results were corroborated analyzing directly the NF-κB activity in HEK 293/T cells transfected with a NF-κB reporter plasmid. In these cells, iPA was also able to decrease IκBα levels. Of interest, we found that iPA also increased the expression of the antioxidant selenoprotein glutathione peroxidase only in CF cells. Altogether these data suggest that iPA can negatively regulate inflammation with a general mechanism of action involving the inhibition of NF-κB pathway but also propose that, in the presence of an altered inflammatory response such as in CF disease, iPA might act by modulating expression and/or synthesis of glutathione peroxidase

    Cannabidiol exerts multitarget immunomodulatory effects on PBMCs from individuals with psoriasis vulgaris

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    IntroductionThe involvement of endocannabinoid system (ECS) in the inflammatory cascade, and the ability of phytocannabinoids, endocannabinoids and their synthetic analogues to modulate it has become an interesting research area for new therapeutic approaches in inflammatory skin diseases. Cannabidiol (CBD) appears to be the most promising among phytocannabinoids, due to the lack of psychotropic effects and low toxicity profile. Its anti-inflammatory action has been highlighted in different preclinical models, ranging from experimental colitis to arthritis and neuroinflammation. Our aim was to evaluate CBD immune-modulatory effects in peripheral blood mononuclear cells (PBMC) of psoriasis individuals with particular attention to both innate and adaptative immune arms.MethodsWe performed in vitro immune functional experiments to analyze CBD action on various immune cells active in psoriatic lesions.ResultsThe results showed that CBD produced a shift from Th1 to Th2 response, while boosting cytotoxic activity of Natural Killer (NK) cells. Furthermore, it also exerted a potent action on monocyte differentiation as, after CBD treatment, monocytes from psoriatic individuals were unable to migrate in response to inflammatory stimuli and to fully differentiate into mature dendritic cells. Finally, a M2 skewing of monocyte-derived macrophages by CBD also contributed to the fine tuning of the magnitude of immune responses.ConclusionsThese data uncover new potential immunomodulatory properties of this cannabinoid suggesting a possible therapeutic action in the treatment of multiple inflammatory skin diseases

    The isoprenoid end product N6-isopentenyladenosine reduces inflammatory response through the inhibition of the NF\uce\ubaB and STAT3 pathways in cystic fibrosis cells

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    N6-isopentenyladenosine (iPA) is an intermediate of the mevalonate pathway that exhibits various anti-cancer effects. However, studies on its anti-inflammatory activity are scarce and underlying molecular mechanisms are unknown. Therefore, we aimed to investigate the ability of iPA to exert anti-inflammatory effects in the human cystic fibrosis (CF) cell model of exacerbated inflammation. TNF alpha-stimulated CF cells CuFi-1 and its normal counterpart NuLi-1 were pre-treated with increasing concentrations of iPA and cell viability and proliferation were assessed by MTT and BrdU assays. The effect of iPA on IL-8 and RANTES secretion was determined by ELISA, and the activation and expression of signaling molecules and selenoproteins were studied by Western blot. To assess the direct effect of iPA on NF kappa B activity, luciferase assay was performed on TNF alpha-stimulated HEK293/T cells transfected with a NF kappa B reporter plasmid. We demonstrated for the first time that iPA prevents IL-8 and RANTES release in TNF alpha-stimulated CF cells and this effect is mediated by increasing the expression of the direct NF kappa B inhibitor I kappa B alpha and decreasing the levels of STAT3. Consistent with this, we showed that iPA inhibited TNF alpha-mediated NF kappa B activation in HEK/293T cells. Finally, we also found that iPA improved the levels of glutathione peroxidase 1 and thioredoxin reductase 1 only in CF cells suggesting its ability to maintain sufficient expression of these anti-oxidant selenoproteins. Our findings indicate that iPA can exert anti-inflammatory activity especially in the cases of excessive inflammatory response as in CF

    Clinical Status, Nutritional Behavior, and Lifestyle, and Determinants of Community Well-Being of Patients from the Perspective of Physicians: A Cross-Sectional Study of Young Older Adults, Nonagenarians, and Centenarians in Salerno and Province, Italy

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    Longevity is rightly considered one of the greatest achievements of modern society. Biomedical research has shown that aging is the major risk factor for many diseases, so to find the right answers to aging it is necessary to identify factors that can positively influence longevity. This study investigated the clinical status, nutritional behavior, lifestyle, and social and community determinants of the well-being of young older adults and nonagenarians/centenarians in Salerno and province through the judgment of their physicians. Data were collected through an online survey. Multivariate Poisson and logistic regression models were used to calculate significant predictors of the outcomes of interest. The interesting finding was that cardiovascular disease was a risk factor for young older adults, while it was a protective factor for nonagenarians/centenarians, meaning that as age increased, heart problems tended to decrease. Certain foods were found to be a significant protective factor for both young older adult and nonagenarian-centenarian patients. In addition, psychosomatic disorders were found to be determinant for the young older adults, while depression was a risk factor for the nonagenarians/centenarians because they were not always gratified by their long lives and often felt like a burden on the family. The protective significant variable among the determinants of community well-being for both young older adults and nonagenarians/centenarians was the retention of honorary achievement. Based on our results, we are able to support the hypothesis of a difference between the young older adults and the nonagenarians/centenarians in clinical status, nutritional behaviors, lifestyle, and determinants of community well-being. However, societies need more social and educational programs that are able to build a new idea of old age by improving and supporting the young older adults and the nonagenarians/centenarians, with the goal of intergenerational solidarity, well-being, and social inclusion, as well as preventive interventions on lifestyles and nutrition, which will allow us to provide a new key to understanding aging

    Old, Nonagenarians, and Centenarians in Cilento, Italy and the Association of Lifespan with the Level of Some Physicochemical Elements in Tap Drinking Water.

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    Longevity, as a complex life-history trait, shares an ontogenetic relationship with other quantitative traits, such as epigenetic and environmental factors. Therefore, it is important to identify environmental factors that may modify the epigenome to establish healthy aging. This study explored the association between tap drinking water and longevity in Cilento, Italy, to understand whether trace elements in local drinking water may have an influence on old, nonagenarian, and centenarian people and promote their health and longevity. Data on population and water sources were collected through the National Demographic Statistics, the Cilento Municipal Archives, and the Cilento Integrated Water Service. Ordinary least squares (OLS) regression and a geographically weight regression (GWR) model were used to study the spatial relationship between the explanatory and outcome variables of longevity. The results of the study showed that the prevalence of longevity is concentrated in the central, northern and southeastern areas of the territory and that some trace elements present in tap water may contribute to local longevity in Cilento. Specifically, all Cilento municipalities had alkaline tap water, and the municipalities with the highest longevity concentrations had higher alkalinity levels than the other municipalities, soft to medium-hard water hardness, an amount of total dissolved solids equivalent to the level of excellent water, lower amounts of sodium, adequate iron concentration, and adequate dietary intake of manganese per day

    Calmodulin-dependent kinase IV links Toll-like receptor 4 signaling with survival pathway of activated dendritic cells.

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    Microbial products, including lipopolysaccharide (LPS), an agonist of Toll-like receptor 4 (TLR4), regulate the lifespan of dendritic cells (DCs) by largely undefined mechanisms. Here, we identify a role for calcium-calmodulin–dependent kinase IV (CaMKIV) in this survival program. The pharmacologic inhibition of CaMKs as well as ectopic expression of kinase-inactive CaMKIV decrease the viability of monocyte-derived DCs exposed to bacterial LPS. The defect in TLR4 signaling includes a failure to accumulate the phosphorylated form of the cAMP response element-binding protein (pCREB), Bcl-2, and Bcl-xL. CaMKIV null mice have a decreased number of DCs in lymphoid tissues and fail to accumulate mature DCs in spleen on in vivo exposure to LPS. Although isolated Camk4(−/−) DCs are able to acquire the phenotype typical of mature cells and release normal amounts of cytokines in response to LPS, they fail to accumulate pCREB, Bcl-2, and Bcl-xL and therefore do not survive. The transgenic expression of Bcl-2 in CaMKIV null mice results in full recovery of DC survival in response to LPS. These results reveal a novel link between TLR4 and a calcium-dependent signaling cascade comprising CaMKIV-CREB-Bcl-2 that is essential for DC survival
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