“
“Background and objectivePrevious studies have demonstrated that our recombinant bacille Calmette-Guerin (rBCG), which expresses Der selleck chemicals p2 in house dust mite (Der p2 rBCG) suppresses asthmatic airway inflammation by regulating the phenotype and function of dendritic cells (DC) and reprogramming T helper (Th) 0 cell differentiation into different T cell (Th1/Th2/Treg) subtypes. However, the exact role of Der p2 rBCG in reprogramming Th17 differentiation and the relevant mechanisms are not known. The aim of this study was to examine whether Der p2 rBCG-mediated inhibition of allergic airway inflammation is mediated by regulating Th17 differentiation in a murine asthma model.

MethodsPrimary

mouse bone marrow-derived dendritic cells (BMDC) were infected with Der p2 rBCG and adoptively transferred to Der p2-intranasally sensitized AZD1480 JAK/STAT inhibitor mice. The role of Der p2 rBCG-BMDC on the regulation of airway inflammation and Th17 cell differentiation was assessed.

ResultsAdoptive transfer of Der p2 rBCG-BMDC suppressed airway inflammation and mucin secretion. Der p2 rBCG-BMDC inhibited excessive Th17 immune responses but not BCG-BMDC.

Furthermore, Der p2 rBCG decreased jagged-2 and increased delta-like-4 expressions on BMDC to a greater extent than BCG.

ConclusionsThese findings suggest that DC plays a key role in Der p2 rBCG-induced immunoregulation. Der p2 rBCG also displayed a potent inhibitory effect on Th17 differentiation, and these findings increase our understanding of the cellular basis of Der p2 BCG-mediated inhibition of asthma.

This study shows that in a mouse model of asthma, Der p2 recombinant BCG is more effective in suppressing asthmatic airway inflammation than BCG alone. This effect is related to Th17 buy GF120918 regulation during differentiation, which is associated with the regulation of IL-6 secretion and Notch ligand expression by dendritic cells.”
“Alangium

salviifolium root was screened for phytochemical and anti-inflammatory properties. The percentage inhibition of carrageenan induced paw oedema was studied in rats. Alangium salvifolium gave maximum extractive values with Ethanol and the Loss on Drying value, total ash value and acid-insoluble ash and water soluble ash values were within limits. The extract gave positive tests for phytosterols, triterpenes, flavonoids, carbohydrates and alkaloids. The extract was free from glycosides, saponins, tannins, proteins and amino acids. In acute toxicity studies, Alangium salviifolium root extract was found to be safe up to 3000 mg kg(-1), p.o. in the albino rats. The Alangium salviifolium root gave significant per cent inhibition of the maximal paw oedema and very highly significant per cent inhibition of total paw oedema during 6 h. This study revealed that Alangium salviifolium root has good anti-inflammatory actions when compared with Diclofenac sodium.