Two experiments were conducted to evaluate the effect of supplemental vitamin E and (or) Se, provided either in the diet or by injection, on humoral antibody production in weanling swine after an antigenic challenge with sheep red blood cells (SRBC). In the first experiment, a 2 x 2 factorial design was used, with pigs fed either 0 or .5 ppm Se and 0 or 220 IU vitamin E/kg diet. The basal diet contained a natural Se and alpha-tocopherol content of .02 ppm and 7 mg/kg, respectively. In a second 2 x 2 factorial trial, 0 or 6 mg Se and 0 or 220 mg alpha-tocopherol were injected intramuscularly into weaning pigs fed the basal diet without supplemental Se or vitamin E. A fifth treatment group was fed a positive control diet containing both nutrients (.5 ppm Se and 220 IU vitamin E/kg). In both experiments, intraperitoneal injections of SRBS (1 x 10(8)) were administered weekly, with hemagglutination titers determined at these intervals. Hemagglutination assays indicated that vitamin E and Se independently enhanced the immune response, particularly during the latter weeks of the experiment. The combination of both nutrients, provided either in the diet or via injection, resulted in a further increase in hemagglutination titers, suggesting an additive response. Pigs receiving either Se or vitamin E had higher serum concentrations of the nutrient provided. Dietary sources of these nutrients resulted in greater serum and tissue levels than did injections.
Background: Inflammatory bowel disease management lacks therapies that heal the epithelial barrier. Results: PAR2 activation increases activities of MEK1/2 and PI3K in intestinal epithelial cells, which blocks apoptosis. Conclusion: Cytokine-induced apoptosis in colonic epithelial cells is inhibited by PAR2 signaling. Significance: PAR2 is important in maintaining intestinal epithelial homeostasis.
Epithelial permeability to ions and larger molecules in the gut is essential for fluid balance, and its dysregulation contributes to intestinal pathology. We investigated the effect of digestive serine proteases on epithelial paracellular permeability. Trypsin, chymotrypsin, and elastase elicited sustained increases in transepithelial resistance (R(TE)) in polarized monolayers of three intestinal epithelial cell lines. This effect was reflected by decreases in paracellular conductances of Na+ and Cl- and a concomitant decrease in permeability to 3,000 molecular weight dextran. The enzyme activities of the proteases were required, yet activators of known protease-activated receptors (PARs) did not reproduce the effect of these proteases on R(TE). PKCzeta isoform-specific inhibitor significantly reduced the trypsin-induced increase in R(TE) whereas PKCzeta activity was increased in cells treated with trypsin and chymotrypsin compared with control cells; this activity was reduced to control levels in the presence of PKCzeta-specific inhibitor. Ca2+ chelators and pharmacological inhibitors of cell signaling support the role for PKCzeta in the protease-induced effect. Finally, we showed that treatment with the serine proteases increased occludin immunostaining and zonula occludin-1 coimmunoprecipitation with occludin in the detergent-insoluble fraction of cell lysates, and these increases were ablated by pretreatment with PKCzeta-specific inhibitor. This finding indicates increased insertion of occludin into the cell junctional complex. These data demonstrate a role for serine proteases in the facilitation of epithelial barrier function through a mechanism that is independent of PARs and is mediated by activation of PKCzeta.
Inflammatory diseases of the gut are associated with altered electrolyte and water transport, leading to the development of diarrhea. Epithelially expressed aquaporins (AQPs) are downregulated in inflammation, although the mechanisms involved are not known. We hypothesized that AQP3 expression in intestinal epithelial cells is altered in intestinal inflammation and that these changes are driven by tumor necrosis factor (TNF) α. Human colonic adenocarcinoma (HT‐29) cells were treated with TNF
α to investigate signaling mechanisms in vitro. AQP3 expression was assessed by real‐time PCR and radiolabeled glycerol uptake, with select inhibitors and a luciferase reporter construct used to further elucidate intracellular signaling. AQP3 expression was downregulated in HT‐29 cells treated with TNF
α. Luciferase reporter construct experiments revealed that TNF
α downregulated constitutive transcriptional activity of the AQP3 promoter, and inhibition of MEK/ERK and nuclear factor κB (NF‐κB) signaling prevented the decrease in AQP3 mRNA expression. Constitutive AQP3 expression was suppressed by specificity protein (Sp) 3, and knockdown of this transcription factor bound to the AQP3 promoter was able to partially prevent the TNF
α‐induced downregulation of AQP3. TNF
α signals through MEK/ERK and NF‐κB to enhance the negative transcriptional control of AQP3 expression exerted by Sp3. Similar mechanisms regulate numerous ion channels, suggesting a common mechanism by which both ion and water transport are altered in inflammation.
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