Inhibition of proinflammatory cytokine-induced invasiveness of HT-29 cells by chitosan oligosaccharide

The effect of chitosan oligosaccharide (COS, 1 kDa 相似文献   

TNF-alpha sensitizes HT-29 colonic epithelial cells to intestinal lactobacilli

The ability of the proinflammatory cytokine tumor necrosis factor-alpha (TNF-alpha) to influence epithelial interleukin (IL)-8 responses to the intestinal bacterium Lactobacillus plantarum 299v was analyzed in the human HT-29 colonic epithelial cell line. In the absence of TNF-alpha, IL-8 mRNA expression was not detectable by Northern blot analysis in HT-29 cells alone or in HT-29 cells co-cultured with L. plantarum 299v. However, TNF-alpha induced IL-8 mRNA expression, and co-culture of TNF-alpha-treated HT-29 cells with L. plantarum 299v significantly increased IL-8 mRNA expression above levels induced by TNF-alpha alone in an adhesion-dependent manner. The increase in IL-8 mRNA expression was not observed in TNF-alpha-treated HT-29/L. plantarum 299v co-cultures using heat-killed lactobacilli or when L. plantarum adhesion was prevented using mannoside or a trans-well membrane. Paradoxically, IL-8 secretion was decreased in TNF-alpha-treated HT-29 cells with L. plantarum 299v relative to cells treated with TNF-alpha alone. TNF-alpha-mediated responsiveness to L. plantarum 299v was further investigated by analyzing expression of a coreceptor for bacterial cell wall products CD14. HT-29 cells expressed CD14 mRNA and cell-surface CD14; however, TNF-alpha did not alter CD14 mRNA or cell-surface expression, and blockade of CD14 with monoclonal antibody MY4 did not alter the IL-8 response to L. plantarum 299v in TNF-alpha-treated HT-29 cells. These results indicate that although TNF-alpha sensitizes HT-29 epithelial cells to intestinal lactobacilli, the bacteria exert a protective effect by downregulating IL-8 secretion.     

Effects of a phorbol ester and clomiphene on protein phosphorylation and insulin secretion in rat pancreatic islets.

The potentiation of glucose-stimulated insulin release induced by 100 nM-12-O-tetradecanoylphorbol 13-acetate (TPA) was inhibited by clomiphene, an inhibitor of protein kinase C (PK C), in a dose-dependent manner. Clomiphene at concentrations up to 50 microM had a modest inhibitory action (27%) on insulin release stimulated by 10 mM-glucose alone, but had no effect on the potentiation of insulin release induced by forskolin. Islet PK C activity, associated with a particulate fraction, was stimulated maximally by 100 nM-TPA. This stimulation was blocked by clomiphene in a dose-dependent manner, with 50% inhibition at 30 microM. Incubation of intact islets with TPA after preincubation with [32P]Pi and 10 mM-glucose to label intracellular ATP resulted primarily in enhanced phosphorylation of a 37 kDa protein (mean value, +/- S.E.M., 36,700 +/- 600 Da; n = 7). This increased phosphorylation was blocked by the simultaneous inclusion of clomiphene. Subcellular fractionation revealed the presence of the 37 kDa phosphoprotein in a 24,000 g particulate fraction of islet homogenates. Neither clomiphene nor TPA affected the rate of glucose oxidation by islets. These results show that the phosphorylation state of a 37 kDa membrane protein parallels the modulation of insulin release induced by TPA and clomiphene and support a role for PK C in the insulin-secretory mechanism.     

Galectin-4 and sulfatides in apical membrane trafficking in enterocyte-like cells

We have previously reported that 1-benzyl-2-acetamido-2-deoxy-alpha-D-galactopyranoside (GalNAc alpha-O-bn), an inhibitor of glycosylation, perturbed apical biosynthetic trafficking in polarized HT-29 cells suggesting an involvement of a lectin-based mechanism. Here, we have identified galectin-4 as one of the major components of detergent-resistant membranes (DRMs) isolated from HT-29 5M12 cells. Galectin-4 was also found in post-Golgi carrier vesicles. The functional role of galectin-4 in polarized trafficking in HT-29 5M12 cells was studied by using a retrovirus-mediated RNA interference. In galectin-4-depleted HT-29 5M12 cells apical membrane markers accumulated intracellularly. In contrast, basolateral membrane markers were not affected. Moreover, galectin-4 depletion altered the DRM association characteristics of apical proteins. Sulfatides with long chain-hydroxylated fatty acids, which were also enriched in DRMs, were identified as high-affinity ligands for galectin-4. Together, our data propose that interaction between galectin-4 and sulfatides plays a functional role in the clustering of lipid rafts for apical delivery.     

NF-kappaB-inducing kinase restores defective IkappaB kinase activity and NF-kappaB signaling in intestinal epithelial cells

Cytokine-stimulated IkappaBalpha degradation is impaired in HT-29 and primary intestinal epithelial cells. To gain more insight into the mechanism of this defect, we dissected cytokine-induced NF-kappaB signaling pathway in HT-29 cells. IL-1beta and TNF, alone or in combination with IFNgamma, failed to induce IkappaBalpha or IkappaBbeta degradation in HT-29 cells. Despite similar 125I-IL-1beta binding, HT-29 cells displayed no IRAK degradation, a 75% reduction of IKK activity, and decreased IkappaBalpha phosphorylation, NF-kappaB DNA binding activity and IL-8 mRNA accumulation in response to IL-1beta compared to Caco-2 cells. Selective activation of NF-kappaB pathway by adenoviral delivery of NF-kappaB-inducing kinase (Ad5NIK) or IKKbeta (Ad5IKKbeta) strongly activated IKK activity (>20 fold) in HT-29 cells with concomitant endogenous IkappaBalpha serine 32 phosphorylation and total IkappaBalpha degradation. In addition, NF-kappaB DNA binding activity and IL-8 secretion is higher in Ad5NIK-infected than in IL-1beta-stimulated HT-29 cells. These data show that altered NF-kappaB signaling is associated with impaired stimulation of an upstream IKK activator.     

Differential effects of interleukin-2 and interleukin-4 on protein tyrosine phosphorylation in factor-dependent murine T cells

Interleukin-2 (IL-2) is a requisite factor for growth and proliferation of IL-2-dependent T cells. At present, the mechanism by which the high-affinity IL-2-IL-2 receptor interaction transmits a mitogenic signal to the cellular interior remains unclear. In this report we have used three murine T cell clones to demonstrate that IL-2 stimulates rapid tyrosine phosphorylation of several proteins. Two of these clones, CTLL-2 and CT6, exhibit a cytotoxic T cell phenotype, while the third, HT-2, was derived from a helper T cell line. All three T cell clones proliferated in response to IL-2 stimulation, but HT-2 cells also proliferated in response to interleukin-4 (IL-4). We comparatively examined the effects of IL-2 and IL-4 on protein tyrosine phosphorylation in these cells by immunoaffinity purification of phosphotyrosyl substrates with an anti-phosphotyrosine monoclonal antibody. Stimulation with concentrations of IL-2 resulting in maximal (10-30 U/ml) or sub-maximal (1-5 U/ml) proliferation caused the rapid tyrosine phosphorylation of 97 and 57 kDa proteins in all three cell lines. The 97 kDa protein was localized in the cytosol, while the 57 kDa protein was detected in both cytosolic and crude membrane fractions. IL-2-dependent tyrosine phosphorylation of an 86 kDa cytosolic protein was observed only in CT6 cells. Tyrosine phosphorylation of 22, 23 and 200 kDa proteins was also observed, but only in the cytotoxic T cell clones. Phosphoamino acid analyses revealed that the 97, 86 and 57 kDa proteins contained phosphotyrosine and phosphoserine residues. Concentrations of IL-2 below the threshold concentration for induction of a proliferative response correspondingly failed to stimulate protein tyrosine phosphorylation. In contrast, growth stimulation of HT-2 cells by IL-4 was not preceded by early changes in protein tyrosine phosphorylation, suggesting that protein tyrosine phosphorylation may not be essential for the induction of IL-4-dependent cell-cycle progression. These results demonstrate that high-affinity IL-2 receptors are coupled to tyrosine kinase activity(s) in T cells. However, the failure of IL-4 to stimulate protein tyrosine phosphorylation in the same cells indicates that enhanced protein tyrosine phosphorylation may not be requisite for growth factor-dependent T cell proliferation.     

Extracellular trafficking of myocilin in human trabecular meshwork cells

Myocilin (MYOC) is a protein with a broad expression pattern, but unknown function. MYOC associates with intracellular structures that are consistent with secretory vesicles, however, in most cell types studied, MYOC is limited to the intracellular compartment. In the trabecular meshwork, MYOC associates with intracellular vesicles, but is also found in the extracellular space. The purpose of the present study was to better understand the mechanism of extracellular transport of MYOC in trabecular meshwork cells. Using a biochemical approach, we found that MYOC localizes intracellularly to both the cytosolic and particulate fractions. When intracellular membranes were separated over a linear sucrose gradient, MYOC equilibrated in a fraction less dense than traditional secretory vesicles and lysosomes. In pulse-labeling experiments that followed nascent MYOC over time, the characteristic doublet observed for MYOC by SDS-PAGE did not change, even in the presence of brefeldin A; indicating that MYOC is not glycosylated and is not released via a traditional secretory mechanism. When conditioned media from human trabecular meshwork cells were examined, both native and recombinant MYOC associated with an extracellular membrane population having biochemical characteristics of exosomes, and containing the major histocompatibility complex class II antigen, HLA-DR. The association of MYOC with exosome-like membranes appeared to be specific, on the extracellular face, and reversible. Taken together, data suggest that MYOC appears in the extracellular space of trabecular meshwork cells by an unconventional mechanism, likely associated with exosome-like vesicles.     

Identification of proinflammatory flagellin proteins in supernatants of Vibrio cholerae O1 by proteomics analysis

The genome of Vibrio cholerae contains five flagellin genes that encode proteins (FlaA-E) of 39-41 kDa with 61-82% identity among them. Although the existing live oral attenuated vaccine strains against cholera are protective in humans, there is an intrinsic residual cytotoxic and inflammatory component associated with these candidate vaccine strains. Bacterial flagellins are known to be potent inducers of proinflammatory molecules via activation of Toll-like receptor 5. Here we found that purified flagella from wild type V. cholerae 395 induced significant release of interleukin (IL)-8 from cultured HT-29 human colonic epithelial cells. Furthermore we found that filtered supernatants of KKV90, a DeltaflaA isogenic strain unable to produce flagella, were still able to activate production of IL-8 albeit to significantly lower levels than the wild type, suggesting that other activators of proinflammatory molecules were still present in these supernatants. A comparative proteomics analysis of secreted proteins of V. cholerae 395 and KKV90 identified additional proteins with potential to induce IL-8 release in HT-29 cells. Secreted proteins in the range of 30-45 kDa identified by two-dimensional electrophoresis and mass spectrometry revealed the presence of two additional flagellins, FlaC and FlaD, that appeared to be secreted 3- and 6-fold more, respectively, in the mutant compared with the wild type. Double isogenic mutants flaAC and flaAD were unable to trigger IL-8 release from HT-29 cells. In sum, we have shown that purified flagella and secreted flagellin proteins (FlaC and FlaD) are inducers of IL-8 release from epithelial cells via Toll-like receptor 5. This observation may explain, in part, the observed reactogenicity of cholera vaccine strains in humans.     

Definition of a direct extracellular interaction between Met and E-cadherin

High levels of the Met tyrosine kinase receptor expression are associated with metastatic disease. Met activation by hepatocyte growth factor (HGF) is associated with decreased E-cadherin-dependent cell-cell contacts. The molecular mechanism underlying this process remains unclear. To better understand the relationship between E-cadherin and Met, we assessed Met localization in cells which form mature E-cadherin-dependent adhesion HT-29 and cells which have lost E-cadherin expression BT-549. Met colocalized with E-cadherin at the site of cell-cell adhesion in HT-29 cells, but Met was distributed in an intracellular compartment in BT-549 cells. Forced expression of E-cadherin in BT-549 cells recruited Met to the membrane. Cross-linking studies suggested that Met and E-cadherin interact in the extracellular domain in HT-29 cells. This is the first evidence of a physical interaction between Met and E-cadherin. We suggest that this receptor/cadherin pairing may be a mechanism for cellular presentation of receptors in a manner that localizes them optimally for interaction with ligand.     

Selective release of a processed form of interleukin 1α

Interleukin 1α (IL-1α) is synthesized as a 33 kDa form and proteolytically processed into a 17 kDa form. Although IL-1α has no signal peptide, it is released from cells. To investigate the relationship between the processing and release of IL-1α, human bladder carcinoma cells (HTB9 5637) which express IL-1α constitutively, were treated with calcium ionophore (A23187). A23187 induced the processing of 33 kDa IL-1α and selectively released processed 17 kDa IL-1α, without any change in the release of 33 kDa IL-1α. When extracellular calcium was chelated by EGTA, or when intracellular calpain was inhibited by the cell-permeable cysteine-protease inhibitor, E64d, the processing of 33 kDa IL-1α was significantly blocked, the release of 33 kDa IL-1α being unchanged. These results indicate that the release of IL-1α was accompanied by the processing of 33 kDa IL-1α.     

大黄素对HT-29细胞MAPKs信号通路活化及IL-8分泌的影响

目的：研究大黄素对IFN-和LPS刺激的人结肠癌细胞株HT-29细胞的ERK、JNK和p38MARK和IL-8表达的影响。方法：人结肠癌细胞株HT-29细胞与40ng／mL的IFN．共培养12h,再加入100ng／mLLPS刺激15min,用大黄素预处理进行干预。ELISA检测HT-29细胞内的ERK、JNK和p38MARK含量和细胞上清IL-8含量。结果：IFN-1和LPS刺激后HT-29细胞的ERK、JNK和p38MARK磷酸化水平和IL．8分泌明显升高。大黄素对p38和JNK磷酸化有明显的抑制作用,而对ERK磷酸化则没有明显抑制作用;大黄素能显著降低IFN-γ＋LPS所引起的HT-29细胞IL-8的大量产生,并且呈明显的剂量依赖关系。结论：大黄素能有效抑制IFN-γ＋LPS所引起的HT．29细胞p38和ⅢK的磷酸化,并显著降低IL-8分泌。     

Human neutrophils promote angiogenesis by a paracrine feedforward mechanism involving endothelial interleukin-8

Neovascularization by sprouting angiogenesis is critical for inflammation-mediated tissue remodeling and wound healing. We report here that human polymorphonuclear neutrophils (PMN) stimulated for 1 h with 100 nM N-formyl-methionyl-leucyl-phenylalanine (fMLP) released a proangiogenic entity that induced sprouting of capillary-like structures in an in vitro angiogenesis assay. The effect was comparable to the response obtained on stimulation with 100 ng/ml basic FGF. The PMN-mediated response was inhibited by neutralizing antibodies against VEGF or IL-8. As measured by ELISA technique, we found that fMLP-activated PMN (5 x 10(6)/ml) released 78 pg/ml IL-8 and 39 pg/ml VEGF within 1 h after stimulation. IL-8 release was blocked by actinomycin D or cycloheximide, but the inhibitors had no effect on VEGF release, suggesting that IL-8 secretion required de novo synthesis whereas VEGF was secreted from preformed stores. Accordingly, RT-PCR analysis revealed that IL-8 mRNA was upregulated on PMN stimulation, whereas the expression of VEGF mRNA was not affected. Moreover, supernatant derived from activated PMN induced upregulation of endothelial IL-8 mRNA expression, suggesting that release of VEGF and IL-8 from activated PMN may activate a paracrine feedforward mechanism involving endothelial IL-8. Moreover, VEGF-induced upregulation of endothelial IL-8 expression as well as sprouting of capillary-like structures was inhibited by a neutralizing anti-IL-8 antibody. These findings suggest that bacteria-derived tripeptides stimulate human PMN to release VEGF and IL-8, which activate endothelial cells and induce angiogenesis by a paracrine feedforward mechanism involving endothelial IL-8 upregulation.     

Brucella invasion of human intestinal epithelial cells elicits a weak proinflammatory response but a significant CCL20 secretion

In spite of the frequent acquisition of Brucella infection by the oral route in humans, the interaction of the bacterium with cells of the intestinal mucosa has been poorly studied. Here, we show that different Brucella species can invade human colonic epithelial cell lines (Caco-2 and HT-29), in which only smooth species can replicate efficiently. Infection with smooth strains did not produce a significant cytotoxicity, while the rough strain RB51 was more cytotoxic. Infection of Caco-2 cells or HT-29 cells with either smooth or rough strains of Brucella did not result in an increased secretion of TNF-α, IL-1β, MCP-1, IL-10 or TGF-β as compared with uninfected controls, whereas all the infections induced the secretion of IL-8 and CCL20 by both cell types. The MCP-1 response to flagellin from Salmonella typhimurium was similar in Brucella-infected or uninfected cells, ruling out a bacterial inhibitory mechanism as a reason for the weak proinflammatory response. Infection did not modify ICAM-1 expression levels in Caco-2 cells, but increased them in HT-29 cells. These results suggest that Brucella induces only a weak proinflammatory response in gut epithelial cells, but produces a significant CCL20 secretion. The latter may be important for bacterial dissemination given the known ability of Brucella to survive in dendritic cells.     

Release of plasminogen activator and a calcium-dependent metalloprotease from cultured sympathetic and sensory neurons

Cultures of neurons from neonatal rat superior cervical, dorsal root, and trigeminal ganglia were grown in the absence of nonneuronal cells in serum-free defined medium. Proteins metabolically labeled with radioactive amino acids and spontaneously released into the culture medium were studied using two-dimensional gel electrophoresis and photofluorography. All three populations of neurons released 12-15 major proteins into the culture medium. Four proteins were released selectively by sympathetic neurons and two proteins were consistently released by both populations of sensory neurons but not by sympathetic neurons. Enzymatic activities are associated with at least two of the released proteins. One is a calcium-dependent metalloprotease, and the other a plasminogen activator. The calcium-dependent metalloprotease has a MW of 62 kDa, requires millimolar calcium for maximum activity, and has a restricted substrate specificity. It degraded native and denatured collagen more readily than casein, albumin, or fibronectin and denatured collagen (gelatin) was a better substrate than native collagen. The plasminogen activator released by neurons has a MW of 51 kDa and is converted to an active 32 kDa form. Its physiochemical properties are similar to urokinase and it was precipitated by a rabbit antiserum produced against human urokinase. A large fraction of both proteases was released by distal processes and/or growth cones suggesting that these proteases could be involved in growth cone functions.     

1-benzyl-2-acetamido-2-deoxy-alpha-D-galactopyranoside blocks the apical biosynthetic pathway in polarized HT-29 cells

In previous work we reported that long term treatment of polarized HT-29 cells by 1-benzyl-2-acetamido-2-deoxy-alpha-d-galactopyranoside (GalNAcalpha-O-bn) induced undersialylation and intracellular distribution of apical glycoproteins such as dipeptidyl peptidase IV (DPP-IV), and we suggested therefore that sialylation could act as an apical targeting signal. In this work, the apical direct biosynthetic route was studied after transfection of polarized enterocyte-like HT-29 5M12 cloned cells with a murine cDNA coding for a soluble form of DPP-IV, which was secreted into the apical medium. A 24-h treatment of transfected cells by GalNAcalpha-O-bn markedly inhibited the apical secretion and the sialylation of this soluble murine DPP-IV, which became blocked inside the cell. A similar short GalNAcalpha-O-bn treatment also induced an intracellular distribution of both endogenous transmembrane DPP-IV and proteins involved in the regulation of the apical trafficking such as the apical t-SNARE syntaxin-3 and the raft-associated protein annexin XIIIb, whereas the basolateral t-SNARE syntaxin-4 kept its normal localization. These apical membrane proteins moved efficiently from trans-Golgi network to apical carrier vesicles but failed to be transported from carrier vesicles to the apical plasma membrane. Isolation of membrane microdomains showed that GalNAcalpha-O-bn induced the formation of abnormal lipid-rich microdomains in comparison to normal rafts, as shown by their lower buoyant density and their depletion in annexin XIIIb. In conclusion, GalNAcalpha-O-bn blocks the anterograde traffic to the apical surface of polarized HT-29 cells at the transport level or docking/fusion level of carrier vesicles.     

Inhibition of the NF-kappaB pathway in human intestinal epithelial cells by commensal Streptococcus salivarius

Streptococcus salivarius exhibited an anti-inflammatory effect on intestinal epithelial cells (IECs) and monocytes. Strains were screened using a reporter clone, HT-29/kB-luc-E, induced by tumor necrosis factor alpha (TNF-α). Supernatant from each strain downregulated NF-κB activation. The two most efficient strains produced an active metabolite (<3 kDa) which was able to downregulate the secretion of the proinflammatory chemokine interleukin-8 (IL-8).