Vi capsular polysaccharide (Vi) was first identified as a virulence antigen of Salmonella typhi, the causative agent of typhoid fever in humans; it renders S. typhi resistant to phagocytosis and the action of serum complement. However, the role of Vi during the infection of intestinal epithelium with S. typhi is not completely understood. We show here that Vi can interact with a model human intestinal epithelial cell line, Caco-2, through a cell-surfaceassociated molecular complex containing two major proteins of 30 and 35 kDa and a minor protein of Ϸ68 kDa. The two major proteins were identified as the putative tumor suppressor molecule, prohibitin, and its closely related homolog, B cell receptor-associated protein 37. These two proteins were enriched in lipid rafts, and Vi readily associated with these membrane microdomains. Engagement of Caco-2 cells with Vi inhibited their ability to produce an inflammatory response upon infection with Vi ؊ S. typhi. Consistent with this effect, infection of Caco-2 cells with Vi ؉ S. typhi produced less IL-8 compared with Vi ؊ S. typhi. Cells treated with Vi showed reduced extracellular signal-regulated kinase phosphorylation in response to infection with Vi ؊ S. typhi or stimulation with phorbol 12-myristate 13-acetate, suggesting that the mitogen-activated protein kinase pathway might be a target for Vi-mediated inhibition of inflammatory responses. These findings reveal a crucial role for Vi in the modulation of early inflammatory responses during infection with S. typhi. This kind of a modulation could play a significant role in the establishment of infection by S. typhi.Vi capsular polysaccharide ͉ putative tumor suppressor molecule ͉ IL-8
Flagellin induces inflammatory and innate immune responses through activation of Toll-like receptor 5. Here we show that proinflammatory monomeric flagellin produced by salmonella during infection of intestinal epithelial cells was not derived from polymeric bacterial cell wall-associated flagellum but instead was synthesized and secreted de novo by the bacterium after direct sensing of host-produced lysophospholipids. Inhibition of lysophospholipid biosynthesis in intestinal epithelial cells reduced flagellin production and release from salmonella. Lysophospholipids induced a cAMP-dependent signaling pathway in salmonella that resulted in production and secretion of active flagellin. The induction of Toll-like receptor ligand synthesis and secretion by a host signal represents a previously unknown regulatory mechanism for inflammation and innate immunity during infection with a bacterial pathogen.
T cells produce a number of cytokines and chemokines upon stimulation with TLR agonists in the presence or absence of TCR signals. Here, we show that secretion of neutrophil chemoattractant CXCL8 from human T cell line Jurkat in response to stimulation with TLR agonists is reduced when cell stimulation is carried out in presence of serum. Serum does not, however, inhibit TCR-activated secretion of CXCL8 nor does it down-regulate TLR-costimulated IL-2 secretion from activated T cells. The molecule that can mimic the ability to bring about suppression in CXCL8 from TLR-activated T cells is serum-borne bioactive lipid, S1P. Serum and S1P-mediated inhibition require intracellular calcium. S1P also suppresses CXCL8 secretion from peripheral blood-derived human T cells activated ex vivo with various TLR ligands. Our findings reveal a previously unrecognized role for S1P in regulating TLR-induced CXCL8 secretion from human T cells.
Several lines of evidence indicate that Fibronectin Extra Domain A (EDA) promotes metastatic capacity of tumor cells by engaging cell surface α9β1 integrins. This interaction mediated by the C-C loop of EDA activates pro-oncogenic signaling pathways leading to epithelial to mesenchymal transition (EMT) of tumor cells, thus signifying its importance in control of metastatic progression. In this context the present study was designed to explore the active compounds from selected ethno-medicinal plants of western Himalayan region for targeting EDA of Fibronectin in lung carcinoma cells. Structure based informatics for drug designing and screening was employed to generate a lead compound(s) feed that were conformationally and energetically viable. Out of 120 compounds selected, Irigenin showed best binding-affinity with C-C loop of EDA. Irigenin specifically targeted α9β1 and α4β1 integrin binding sites on EDA comprising LEU46, PHE47, PRO48, GLU58, LEU59 and GLN60 in its C-C loop as evaluated by energy decomposition per residue of Irigenin–EDA complex. In-vitro cell motility assays complemented with EDA knock-in and knockdown assays distinctively demonstrated that Irigenin prevents metastatic capacity of lung cancer cells by selectively blocking EDA. The results presented thus project Irigenin as a lead compound to overcome Fibronectin EDA induced metastatic progression in lung carcinoma cells.
Vi is a linear homopolymer of 1,4 N-acetyl galactosaminuronic acid. It is present in S. typhi and some other members of Enterobacteriaceae. Vi antigen of S. typhi has been associated with the virulence of the organism and a vaccine based upon this antigen has been found to confer immunity against typhoid. In this paper, we report production and characterization of four hybrid cell clones secreting monoclonal antibodies against Vi capsular polysaccharide. Binding analysis using different derivatives of Vi showed that three monoclonal antibodies reacted with the antigenic determinant constituted by O-acetyl group and one recognised the epitope constituted by N-acetyl and carboxyl groups together. All the antibodies bound to Vi positive strains of S. typhi and did not show any significant reactivity with Vi negative strains of S. typhi, S. paratyphi A, S. paratyphi B and E. coli. Besides their utility in studying the sub-specificity of antibodies produced after vaccination with Vi, these antibodies would be helpful in the diagnosis of typhoid fever.
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