Replacement of two aminoacids in the bovine Toll-like receptor 5 TIR domain with their human counterparts partially restores functional response to flagellin (original) (raw)
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Functional characterisation of bovine TLR5 indicates species-specific recognition of flagellin
Veterinary Immunology and Immunopathology, 2014
Mammalian toll-like receptor 5 (TLR5) senses flagellin of several bacterial species and has been described to activate the innate immune system. To assess the role of bovine TLR5 (boTLR5) in the cattle system, we cloned and successfully expressed boTLR5 in human embryonic kidney (HEK) 293 cells, as indicated by quantitative PCR and confocal microscopy. However, in contrast to huTLR5-transfected cells, exposure of boTLR5transfected cells to flagellin neither activated nuclear factor kappa-light-chain-enhancer of activated B cells (NF-B) nor CXCL8 production. Subsequent comparison of the flagellin response induced in human and bovine primary macrophages revealed that flagellin did not lead to phosphorylation of major signalling molecules. Furthermore, the CXCL8 and TNF␣ response of primary bovine macrophages stimulated with flagellin was very low compared to that observed in human primary macrophages. Our results indicate that cattle express a functional TLR5 albeit with different flagellin sensing qualities compared to human TLR5. However, boTLR5 seemed to play a different role in the bovine system compared to the human system in recognizing flagellin, and other potentially intracellular expressed receptors may play a more important role in the bovine system to detect flagellin.
Expression, purification, and functional characterisation of Flagellin, a TLR5-ligand
Flagellin, a Toll-like receptor 5 (TLR5)-ligand, is known for its activities like adjuvant, induction of pro-inflammatory cytokines and innate immunity. In this context, fliC gene of Salmonella Typhimurium was cloned into pET32a expression plasmid using in-house designed gene specific primers. The frame and orientation of the inserted fliC gene was confirmed upon colony PCR, restriction enzyme analysis and sequencing. Sequence analysis of fliC revealed proper orientation of the gene and had 1,485 nucleotides. Following transformation of pET-fliC plasmid into Escherichia coli BL21 (DE3) cells, the gene was expressed after inducing with IPTG (Isopropylβ-D-1-thiogalactopyranoside). The polyHis-tag-fliC was ~70kDa as confirmed by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). The identity/authenticity of the recombinant-fliC was confirmed by its specific reactivity with commercial anti-fliC MAb of S. Typhimurium. Further, the antigenic and functional properties of recombinant-fliC were determined espousing its ability to induce antigen specific antibodies in G pigs and increased m-RNA expression of certain pro-inflammatory mediators like TNF-α and GM-CSF in vitro.
TLR5 functions as an endocytic receptor to enhance flagellin‐specific adaptive immunity
European journal of …, 2011
Innate immune activation via TLR induces dendritic cell maturation and secretion of inflammatory mediators, generating favorable conditions for naïve T-cell activation. Here, we demonstrate a previously unknown function for TLR5, namely that it enhances MHC class-II presentation of flagellin epitopes to CD4 1 T cells and is required for induction of robust flagellin-specific adaptive immune responses. Flagellin-specific CD4 1 T cells expanded poorly in TLR5-deficient mice immunized with flagellin, a deficiency that persisted even when additional TLR agonists were provided. Flagellin-specific IgG responses were similarly depressed in the absence of TLR5. In marked contrast, TLR5deficient mice developed robust flagellin-specific T-cell responses when immunized with processed flagellin peptide. Surprisingly, the adaptor molecule Myd88 was not required for robust CD4 1 T-cell responses to flagellin, indicating that TLR5 enhances flagellin-specific CD4 1 T-cell responses in the absence of conventional TLR signaling. A requirement for TLR5 in generating flagellin-specific CD4 1 T-cell activation was also observed when using an in vitro dendritic cell culture system. Together, these data uncover an Myd88-independent function for dendritic cell TLR5 in enhancing the presentation of peptides to flagellin-specific CD4 1 T cells.
Structural Study of Binding of Flagellin by Toll-Like Receptor 5
Journal of Bacteriology, 2003
In order to predict the binding regions within the complex formed by Toll-like receptor 5 (TLR-5) and flagellin, a complementary hydropathy between the two proteins was sought. A region common to the flagellins of Salmonella enterica serovar Typhimurium, Pseudomonas aeruginosa, and Listeria monocytogenes was shown to be hydropathically complementary to the 552-to-561 fragment of TLR-5, whose sequence is EILDISRNQL. The hydrophobicity profile of this region is shared with flagellins of 377 bacterial species out of a total of 723 publicly available sequences. A conformational analysis of the predicted binding site of TLR-5, whose structure is still unknown, was carried out with a methodology already applied to similar problems. To sample the conformations available to the peptide chain, a plot of the number of conformations per unit energy interval (density of states) versus energy was built. Following a theoretical argument, conformations belonging to maxima in this plot were selecte...
Activation of NLRC4 downregulates TLR5-mediated antibody immune responses against flagellin
Cellular and Molecular Immunology, 2015
Bacterial flagellin is a unique pathogen-associated molecular pattern (PAMP), which can be recognized by surface localized Toll-like receptor 5 (TLR5) and the cytosolic NOD-like receptor (NLR) protein 4 (NLRC4) receptors. Activation of the TLR5 and/or NLRC4 signaling pathways by flagellin and the resulting immune responses play important roles in anti-bacterial immunity. However, it remains unclear how the dual activities of flagellin that activate the TLR5 and/or NLRC4 signaling pathways orchestrate the immune responses. In this study, we assessed the effects of flagellin and its mutants lacking the ability to activate TLR5 and NLRC4 alone or in combination on the adaptive immune responses against flagellin. Flagellin that was unable to activate NLRC4 induced a significantly higher antibody response than did wild-type flagellin. The increased antibody response could be eliminated when macrophages were depleted in vivo. The activation of NLRC4 by flagellin downregulated the flagellin-induced and TLR5-mediated immune responses against flagellin.
Effects of flagellin on innate and adaptive immunity
2005
Bacterial flagella, complex organelles composed of a basal body, hook, motor, and filament, play a major role in motility and chemotaxis (1,2). Flagellin is the major protein of the flagellar filament. Analysis of the flagellin amino acid sequences from Grampositive and -negative bacteria revealed the presence of highly conserved sequences at the amino and carboxyl termini (3,4). Conservation of the terminal sequences of flagellin may be maintained due to the critical role of these regions in the structure and function of flagella. In contrast, the region between the
The Journal of …, 2001
Flagellin, the structural component of bacterial flagella, is secreted by pathogenic and commensal bacteria. Flagellin activates proinflammatory gene expression in intestinal epithelia. However, only flagellin that contacts basolateral epithelial surfaces is proinflammatory; apical flagellin has no effect. Pathogenic Salmonella, but not commensal Escherichia coli, translocate flagellin across epithelia, thus activating epithelial proinflammatory gene expression. Investigating how epithelia detect flagellin revealed that cell surface expression of Toll-like receptor 5 (TLR5) conferred NF-B gene expression in response to flagellin. The response depended on both extracellular leucine-rich repeats and intracellular Toll/IL-1R homology region of TLR5 as well as the adaptor protein MyD88. Furthermore, immunolocalization and cell surface-selective biotinylation revealed that TLR5 is expressed exclusively on the basolateral surface of intestinal epithelia, thus providing a molecular basis for the polarity of this innate immune response. Thus, detection of flagellin by basolateral TLR5 mediates epithelial-driven inflammatory responses to Salmonella.
AJP: Gastrointestinal and Liver Physiology, 2006
Salmonella typhimurium is a gram-negative enteric pathogen that invades the mucosal epithelium and is associated with diarrheal illness in humans. Flagellin from S. typhimurium and other gram-negative bacteria has been shown to be the predominant proinflammatory mediator through activation of the basolateral Toll-like receptor 5 (TLR5). Recent evidence has shown that prior exposure can render immune cells tolerant to subsequent challenges by TLR ligands. Accordingly, we examined whether prior exposure to purified flagellin would render human intestinal epithelial cells insensitive to future contact. We found that flagellin-induced tolerance is common to polarized epithelial cells and prevents further activation of proinflammatory signaling cascades by both purified flagellin and Salmonella bacteria but does not affect TNF-α stimulation of the same pathways. Flagellin tolerance is a rapid process that does not require protein synthesis, and that occurs within 1 to 2 h of flagellin ex...