Award details

Activities of Salmonella flagellin: FliCing immunity on and off and from Th1 to Th2

Reference	BB/F022778/1
Principal Investigator / Supervisor	Professor Adam Cunningham
Co-Investigators / Co-Supervisors
Institution	University of Birmingham
Department	Immunity and Infection - Immunology
Funding type	Research
Value (£)	438,458
Status	Completed
Type	Research Grant
Start date	19/12/2008
End date	18/12/2011
Duration	36 months

Abstract

Salmonella infections are major health and economic burdens in humans and live-stock. Resolution of primary infection requires CD4 Th1 cell interaction with macrophages whereas optimal immunity against reinfection also requires B cells. The TLR5 agonist flagellin is the immunodominant T cell antigen recognised during these infections, yet flagellin is dispensable for virulence. Our experiments suggest responses to flagellin can be double-edged. When given as a soluble protein a strong Th2 response is induced, yet the response to bacterial surface localised flagellin is Th1. Surprisingly, considering its immunodominance, vaccination with soluble flagellin is not protective even though high antibody titres are induced. Furthermore soluble flagellin can impair the protection afforded by a live vaccine in part by suppressing IFNg production from flagellin-specific CD4 T cells yet soluble FliC-primed Th2 transgenic T cells transferred into Rag1-/- mice can protect. Additionally flagellin can induce a hypersensitivity reaction in mice that have residual Salmonella infection. The aim of this project is to unravel the mechanisms by which these various positive and negative activities are mediated to improve vaccine design and reduce the disease burden caused by these infections in humans and live-stock. Specifically we wish to: 1. Identify if Th2 responses to soluble FliC can be redirected to Th1 and whether this improves protection to STm infection 2. To investigate the mechanism(s) by which flagellin's intrinsic properties can harm the host 3. To test whether the predominance of responses to flagellin in wild-type (WT) mice favours the host or the pathogen The purpose is to exploit the immunodominance of flagellin to improve the Th1 protection immune responses targeted against the protein offer. At the same time this needs to be achieved by understanding, and bypassing, the negative effects flagellin can have on the host.

Summary

Infections caused by Salmonella have a massive impact on human and live-stock health. In terms of disease they are amongst the leading causes of gastroenteritis in the UK, but their impact in other countries is much more serious where Salmonella kills over a million people every year. Clearing a primary Salmonella infection requires Salmonella-specific CD4 T cells to become activated. These T cells then polarize to become one of two types, a Th1 or Th2 cell. Th1 cells are best at activating cells that actively kill and digest bacteria (macrophages). When the same infection is re-encountered other cell-types including B cells that can develop to produce antibody are also important for optimal immunity. One of the most, if not the most, commonly recognized T cell antigen from Salmonella is flagellin and it is also a major target of B cell responses. Flagellin is the major constituent of long whip-like structures called flagella that are anchored into the cell wall and involved in bacterial motility. Although not required for virulence their extension far beyond the wall of the bacterial cell, and strong recognition by the innate and adaptive immune system make them important to study. Because so much of this protein is exposed to the host it makes a good target for the host to target, but their location outside the bacterium also offers a means by which the bacterium can interact with and affect the host. We found the immune response to flagellin can alter to be Th1 or Th2 depending upon how the protein is encountered by the immune system. Despite provoking a strong immune response immunization with FliC does not protect against Salmonella infection. Indeed when flagellin was given alongside an effective live bacterial vaccine we showed it reduced protection by impairing the production of a key Th1 molecule IFNg. Under some circumstances we noticed that flagellin can induce a hypersensitivity reaction in the host. This was seen when flagellin protein was given when small numbers of bacteria were present after a previous Salmonella infection. In contrast, when the infection had resolved this hypersensitivity reaction was not seen. This is of significance since flagellin has been proposed as a possible adjuvant in humans. Thus flagellin offers many paradoxes such as being the major target of the immune response to Salmonella yet these responses may sometimes not protect or may even do harm, and flagellin is even dispensable for virulence. This project wants to expand our preliminary and published findings to understand more about the complex relationship between the host, flagellin and Salmonella. We wish to identify: 1. Why does flagellin induce a Th2 response and whether the direction of the T cell response induced against isolated flagellin can be altered from a Th2 response to a Th1 response that then offers protection against infection? 2. How the intrinsic properties of flagellin may harm the host? 3. Whether the dominance of the T cell response to this one antigen enhances clearance of bacteria from the host is a mechanism by which the bacterium evades immunity? We will do this by using a mouse model of infection and vaccination. Microscopy will be used to examine tissues and allow the identification of where cells reside such as flagellin-specific T and B cells. More detail on the phenotype of cells will be attained using flow cytometry and gene expression will be assessed by the polymerase chain reaction. The work will offer insights into i) whether this potent protein may be used in a vaccine by altering how it is given to the host; ii) how effective vaccines to Salmonella should be designed and iii) whether potential problems such as hypersensitivity responses can be avoided during the administration of vaccines.

Committee	Closed Committee - Agri-food (AF)
Research Topics	Animal Health, Immunology, Microbial Food Safety, Microbiology
Research Priority	X – Research Priority information not available
Research Initiative	X - not in an Initiative
Funding Scheme	X – not Funded via a specific Funding Scheme

I accept the terms and conditions of use (opens in new window)

export PDF file

back to list new search