Award details

Molecular Mechanisms underlying the Interaction of Salmonella Enteritidis with the Hen Oviduct and Survival in Eggs

Reference	BB/F007221/1
Principal Investigator / Supervisor	Professor Tom Humphrey
Co-Investigators / Co-Supervisors
Institution	University of Bristol
Department	Clinical Veterinary Science
Funding type	Research
Value (£)	351,595
Status	Completed
Type	Research Grant
Start date	01/09/2008
End date	31/08/2011
Duration	36 months

Abstract

The proposed work will; identify the molecular bases for the tropism of Salmonella Enteritidis (SE) for hen reproductive tissues; determine the molecular bases underlying the survival of SE in avian macrophages; determine which components of LPS regulate SE persistence in reproductive tissues and survival in forming eggs in vivo and identify the genetic determinants that permit certain SE isolates, which contain an 83 kb plasmid, to grow rapidly in fresh eggs, undermining current shelf life-based control measures. The work will explore the hypothesis that SE has cell surface determinants, unique amongst non-host-adapted salmonellae that ideally suit it to contaminate eggs, in vivo and that subtle differences in LPS structure differentiate it from STm and other poultry-associated salmonellae in this respect. In particular, we will identify the major SE genes, including 5 genomic islands, which are different from STm, that regulate infection of the hen oviduct and survival and growth in the forming and laid egg. It is difficult to exaggerate the importance of SE as a zoonotic pathogen and a better understanding of the interaction between this bacterium and its avian host could eventually enhance animal welfare and improve food safety by improving the already quite successful vaccines. Improved component vaccines, which take account of the key behaviours of SE in the avian reproductive tract, are sorely needed. In addition, current vaccines are based on SE phage type (PT) 4 and the continued evolution of SE has meant that other PTs are more common in human cases. These strains could undermine the current vaccine-based control measures in the UK and elsewhere, if they become established in the food chain.

Summary

The food industry strives to minimise the risks of salmonella food poisoning for consumers. Of the ~ 2500 different types of salmonella (serovars) the most important one associated with food is Salmonella Enteritidis (SE) and many people become ill through the consumption of infected eggs although, outside the UK, poultry meat can also be contaminated. SE is so important as a human pathogen because it is not confined to egg shells like almost all other salmonellae and can infect egg contents while they are still inside the hen. The bacterium is also better able to survive and grow in egg contents than other salmonellas. The UK egg industry has been very successful in controlling the endemic strains of SE that infect people in this country because hens are given an anti-SE vaccine. This important control policy is under threat because other types of salmonella have been shown to be able to infect egg contents. In addition, the importation of eggs from outside the UK has introduced different SE types into the country, which might not be as well controlled by vaccination, as current vaccines are based on endemic SE strains. SE seems to be ideally suited to infect chickens. It is naturally invasive in this animal, is able to infect and persist in hen reproductive tissues and to move from there into the contents of the forming egg. Once inside the egg it is better able to subvert the anti-bacterial defences of the albumen than other salmonella and better able to grow in whole eggs, once they have been laid. The worldwide egg-associated pandemic of human SE infection has infected many millions of people and claimed many thousands of lives. It has also proved to be an enormous financial burden to governments and the international egg industry. Despite the pandemic lasting over 20 years, little is known about the behaviour of SE in the hen and why it is apparently so adept at infecting eggs in vivo. If consumers are to be better protected from egg borne salmonellosis it isvital that vaccines protect chickens from different types of SE. This requires a much better understanding of what makes SE special as an avian pathogen. The purpose of this work is to identify the characteristics that allow SE to infect and persist in hen reproductive tissues and that differentiate it from other salmonellae found in poultry. The work will explore the hypotheses that SE surface structures different from those in other salmonellae allow the bacterium is persist in the tissues and infect eggs. A better understanding of the interaction between SE and the hen could eventually enhance animal welfare and improve food safety by allowing the development of improved 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

Associated awards:

BB/F007973/1 Molecular Mechanisms underlying the Interaction of Salmonella Enteritidis with the Hen Oviduct and Survival in Eggs

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