Award details

A multivalent vaccine and single platform diagnostic for bacterial respiratory diseases of pigs

ReferenceBB/G018553/1
Principal Investigator / Supervisor Professor Paul Langford
Co-Investigators /
Co-Supervisors
Institution Imperial College London
DepartmentDept of Medicine
Funding typeResearch
Value (£) 1,532,291
StatusCompleted
TypeResearch Grant
Start date 06/11/2009
End date 05/08/2016
Duration81 months

Abstract

The worldwide economic/welfare burden resulting from bacterial respiratory diseases of pigs is enormous. Control of infection is hampered by the lack of efficacious vaccines and diagnostic tools. Problems include differentiating low/non-virulent/pathogenic strains and the incomplete correlation of phenotype to pathogenic potential. Traditional vaccines (bacterins) typically only protect against homologous strains and do not prevent colonisation. This research program concerns 4 major bacterial respiratory pathogens of pigs: A. pleuropneumoniae, H. parasuis, M. hyopneumoniae and S. suis. All cause substantial mortality and morbidity in pigs worldwide. Additionally S. suis causes severe outbreaks of human infection. There is an international imperative for improved diagnostics and vaccines for all these pathogens. Now is the opportunity to exploit genome data and technical innovations, many of which have been pioneered by the applicants. A multi-centre integrated approach will be used to develop a multivalent vaccine and single platform diagnostic for the 4 bacteria. The largest known collection of disease/non-disease associated UK isolates will be assembled and subjected to MLST and comparative phylogenetics (genomotyping). The data will be used to develop a genotypic based diagnostic. Genetic tools will be developed that allow mutagenesis and/or heterologous antigen expression. Functional genomic screens and follow up studies will identify live attenuated vaccine (LAVs) candidates and conserved immunogenic proteins. The latter will be used as the basis for protein array-based diagnostics and be heterologously expressed either in LAVs or vaccines based on protein glycan coupling technology. The multivalent vaccine and single platform diagnostics will be evaluated in experimental and field trials in collaboration with UK /Chinese veterinarians. The major deliverable will be to reduce animal suffering and the economic and welfare burden of disease in the pig industry.

Summary

Pigs can get many diseases but amongst the most serious are those caused by bacteria that can live in their throats, airways or tonsils but can also cause severe lung (or brain) infections. Large numbers of animals may die quickly (acute infection) or fail to grow normally (chronic infection). Such infections cost the world's pig industry huge sums of money each year. A major problem is that such infections are difficult to diagnose. Some strains of a particular bacterium cause disease and others do not and there is no reliable method to distinguish them. Most experts agree that the best way to control the spread of bacteria is to use a vaccine. However, current vaccines are poor. They do not prevent the spread of bacteria from animal to animal and only work against a few strains. We plan to target four of the most common bacteria that cause infections in pigs: Actinobacillus pleuropneumoniae, Haemophilus parasuis, Mycoplasma hyopneumoniae and Streptococcus suis. The last of these can also cause serious disease in humans such as blood poisoning (septicaemia) and brain infection (meningitis) especially in people who work with pigs. Our aim is to develop (1) tests that can tell which strains can cause disease or not and (2) a single vaccine that protects against more than one of the pig pathogens. We will isolate bacteria from UK pigs and, using genetic techniques, find out how many different sorts of each bacterium are present. The results will be used to develop a diagnostic test and also help in choosing appropriate vaccine candidates. The work will be done in collaboration with partners in the Veterinary Laboratories Agency, Scottish Agricultural College, Agri-Food and Biosciences Institute and Huazhong Agricultural University (Wuhan, China). A successful conclusion to the project (diagnostics and vaccines) will prevent animal suffering (through reduction in infections via vaccination, early diagnosis and treatment, prevention of unnecessary treatment) and save the pig industry substantial amounts of money contributing to the prosperity of the UK.
Committee Closed Committee - Animal Sciences (AS)
Research TopicsAnimal Health, Microbiology
Research PriorityX – Research Priority information not available
Research Initiative Longer and Larger Grants (LoLas) [2007-2015]
Funding SchemeX – not Funded via a specific Funding Scheme
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