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Infection and immunity in the bovine genital tract

ReferenceBB/F005121/1
Principal Investigator / Supervisor Professor Iain Sheldon
Co-Investigators /
Co-Supervisors		 Professor Clare Bryant, Professor John White
Institution Royal Veterinary College
DepartmentClinical Sciences and Services
Funding typeResearch
Value (£) 173,587
StatusCompleted
TypeResearch Grant
Start date 04/06/2007
End date 03/08/2008
Duration14 months

Abstract

Infection of the uterus by bacteria causes infertility in mammals. This is a particular problem in dairy cattle, where conception rates are at an all time low and bacterial infection of the uterus affects up to 40% of animals. Not only is the uterus damaged, but there is perturbation of ovarian follicle and corpus luteum function, and embryo mortality. The front-line defense against bacterial infection rests in the innate immune system and the Toll-like Receptors are a key component for pathogen recognition, which activate MAPK and/or NFkB pathways leading to secretion of cytokines and an inflammatory response. The present project aims to identify the molecular and cellular mechanisms underlying the infertility associated with uterine infection in cattle. The hypothesis that genes associated with the endometrial cell immune responses are differentially regulated in animals with different uterine disease outcome, will be tested by comparing the expression of a panel of genes associated with immunity and inflammation in the endometrium. Endometrium has been collected at 3 time points from animals undergoing in vivo infection that resulted in (1) no pathology, (2) subclinical, or (3) clinical disease, and will be examined using RT-PCR and in situ hybridization. The hypothesis that tissues and cells of the reproductive tract have the immune capability to detect pathogens or their associated molecules and that this leads to modulation of their function, will be explored using pure populations of cells from the uterus and the ovary, and embryos, challenged with specific bacteria or their pathogen associated molecules. Finally we will use siRNA, chemical and pharmaceutical compounds to test the hypothesis that blocking the MAPK or the NFkB pathways in uterine epithelial and stromal cells will suppress the immune and endocrine response to bacteria. The long-term aim is to develop better strategies to limit the impact of disease on the animal and improve animal welfare.

Summary

Uterine infection after parturition is one of the most common endemic diseases of dairy cattle, leading to infertility, increased culling, pain and suffering. Dairy cattle are notable amongst mammals because bacterial contamination of the uterus is ubiquitous after calving and up to 40% of animals develop uterine disease. The diagnosis of uterine disease is straightforward, but the incidence of disease is increasing. The treatments have changed little over the last 30 years, and animals are still sub-fertile even after resolution of the clinical signs. However, whilst some animals have severe disease others efficiently eliminate the bacteria from the uterus after calving, don't develop disease, and are highly fertile. The unanswered questions are about how bacteria are detected by the immune system in the uterus and why some cattle are so prone to disease; how the bacteria cause infertility; and, how the impact of uterine disease can by reduced? The aim of the project is to identify the molecular and cellular mechanisms underlying the infertility associated with uterine infection in dairy cattle. The objectives are: 1. Establish the differential regulation of genes associated with uterine infection and immunity in animals with disparate uterine disease outcomes. 2. Measure the immune responses to the two key bacteria (Escherichia coli; Arcanobacterium pyogenes) and their pathogen associated molecules by reproductive tissues and the impact on the function of uterine and ovarian cells, and the embryo. 3. Determine the effect of blocking key immune signaling pathways on the uterine cell inflammatory response. The expected benefits from exploiting the knowledge generated about uterine disease are: 1. Improved animal welfare by reducing the incidence and severity of uterine disease. 2. Increased sustainability of dairy farming, by reducing the impact of disease on fertility and the cost of disease to the farmer. 3. Reducing the impact on the food chain, by reducing disease and the application of treatments in animals producing milk for human consumption. 4. Increased sustainability of the environment by producing milk from fewer more fertile cows, and thus reduce greenhouse gas emissions, including saving 113 tonnes of CO2 emissions per year. To drive commercialisation and development of the knowledge from the project we have developed a partnership with the biggest veterinary pharmaceutical company in the world, Pfizer Animal Health, as well as exploiting collaborations with international experts from the UK, USA and Italy.
Committee Closed Committee - Animal Sciences (AS)
Research TopicsAnimal Health, Immunology, Microbiology
Research PriorityX – Research Priority information not available
Research Initiative LINK: Sustainable Livestock Production (SLP) [1996-2010]
Funding SchemeX – not Funded via a specific Funding Scheme
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