Using Genetic Tools To Study Helicobacter Pylori Pathogenesis And Persistence
Funder
National Health and Medical Research Council
Funding Amount
$316,449.00
Summary
H. pylori infection is the leading cause of gastric ulcer disease and stomach cancer. In light of emerging antibiotic resistance and failed vaccine trials, alternative therapies are needed to treat this lifelong infection. This project aims to develop tools to identify and characterize genes required by H. pylori for infection which will serve as new drug targets. This new knowledge will also contribute to a better understanding of the persistence of this and other bacteria.
Molecular Pathogenesis Of Emerging West Nile Viruses
Funder
National Health and Medical Research Council
Funding Amount
$594,133.00
Summary
West Nile virus (WNV) is a mosquito-borne virus that causes potentially fatal encephalitis in humans and horses. This project will investigate the recent emergence of pathogenic for horses WNV in Australia and the potential of this new isolate to cause severe disease in humans. We will define the viral and host factors determining the outcome of WNV infection. This project will provide knowledge on the factors involved in the emergence of virulent WNV strains from attenuated isolates.
Understanding How The Helicobacter Pylori Pilin Protein CagL Promotes Gastric Cancer
Funder
National Health and Medical Research Council
Funding Amount
$677,177.00
Summary
The bacterium Helicobacter pylori is a major cause of gastric cancer and chronic gastritis. The bacterial protein CagL is a key disease-causing protein of H. pylori and potent stimulant of host immune responses. This study aims to understand how this virulent bacterial protein promotes cancer development, and to identify novel therapeutic targets and diagnostic markers for better management of gastric cancer and other severe chronic gastric diseases.
A Matter Of Life And Death: Defining Novel Interactions Between Uropathogenic E. Coli And Macrophages That Influence UTI Pathology
Funder
National Health and Medical Research Council
Funding Amount
$643,060.00
Summary
Urinary tract infections (UTI) are one of the most common types of infections in humans. Uropathogenic Escherichia coli (UPEC) are the major microbes causing UTI in humans. This project will define novel interactions between UPEC and macrophages, an important immune cell involved in the control of UTI. The outcomes of this project will be a better understanding of how UPEC causes disease, and potentially new treatment regimes for UTI.
KILLING OF MYCOBACTERIUM TUBERCULOSIS IN MACROPHAGES VIA THE P2X7 RECEPTOR
Funder
National Health and Medical Research Council
Funding Amount
$226,320.00
Summary
Tuberculosis remains an enormous global health problem. Some 32% of the world population are infected, with over 1 million persons dying each year. The risk of an infected individual developing clinical disease ranges from 2-23% for their lifetime. We know that both environmental factors, such as declining socio-economic conditions, and genetic risk factors such as HLA type contribute to the likelihood of an individual developing disease, but current known factors are insufficient to fully accou ....Tuberculosis remains an enormous global health problem. Some 32% of the world population are infected, with over 1 million persons dying each year. The risk of an infected individual developing clinical disease ranges from 2-23% for their lifetime. We know that both environmental factors, such as declining socio-economic conditions, and genetic risk factors such as HLA type contribute to the likelihood of an individual developing disease, but current known factors are insufficient to fully account for the risk attributed to genetics. The aim of this project is to investigate another potential risk factor involved in the development of tuberculosis, that of P2X7 receptor function. A natural compound, ATP, when added to macrophages is able to kill tuberculosis organisms residing within the macrophage. This process occurs when ATP activates the P2X7 receptor. We have recently identified a mutation in the P2X7 receptor, which causes a loss of receptor function. Individuals who have this mutation are unable to respond to ATP and hence may be unable to kill tuberculosis. Our studies will determine if the mutation we have identified in the P2X7 receptor prevents or inhibits ATP mediated killing of mycobacteria. Furthermore we will determine the frequency of this mutation in TB patients and the general population to determine if this mutation in the P2X7 receptor is a risk factor for the development of tuberculosis disease.Read moreRead less
This program will investigate the strategies used by pathogenic bacteria to cause human diseases. The research will focus on how bacteria initiate infections, how they invade, cause cell and tissue damage and respond to their human host. It will also examine how the host’s innate immune system interacts with these bacteria. The results will provide new insights into host-pathogen interactions and reveal new targets for the development of novel antibacterial drugs and vaccines.
Characterisation Of Enterohaemorrhagic Escherichia Coli Lacking Classical Virulence Markers
Funder
National Health and Medical Research Council
Funding Amount
$140,660.00
Summary
Some intestinal infections with the intestinal bacterium, E. coli, can result in severe, often fatal, kidney disease called the haemolytic uraemic syndrome. It is important for the diagnosis and treatment of this condition that the infections are detected swiftly. Current means of identifying this virulent form of E. coli are inadequate and do not account for all types of the bacteria that can cause severe disease. Children are particularly susceptible to life threatening infections with this ty ....Some intestinal infections with the intestinal bacterium, E. coli, can result in severe, often fatal, kidney disease called the haemolytic uraemic syndrome. It is important for the diagnosis and treatment of this condition that the infections are detected swiftly. Current means of identifying this virulent form of E. coli are inadequate and do not account for all types of the bacteria that can cause severe disease. Children are particularly susceptible to life threatening infections with this type of E.coli and usually acquire the infection by consuming contaminated food or water. This organism is currently a global food safety problem and the bacteria are especially prevalent in ground beef products and water or vegetables that have been contaminated with cattle faeces. In this study we aim to identify new bacterial genes and proteins that may be used to improve current means of detecting and diagnosing this kind of E.coli. A great deal is known about the way in which the classical strains of this virulent E .coli colonise the intestine however a small but significant group of these organisms do not carry known colonisation factors. We aim to identify bacterial proteins in these non-classical strains of E.coli which are needed for attachment of the bacteria to the host. Identifying how these bacteria interact with the host may help us to develop improved means of detecting and diagnosing this life-threatening infection.Read moreRead less
A Novel CD39-like Ecto-NTPDase Of Legionella Pneumophila
Funder
National Health and Medical Research Council
Funding Amount
$362,046.00
Summary
Legionnaire's disease is a serious cause of community acquired pneumonia. We are studying the way the Legionella bacteria persist in the environment and cause disease. We have found that Legionella produces a specific protein that mimics the action of a human protein. This proposal aims to work out how the bacteria use this protein to infect the human lung and escape killing by immune cells. The results from this study will help to determine if this protein may be used as a target for the develo ....Legionnaire's disease is a serious cause of community acquired pneumonia. We are studying the way the Legionella bacteria persist in the environment and cause disease. We have found that Legionella produces a specific protein that mimics the action of a human protein. This proposal aims to work out how the bacteria use this protein to infect the human lung and escape killing by immune cells. The results from this study will help to determine if this protein may be used as a target for the development of new anti-infective drugs.Read moreRead less