Understanding The Role Of O-linked Glycosylation In Burkholderia Cenocepica For Host Survival Using Proteomic Approaches
Funder
National Health and Medical Research Council
Funding Amount
$222,004.00
Summary
The bacteria Burkholderia cenocepecia (Bc) is a common infection of Cystic Fibrosis suffers in Australia. ~20% CF patients infected with Bc will die due to lung failure. Due to this high death rate there is an urgent need to understand how Bc survives and causes disease in the host. This grant aims to understand how the attachment of sugars, a process known as glycosylation, affects the ability of Bc to survive in mammalian cells.
Functional characterisation of poly-histidine triad proteins. This project aims to understand the role and function of a novel family of surface proteins produced by Streptococci. These so-called polyhistidine triad proteins are known to contribute to capacity to cause disease in animals and humans, but we need to know how they work, as they may be excellent targets for novel drugs or vaccines.
Novel perspectives on the function of AB5 toxin B subunits in pathogenic bacterial. AB5 toxins are produced by bacteria that cause important diseases in humans and livestock. This project tests the hypothesis that the components of the toxins responsible for binding to host cells and tissues also directly contribute to cellular damage, thereby providing a better understanding of how AB5 toxin-producing bacteria cause disease.
How bacteria cause disease in the urinary tract. This project will investigate the virulence properties of uropathogenic Escherichia coli, the major causative agent of urinary tract infections (UTI) in humans. The results will help to understand how these bacterial pathogens cause disease and will impact strategies aimed at the prevention and treatment of chronic and recurrent UTI.
The Identification Of Novel Diagnostics And Therapeutics From Bacterial Viruses Specific For The Foodborne Pathogen Campylobacter Jejuni Using Mass Spectrometry.
Funder
National Health and Medical Research Council
Funding Amount
$313,788.00
Summary
Campylobacter jejuni is the leading cause of foodborne illness within Australia. To improve food safety there is a critical need for new therapeutics and diagnostics that target this agent. Within nature bacterial viruses possess proteins that can perform such a task. By using mass spectrometric analysis we aim to exploit billions of years of co-evolution to identify bacterial viral proteins that bind C. jejuni to identify novel means to limit and lower C. jejuni numbers in food sources.
A single vaccine for influenza and pneumonia. Influenza and bacterial pneumonia collaborate to kill millions of people each year. This project aims to develop a single vaccine that will provide long-lasting protection against both influenza and pneumonia.
Circuit Breaker: Investigating The Regulatory Circuits Controlling Expression Of Drug Efflux Pumps In The Nosocomial Pathogen Acinetobacter Baumannii
Funder
National Health and Medical Research Council
Funding Amount
$515,244.00
Summary
Hospital-acquired infections caused by drug resistant pathogenic bacteria cost billions of dollars and increase patient pain and morbidity. This research will study the genes controlling multidrug efflux pumps in a major hospital-acquired bacterial pathogen, Acinetobacter baumannii. These efflux pumps make the bacteria resistant to antimicrobials by pumping them out of the cell. The results will allow us to better track drug resistant strains and will inform treatment options.
Investigating The Antimicrobial Activity Of Zinc At The Host-pneumococcal Interface
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
Streptococcus pneumoniae is a human-only bacterium that is responsible for killing more than one million people every year. This project will analyse how the human immune system fights this bacterium, and subsequently, how the bacteria manages to subvert these attacks and survive in the human host. This will provide crucial information for developing new drugs against this pathogen, in an attempt to combat the ever-increasing problem of antibiotic resistance.
Eradication Of High-risk Bacterial Clones Using Bacteriophages
Funder
National Health and Medical Research Council
Funding Amount
$685,070.00
Summary
Nature offers remedies to the spread of dangerous antibiotic resistant bacteria in the form of predatory viruses (bacteriophages). In this project, we will define optimal mixtures of these for killing problem bacterial types, the mechanisms by which bacterial resistance develops, the best approach to identifying susceptible bacteria and to using these viruses to eradicate them, and we will test a carefully optimised bacteriophage therapy in humans colonised by the dangerous E. coli ST131 strain.
Bacterial Inhibition Of Cell Signalling And Apoptosis During Gastrintestinal Infection
Funder
National Health and Medical Research Council
Funding Amount
$542,011.00
Summary
E. coli are a major cause of severe diarrhoeal disease. In order to establish infection, E. coli inhibits a host response where cells with bacteria stuck to them are ‘killed off’ and excreted as waste. This recent discovery illuminated an unknown role for cell death in the immune response during bacterial gastroenteritis. This project will study this phenomenon further to better understand the host immune response to infection and also other gut diseases such as inflammatory bowel disease.