Discovery Early Career Researcher Award - Grant ID: DE120101340
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Subversion of innate immune responses by pathogenic Escherichia coli. This project will determine how bacteria that cause diarrhoeal diseases prevent the immune system from signalling efficiently. It will provide important information not only about how the bacteria establish disease, but also provide insight into the host response in the early stages of infection.
Understanding Respiratory Infections To Improve Vaccines
Funder
National Health and Medical Research Council
Funding Amount
$268,497.00
Summary
Indigenous children have the highest rates of ear disease (OM) and associated hearing loss in the world. Papua New Guinea has the highest child mortality rates in the Western Pacific Region with 23% of deaths from pneumonia. OM and pneumonia vaccines can be improved through broadening their coverage of disease-causing pathogens. This study will identify the pathogens that currently cause OM in Indigenous children and pneumonia in PNG, and will measure the immune responses to these pathogens, in ....Indigenous children have the highest rates of ear disease (OM) and associated hearing loss in the world. Papua New Guinea has the highest child mortality rates in the Western Pacific Region with 23% of deaths from pneumonia. OM and pneumonia vaccines can be improved through broadening their coverage of disease-causing pathogens. This study will identify the pathogens that currently cause OM in Indigenous children and pneumonia in PNG, and will measure the immune responses to these pathogens, in order to develop improved vaccines.Read moreRead less
Bacterial And Host Drivers Of Fulminant Community-acquired Acinetobacter Baumannii Infection
Funder
National Health and Medical Research Council
Funding Amount
$729,315.00
Summary
This proposal aims to understand how a bacterial pathogen causes severe, life-threatening infections in people from the community in northern Australia. This severe infection particularly impacts people who drink excess alcohol or have diabetes mellitus, and importantly impacts Indigenous Australians the greatest. This work will provide, for the first time, important insights into new prevention and treatment strategies for a serious infection impacting Australians and those in our region.
Tuberculosis is one of the most threatening infectious diseases worldwide due to the low efficiency of the only licensed anti-tuberculosis vaccine, BCG. This project aims to interrogate two previously neglected immune mechanisms and their potential to enhance vaccine-induced immunity by incorporating these mechanisms into new genetically modified BCG strains. We will also investigate alternative BCG vaccination routes to generate long-lived immune cells that can rapidly control the infection.
Genes Of Mycobacterium Tuberculosis Essential For Latent Tuberculosis Infection
Funder
National Health and Medical Research Council
Funding Amount
$590,103.00
Summary
One third of the worlds population is latently infected with M. tuberculosis, the bacteria which causes TB. We have identified key genes in M. tuberculosis that enable the bacterium to shut-down and become latent. This project will investigate these genes, identify their role and yield vital information for a new paradigm of drug and vaccine development. Improved vaccines and drugs which can target and inhibit latency would be of enormous benefit to the global community.
Crohn’s disease (CD), an inflammatory disorder of the gut, is thought to result from an inappropriate response to an environmental trigger, likely gut bacteria. This project will assess differences in microbial communities and host gene expression of early- and late-stage CD tissues. A greater understanding of the differences in mucosal gene expression induced by specific bacteria may provide insights into the pathophysiology of CD, and could conceivably guide therapeutic choices in the future.
Interactions Between Host And The Gut Microbiome In The Pathogenesis Of Ankylosing Spondylitis And Crohn's Disease
Funder
National Health and Medical Research Council
Funding Amount
$572,227.00
Summary
Ankylosing spondylitis (AS) and Crohn's disease (CD) are common immune-mediated diseases affecting primarily the joints of the spine and the gut respectively. Genes play a major role in determining the risk of each disease, and it is likely that those genes cause the disease by interaction with some environmental factor, most likely bacteria residing in the gut. This study aims to test that hypothesis by profiling the bacteria in the gut of patients with the diseases and healthy subjects.
Enhancing Host Defence Mechanisms In Severe Bacterial Infections
Funder
National Health and Medical Research Council
Funding Amount
$830,447.00
Summary
New options to treat bacterial infections are needed because of the rapid increase in antibiotic resistance. One very attractive strategy is to boost the body’s own defence mechanisms against bacteria. This project defines novel molecular mechanisms that can be manipulated to better control a bacterial infection. Novel drugs targeting these molecular pathways are already being developed, albeit for cancer. This project will help assess if these drugs may be useful to treat infections.
Host-pathogen Interactions In Clostridial Myonecrosis
Funder
National Health and Medical Research Council
Funding Amount
$897,617.00
Summary
This project will show how the bacteria that cause gas gangrene interact with host cells in an infection. We will examine the expression of genes from both the host and the pathogen in a mouse disease model. The aims are to determine the impact of bacterial genes that are differentially regulated in an infected lesion, how gene expression of both the host and pathogen is modulated throughout the course of an infection and the role of host pathways in controlling the infection process.
Host innate defence relies on the activation of several signalling pathways that regulate inflammation and cell death. Several important bacterial pathogens of humans inject virulence “effector” proteins into infected cells that interrupt host cell signalling pathways. We recently discovered a family of new effector proteins that directly degrade host proteins and block cell death. Here we will characterise this and other members of the family to understand their role during infection.