Understanding The Disease Burden And Antibiotic Resistance In Patients With Bloodstream Infections Caused By Enterobacteriaceae In Australia
Funder
National Health and Medical Research Council
Funding Amount
$135,285.00
Summary
This study aims to establish the epidemiology of bloodstream infections caused by Enterobacteriaceae (enteric or gut bacteria) in Australia, by examining infection rates, types of antibiotic resistance present, and which treatments optimise clinical outcomes.
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.
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.
Molecular Epidemiology Of Antibiotic Resistant Salmonella Enterica Strains Causing Human Disease
Funder
National Health and Medical Research Council
Funding Amount
$493,767.00
Summary
Salmonella infections are responsible for a substantial proportion of reported food poisoning cases caused by bacteria and many of these infections are due to antibiotic resistant strains. Infections caused by antibiotic resistant organisms are hard to treat and generally more severe, of longer duration, and result in longer hospital stays. These strains are mostly acquired from foods, e.g. meats, dairy products, poultry, eggs, and other contaminated food products but can also be derived from ot ....Salmonella infections are responsible for a substantial proportion of reported food poisoning cases caused by bacteria and many of these infections are due to antibiotic resistant strains. Infections caused by antibiotic resistant organisms are hard to treat and generally more severe, of longer duration, and result in longer hospital stays. These strains are mostly acquired from foods, e.g. meats, dairy products, poultry, eggs, and other contaminated food products but can also be derived from other sources. Salmonella strains harboured by food-producing animals are the source of most of the food contamination.Tracing the source of individual resistant strains is essential for eradication and as there are many Salmonella types, some of which are found associated only with specific animals or birds, accurate identification is needed. The proposed work will make this process more accurate by using molecular techniques to unequivocally establish suspected connections and reveal further ones that are difficult to discern using current data and methods. This should decrease the number of infections due to resistant strains.Read moreRead less
Molecular Analysis Of Regulation Of Virulence Gene Expression In Pathogenic E. Coli Strains (ETEC And Atypical EPEC)
Funder
National Health and Medical Research Council
Funding Amount
$289,258.00
Summary
Infectious diarrhoea is one of the commonest human afflictions worldwide, and is responsible for the deaths of millions of children each year. One of the principal causes of diarrhoea is pathogenic E. coli, which are classified into several groups according to the factors they employ to cause disease. One type of pathogenic E. coli, known as enterotoxigenic E. coli (ETEC), causes diarrhoea resembling cholera in children in less developed countries and in adult travellers to those countries. Anot ....Infectious diarrhoea is one of the commonest human afflictions worldwide, and is responsible for the deaths of millions of children each year. One of the principal causes of diarrhoea is pathogenic E. coli, which are classified into several groups according to the factors they employ to cause disease. One type of pathogenic E. coli, known as enterotoxigenic E. coli (ETEC), causes diarrhoea resembling cholera in children in less developed countries and in adult travellers to those countries. Another type is enteropathogenic E. coli (EPEC), which causes acute and persistent diarrhoea in children worldwide. Recent studies in Melbourne and Darwin have shown that EPEC are a particularly common cause of diarrhoea in children living in those cities. Individual groups of E. coli use different strategies to cause infection. In the case of ETEC, the key step in infection is the injection of bacterial toxins into intestinal cells. These toxins perturb the ability of these cells to transport water and electrolytes across their membrane. In contrast, infection with EPEC is characterised by intimate adherence of the bacteria to the lining of the intestine, causing structural damage to intestinal cells. Because the synthesis of virulence factors is an energy-costly process for bacteria, pathogenic varieties of E. coli have evolved sophisticated mechanisms to control the production of these factors, so that they are made only when needed, e.g., under environmental conditions like those in the gut. In this project, we will investigate the ways by which ETEC and EPEC sense and respond to environmental signals to produce their virulence determinants. The identification of specific control genes and proteins of these bacteria may lead to the development of novel diagnostic tools for EPEC and help us to devise new treatment strategies to block the production of virulence factors by pathogenic E. coli.Read moreRead less
Functional Characterisation Of The SseK/NleB Family Of Type III Secreted Effectors In Salmonella And E. Coli
Funder
National Health and Medical Research Council
Funding Amount
$510,183.00
Summary
Salmonella and E. coli cause enteritis and diarrhoea in a large proportion of the world's population including Australia. Certain strains of Salmonella also cause a more serious disease called typhoid fever. Together, diseases caused by Salmonella and E. coli are a major cause of illness and death. In order to cause disease Salmonella and E. coli use a specialised apparatus that functions like a needle and syringe to inject Salmonella proteins into human cells. These proteins that are injected i ....Salmonella and E. coli cause enteritis and diarrhoea in a large proportion of the world's population including Australia. Certain strains of Salmonella also cause a more serious disease called typhoid fever. Together, diseases caused by Salmonella and E. coli are a major cause of illness and death. In order to cause disease Salmonella and E. coli use a specialised apparatus that functions like a needle and syringe to inject Salmonella proteins into human cells. These proteins that are injected into human cells actively reprogram human cells to benefit the disease causing bacteria. We have recently discovered a new family of injected proteins and we aim to determine how these new proteins reprogram human cells and what this contributes to diarrhoea and typhoid fever. This information may lead to the development of more effective treatments for these important diseases.Read moreRead less