Environmental Regulation Of Virulence In Attaching And Effacing Enterobacteria
Funder
National Health and Medical Research Council
Funding Amount
$569,063.00
Summary
Disease-causing bacteria must respond to the extreme conditions, such as acid and bile, which they encounter in their hosts. They achieve this by sensing their environment and activating genes that enhance their survival and ability to cause disease. In this project we will define the mechanisms by which these sensing and response pathways occur, using E. coli as a model. The information obtained from this research should lead to new strategies to treat and prevent bacterial infections.
Characterisation Of A Newly-discovered, Virulence-associated, Protein Secretion System Of Enteropathogenic E. Coli
Funder
National Health and Medical Research Council
Funding Amount
$582,149.00
Summary
The cell walls of bacteria act as a barrier to the export of any proteins they produce. We recently discovered a protein secretion system, which diarrhoea-causing strains of E. coli require to cause disease. The aim of this study is to characterise this secretory system, and discover how it functions and what it secretes. The knowledge obtained from this research will shed new light on how E. coli causes disease and could reveal novel methods to treat and prevent infections with this bacterium.
Virulence Strategies Of LEE-negative Shiga Toxigenic Escherichia Coli
Funder
National Health and Medical Research Council
Funding Amount
$230,246.00
Summary
Shiga toxigenic Escherichia coli (STEC) are a diverse group of pathogens that cause serious gastrointestinal disease in humans, which can lead to life-threatening complications. This project is aimed at understanding how these bacteria cause disease, and is focused on a subset of STEC strains that are highly virulent and produce a novel cytotoxin. A better understanding of the pathogenic mechanisms of STEC is essential for development of improved therapeutic and preventative strategies.
The Role Of Renal Dendritic Cells In Infection And Immunity Under Immunosuppression
Funder
National Health and Medical Research Council
Funding Amount
$475,143.00
Summary
Kidney transplantation is the best treatment for kidney failure but it is frequently complicated by bacterial and viral infections that can cause rejection and may cause loss of the kidney. This grant will study the role that dendritic cells in the kidney play in causing rejection and preventing infection. With the knowledge gained from these studies, we will be able to discover new ways to prevent rejection and treat infections of the kidney post transplant.
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