The Intracellular Replicative Niche Of Legionella Species And Coxiella Burnetii.
Funder
National Health and Medical Research Council
Funding Amount
$529,632.00
Summary
This project will study how the bacterium that causes Legionnaire's disease survives and grows inside human cells. We have identified new bacterial proteins that allow Legionella to manipulate the normal host cell processes involved in killing an invading bacterium. Similar proteins are also present in the closely related organism, Coxiella, which causes Q-fever. By determining how these proteins act, this work may result in new treatments for Legionnaire's disease and related infections.
Can Skin Infection With Group A Streptococcus Cause Acute Rheumatic Fever?
Funder
National Health and Medical Research Council
Funding Amount
$459,450.00
Summary
It is traditionally taught that the cause of acute rheumatic fever (ARF) is always infection of the throat with the bacterium group A streptococcus (GAS). However, in Aboriginal communities of the Top End of the Northern Territory the incidence of ARF is the highest reported in the world, yet GAS is uncommonly isolated from the throat. There is further information to suggest that GAS skin sores may underlie many cases of ARF. If this were proven, it would completely alter the traditional view of ....It is traditionally taught that the cause of acute rheumatic fever (ARF) is always infection of the throat with the bacterium group A streptococcus (GAS). However, in Aboriginal communities of the Top End of the Northern Territory the incidence of ARF is the highest reported in the world, yet GAS is uncommonly isolated from the throat. There is further information to suggest that GAS skin sores may underlie many cases of ARF. If this were proven, it would completely alter the traditional view of the cause of ARF, and have important implications for prevention of ARF around the world. Presently, these approaches focus on diagnosing and treating sore throat, but no country has proven that such a program can be successful in substantially reducing new cases of ARF. If it was known that skin infection could lead to ARF, then countries (including Australia) could emphasise the importance of skin health programs. A further benefit of this knowledge would be to influence GAS vaccine development, which presently is largely focused on the prevention of sore throat. A different possibility has recently been raised - that the cause of ARF may not always be GAS, but instead that the related bacteria GCS and GGS may have the potential to cause this disease. Proof of this hypothesis would even more dramatically alter our understanding of disease causation, prevention, and vaccine development. We propose to determine the cause of ARF in Aboriginal communities by regularly swabbing families of people with a history of ARF, and using genetic fingerprinting of the bacteria from the skin and throat swabs. When cases of ARF occur, we will be able to determine the site and type of infection that precipitated the attack. We will conduct a related study in more communities, in which we will swab family members of people with ARF and of control families (without ARF) to determine the bacteria most commonly isolated from ARF families.Read moreRead less
The aim of this project is to provide a better understanding of the mechanisms underlying the development of gas gangrene, an often fatal disease of particular significance to elderly and diabetic patients, who are particularly susceptible following injury, or surgery, or in some cases when suffering from colon cancer. Although research has been carried out on this disease for many years prompt surgical removal of the infected tissue, often including amputation of a limb, is still commonly used ....The aim of this project is to provide a better understanding of the mechanisms underlying the development of gas gangrene, an often fatal disease of particular significance to elderly and diabetic patients, who are particularly susceptible following injury, or surgery, or in some cases when suffering from colon cancer. Although research has been carried out on this disease for many years prompt surgical removal of the infected tissue, often including amputation of a limb, is still commonly used to ensure the patient's survival. This project involves the study of the two bacteria that are the major causes of the disease. We aim to find out how the bacteria mediate the disease, in particular to determine which toxic factors produced by the bacteria are involved. The normal host response to a bacterial infection is a rapid influx of white blood cells to the infected tissue, which is part of the normal inflammatory response. These cells engulf and degrade the bacteria, clearing the infection. However, a major characteristic of gas gangrene pathology is that very few white blood cells infiltrate the infected tissue. We aim to determine why the host fails to mount an inflammatory response to this bacterial infection. We will achieve this objective by developing a better understanding of the role of the bacterial toxins in the development of this morbid disease. It is hoped the results from this study will enable the development of more effective therapeutic and prophylactic treatments for this disease and also provide a foundation for studies into the modulation of the host response by other bacterial species.Read moreRead less
Two-component Regulatory Systems Involved In Toxin Production In Clostridium Perfringens
Funder
National Health and Medical Research Council
Funding Amount
$78,500.00
Summary
The bacterium studied in this project causes gas gangrene, a severe and often fatal infection of traumatic or surgical wounds. The project involves the detailed analysis of the process by which this bacterium controls the production of the toxic proteins that are required for disease to occur. The emphasis is to determine the mechanism by which this regulatory process is mediated. Research in this laboratory has identified two genes whose protein products are the key links in this regulatory net ....The bacterium studied in this project causes gas gangrene, a severe and often fatal infection of traumatic or surgical wounds. The project involves the detailed analysis of the process by which this bacterium controls the production of the toxic proteins that are required for disease to occur. The emphasis is to determine the mechanism by which this regulatory process is mediated. Research in this laboratory has identified two genes whose protein products are the key links in this regulatory network. The objectives of the project will be to determine which part of the regulatory protein interacts with the target toxin gene, to start to determine the structure of the regulatory protein so that the precise biochemical mechanism of action can be ascertained, to determine the components of the DNA target that are essential for binding activity, and to identify other genes that are involved in the regulation of both the toxin genes and other genes that may be implicated in the disease process. These studies will be facilitated by the availability of the complete genome sequence of this pathogenic bacterium. The project will make a major contribution to our knowledge of how bacteria that cause disease are able to control the production of the toxins that are critical to the disease process. If we are to learn how to more effectively control and treat bacterial infections then it is very important that we understand the complex regulatory networks that tell bacteria when to produce its disease-causing products.Read moreRead less