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Molecular Characterization Of E. Coli That Cause Urinary Tract Infection
Funder
National Health and Medical Research Council
Funding Amount
$387,114.00
Summary
The long term goals of the proposed research are to understand the processes by which uropathogenic Escherichia coli (UPEC) cause acute, recurrent and chronic infections and to identify new UPEC targets for therapeutic intervention. Urinary tract infections (UTI) are among the most common infectious diseases of humans and a major cause of morbidity and mortality. In the USA, UTI accounts for more than 1 million hospitalizations and $1.6 billion in medical expenditures each year. It is estimated ....The long term goals of the proposed research are to understand the processes by which uropathogenic Escherichia coli (UPEC) cause acute, recurrent and chronic infections and to identify new UPEC targets for therapeutic intervention. Urinary tract infections (UTI) are among the most common infectious diseases of humans and a major cause of morbidity and mortality. In the USA, UTI accounts for more than 1 million hospitalizations and $1.6 billion in medical expenditures each year. It is estimated that one in four women and one in twenty men will develop a UTI in their lifetime. The recurrence rate is high and no treatment other than antibiotics (often inefficient) is currently available. UPEC are the primary cause of UTI. In the last grant period, we focused on the molecular interplay that exists between different surface adhesins of UPEC. We succeeded in demonstrating functional interference between adhesins, motility organelles, aggregation factors and the capsule. We also discovered and partially characterized several novel UPEC adhesins that may play a role in pathogenesis. We established two novel technology sets: a mouse model of ascending UTI and the flow chamber biofilm model. In the next grant period, we will build on these concepts and experimental systems to gain a deeper understanding of the molecular mechanisms underlying UPEC virulence. We will characterize the role of several novel UPEC surface proteins in cell adhesin, aggregation, biofilm formation and colonization of the mouse urinary tract. We will employ an integrated approach that combines a powerful bacterial genetic system, a biofilm model, a mouse UTI model, microscopy and tissue culture systems to reveal the cellular, molecular, and structural basis for the pathogenesis of UTI. The work will facilitate the development of new vaccine approaches to prevent UTI, such as novel mechanisms for strain attenuation and vaccine design. The burden of UTI disease demands such research endeavours.Read moreRead less
Infectious diseases are one of the leading causes of death and morbidity worldwide. In the last two decades the incidence of diseases caused by bacteria has increased dramatically with old pathogens re-emerging, often in a more virulent form, and new infectious agents appearing. Many pathogenic microbes are becoming increasingly resistant to antibiotics so that the need for new therapeutic targets is urgent. We will develop new antimicrobial chemotherapies by targeting DsbA, a specific factor in ....Infectious diseases are one of the leading causes of death and morbidity worldwide. In the last two decades the incidence of diseases caused by bacteria has increased dramatically with old pathogens re-emerging, often in a more virulent form, and new infectious agents appearing. Many pathogenic microbes are becoming increasingly resistant to antibiotics so that the need for new therapeutic targets is urgent. We will develop new antimicrobial chemotherapies by targeting DsbA, a specific factor involved in the generation of bacterial virulence. This protein is found in most bacteria and contributes to pathogenicity by promoting the formation of toxins and virulence factors. We will design specific inhibitors of DsbA by using a structure-based approach, implementing the leading edge technologies of fragment-based lead discovery by crystallography and NMR. We will then optimise the fragments to develop lead compounds and evaluate their suitability as DsbA inhibitors by in vitro and in vivo assays.Read moreRead less
Analysis And Regulation Of Leptospiral Virulence Factors.
Funder
National Health and Medical Research Council
Funding Amount
$630,465.00
Summary
Leptospirosis is a globally important infectious disease caused by Leptospira spp. This project aims to identify and characterise factors which play a role in disease development by knocking out genes, then investigating the impact on overall gene-protein expression in the mutant strain and its ability to cause disease. This will allow us to gain insights on mechanisms by which Leptospira spp. cause disease, leading to development of better methods of disease control and prevention.
Identification Of Type III Effectors In Salmonella
Funder
National Health and Medical Research Council
Funding Amount
$555,325.00
Summary
Salmonella is a major cause of disease across the world. In order to cause disease, Salmonella injects certain molecules into our own human cells to reprogramme them to promote Salmonella infection. This work aims to identify a large proportion of those molecules injected by Salmonella. Once identified, a more complete understanding of exactly how Salmonella reprogrammes our cells will be possible, enabling new avenues for therapeutics.
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
A Novel CD39-like Ecto-NTPDase Of Legionella Pneumophila
Funder
National Health and Medical Research Council
Funding Amount
$362,046.00
Summary
Legionnaire's disease is a serious cause of community acquired pneumonia. We are studying the way the Legionella bacteria persist in the environment and cause disease. We have found that Legionella produces a specific protein that mimics the action of a human protein. This proposal aims to work out how the bacteria use this protein to infect the human lung and escape killing by immune cells. The results from this study will help to determine if this protein may be used as a target for the develo ....Legionnaire's disease is a serious cause of community acquired pneumonia. We are studying the way the Legionella bacteria persist in the environment and cause disease. We have found that Legionella produces a specific protein that mimics the action of a human protein. This proposal aims to work out how the bacteria use this protein to infect the human lung and escape killing by immune cells. The results from this study will help to determine if this protein may be used as a target for the development of new anti-infective drugs.Read moreRead less
Characterising The Role Of Streptokinase Polymorphism In Invasive Pathogenesis Of Streptococcus Pyogenes.
Funder
National Health and Medical Research Council
Funding Amount
$480,535.00
Summary
Invasive bacterial pathogens such as Streptococcus pyogenes, can hijack host proteins and use them to facilitate the disease process. S. pyogenes secrete streptokinase to activate a host protease (plasminogen) which is used by the bacterium to invade through host tissue. This project will characterise the molecular mechanisms involved in streptokinase mediated activation of plasminogen which will assist the generation of novel therapeutics to treat invasive diseases.
Mechanism Of Exacerbations In Cystic Fibrosis Lung Disease
Funder
National Health and Medical Research Council
Funding Amount
$254,876.00
Summary
Cystic Fibrosis lung disease is characterised by infeciton with a bug called Pseudomonas aeruginosa. Patients ultimately die in their mid-30's as a result of this infection, but lung decline is accelerated by episodes of exacerbation when patients cough up large volumes of mucky sputum. We are studying the casue of exacerbations by looking at bacterial behaviour and the response of the immune system. We will use this information to try and develop early warning signals and better treatments.
Investigation Of The Role And Mode Of Action Of Mycolactones And Other Factors In The Pathogenesis Of Buruli Ulcer
Funder
National Health and Medical Research Council
Funding Amount
$509,267.00
Summary
Mycobacterium ulcerans is a bacterium that causes a very serious ulcerating skin disease known as Buruli ulcer. The only effective treatment is surgical removal of affected tissue, a process that can leave victims with life-long disabilities. Buruli ulcer has been increasing dramatically in many countries of Central and West Africa for reasons that are not well understood. Cases of Buruli ulcer also occur in the south and north of Australia where the disease is known as Bairnsdale ulcer and Dain ....Mycobacterium ulcerans is a bacterium that causes a very serious ulcerating skin disease known as Buruli ulcer. The only effective treatment is surgical removal of affected tissue, a process that can leave victims with life-long disabilities. Buruli ulcer has been increasing dramatically in many countries of Central and West Africa for reasons that are not well understood. Cases of Buruli ulcer also occur in the south and north of Australia where the disease is known as Bairnsdale ulcer and Daintree ulcer respectively. M. ulcerans produces an unusual toxin called mycolactone that kills human cells and causes immunosuppression. Mycolactone belongs to a class of compounds that have important pharmaceutical properties and include antibiotic, anti-tumour and immunosuppressive drugs. The aim of this project is to better understand how mycolactone kills cells and causes immunosuppression, and to identify other parts of M. ulcerans that may be required for ulcer formation. We have recently determined the complete DNA sequence of M. ulcerans and so we can now look very closely at how the bacterium causes disease. We will use our knowledge of the mycolactone DNA to genetically engineer modified mycolactones, and by systematically modifying mycolactone and then testing the properties of the modified compounds, we will be able to identify the components of mycolactone that confer its toxic and immunosuppressive properties. We will also test the products from other DNA sequences identified in M. ulcerans for their ability to kill cells or cause other biological effects that may be implicated in causing ulcers. The outcome of this project will be a much needed increase in our understanding of the role of mycolactone and other factors in causing Buruli ulcers. This knowledge will pave the way for developing effective treatments and will also open avenues for exploiting the biological properties of mycolactones in the development of new pharmaceuticals.Read moreRead less
The Pathogenesis Of Melioidosis: The Interaction Of Burkholderia Pseudomallei With Host Cells.
Funder
National Health and Medical Research Council
Funding Amount
$344,375.00
Summary
Melioidosis is an often fatal disease of mainly tropical Australia and SE Asia caused by a bacterium which is found in soil and water. Infection occurs via wounds or by inhalation. Melioidosis has recently become endemic in south-west Western Australia and south-eastern Queensland, and could represent an emerging disease worldwide. Melioidosis disproportionately affects Aboriginal Australians. Melioidosis has many forms including septicemia with damage to most organs, particularly lung, spleen a ....Melioidosis is an often fatal disease of mainly tropical Australia and SE Asia caused by a bacterium which is found in soil and water. Infection occurs via wounds or by inhalation. Melioidosis has recently become endemic in south-west Western Australia and south-eastern Queensland, and could represent an emerging disease worldwide. Melioidosis disproportionately affects Aboriginal Australians. Melioidosis has many forms including septicemia with damage to most organs, particularly lung, spleen and liver, acute localised suppurative infection and pneumonia. Melioidosis may also become latent, and later develop into an acute and fatal infection. It is important to understand, at the molecular level, how and why the causative bacterium is able to cause disease. Only with such an understanding can measures be undertaken to prevent the disease, or novel methods developed to control the disease. Colonisation of a host is a first step in the disease process for all bacteria which cause disease. Large protein molecules located on the surface of disease-causing bacteria are usually neccessary for colonisation of the host since they allow adherence to the surface of host cells. We have previously undertaken a basic study of adherence. This study will build on this research with the aim of identifying molecules which mediate adherence to host cells, using in vivo and in vitro methods, including the techniques of molecular biology. This study will inevitably lead to the development of vaccine candidates which is important to the management of melioidosis, particularly in high risk groups. It may also allow the development of novel antimicrobial compounds.Read moreRead less