Q Fever: How Common Is It And How Can We Best Prevent It? Research To Inform Q Fever Vaccine Policy In Australia And Internationally
Funder
National Health and Medical Research Council
Funding Amount
$743,376.00
Summary
Q fever is a disease of worldwide importance which has special significance for Australia where outbreaks continue to occur. We will measure the burden of Q fever in the Australian population for the first time, measure how long immunity lasts following vaccination, collect extra information on adverse events in young adults and survey knowledge and attitudes of Q fever disease and vaccine. The results will inform policies for the control of Q fever in Australia and internationally.
Microbiological And Immunological Determinants Of Prolonged Illness Following Q Fever.
Funder
National Health and Medical Research Council
Funding Amount
$362,036.00
Summary
Q fever is a severe, sometimes life-threatening infection acquired by individuals who work with livestock, particularly abattoir workers. At least 10% of individuals who develop Q fever experience prolonged ill-health in the form of weeks or months of debilitating fatigue, profuse night sweats, headaches, as well as muscle and joint pains. This poorly understood persistent illness is associated with substantial disability and loss of income. This research is based upon an established cohort stud ....Q fever is a severe, sometimes life-threatening infection acquired by individuals who work with livestock, particularly abattoir workers. At least 10% of individuals who develop Q fever experience prolonged ill-health in the form of weeks or months of debilitating fatigue, profuse night sweats, headaches, as well as muscle and joint pains. This poorly understood persistent illness is associated with substantial disability and loss of income. This research is based upon an established cohort study in which subjects with acute, documented Q fever are recruited shortly after the onset of symptoms and followed at regular intervals through to recovery or persistent symptoms. The aim of this research is to determine whether abnormal persistence of the causative organsim of Q fever, Coxiella burnetii, underlies the continued symptoms in those who do not recover promptly from the acute illness. Furthermore, the research is examining the host defense response against the organism via the production of cytokines or immunological hormones, to determine whether these proteins mediate the ongoing symptoms. If confirmed, these hypotheses would lead the way to diagnostic markers for the disorder and a rational treatment strategy.Read moreRead less
How The Intracellular Pathogen Coxiella Burnetii Manipulates Host Small GTPases To Facilitate Disease
Funder
National Health and Medical Research Council
Funding Amount
$534,510.00
Summary
This study explores how the bacterium Coxiella burnetii causes the serious infectious disease Q fever. Coxiella is a potential biological weapon because it is stable in the environment and few organisms are required to cause disease. Coxiella is able to manipulate human cells to replicate in a unique location within the cell but little is known about how they do this. Here we will study the host proteins that are important during infection and how Coxiella manipulates these factors to facilitate ....This study explores how the bacterium Coxiella burnetii causes the serious infectious disease Q fever. Coxiella is a potential biological weapon because it is stable in the environment and few organisms are required to cause disease. Coxiella is able to manipulate human cells to replicate in a unique location within the cell but little is known about how they do this. Here we will study the host proteins that are important during infection and how Coxiella manipulates these factors to facilitate intracellular replication.Read moreRead less
Defining Pathogenic Mechanisms Of Intracellular Bacteria
Funder
National Health and Medical Research Council
Funding Amount
$494,691.00
Summary
This study explores how the bacterium Coxiella burnetii causes the serious infectious disease Q fever. Coxiella is a potential biological weapon because it is very stable in the environment and few organisms are required to cause disease. Coxiella is able to commandeer human cells to replicate in a specialized vacuole but little is understood about how they do this. We will examine the virulence factors of Coxiella and investigate how they allow the bacteria to replicate inside human cells.
Determination Of Disease Specific Epitopes In Rheumatic Heart Disease In Australia
Funder
National Health and Medical Research Council
Funding Amount
$374,817.00
Summary
Rheumatic Fever and Rheumatic Heart Disease (RF-RHD) remain a significant cause of illness in Aboriginal communities in Australia. RF-RHD is a complication which follows infection with a specific bacterium. The purpose of this study is to compare the body's response and find out the patterns of antibody and immune cell reactivity to the bacterium and body proteins in RF-RHD patients and controls. It will also enable us to study the mechanisms that initiate the disease process.
Design And Development Of Inhibitors Of The Dengue Virus Protease As Antiviral Drugs
Funder
National Health and Medical Research Council
Funding Amount
$362,513.00
Summary
Dengue viruses are carried by mosquitoes and infect millions of people around the world, particularly in tropical countries of SE Asia, Central and South America, Africa and recently in Australia (North Queensland and NT). There is no vaccine or drug available for preventing or treating the infections, which are characterised by severe illness that involves inflammation and fevers that can sometimes be fatal. This proposal focuses on a virus specific enzyme. This enzyme (called a protease) is es ....Dengue viruses are carried by mosquitoes and infect millions of people around the world, particularly in tropical countries of SE Asia, Central and South America, Africa and recently in Australia (North Queensland and NT). There is no vaccine or drug available for preventing or treating the infections, which are characterised by severe illness that involves inflammation and fevers that can sometimes be fatal. This proposal focuses on a virus specific enzyme. This enzyme (called a protease) is essential for the virus to multiply and so it is a potential target for new drugs that can bind to it and block its function. We have produced and purified this viral enzyme in the laboratory and now propose to design, synthesize, and develop the first drugs for the treatment of humans infected with dengue virus. We plan to do this by examining the action of the enzyme, determining its three dimensional structure, and using computers and chemical methods to obtain very powerful blockers of enzyme action. These drug candidates will be tested against the enzyme, against cells infected with virus, and in rats to find out if they can be administered by mouth or by injection and if they have any toxic side effects. This project will provide valuable information about how to develop drugs to stop dengue fever and its associated illnesses.Read moreRead less