Treatment Of Chronic Proteinuric Renal Disease With DNA Vaccines Against TCR Subsets Of Effector T Cells And Chemokines
Funder
National Health and Medical Research Council
Funding Amount
$282,750.00
Summary
Current treatments for chronic kidney disease are non specific and frequently ineffective. As a consequence, kidney failure progresses to the stage where patients require dialysis or transplantation to remain alive. Every year about 1700 Australians commence dialysis for this reason, and many more die of kidney failure or its complications. This project will develop and test a novel therapeutic strategy of DNA vaccination targeted specifically at groups of white cells, and specific regulatory mo ....Current treatments for chronic kidney disease are non specific and frequently ineffective. As a consequence, kidney failure progresses to the stage where patients require dialysis or transplantation to remain alive. Every year about 1700 Australians commence dialysis for this reason, and many more die of kidney failure or its complications. This project will develop and test a novel therapeutic strategy of DNA vaccination targeted specifically at groups of white cells, and specific regulatory molecules in order to prevent chronic kidney disease (CPRD). In chronic kidney diseases of all types, the kidney filters and surrounding tissue becomes infiltrated with inflammatory cells. The amount of inflammation in the filters and the tissues has an important bearing on the severity of kidney failure, and the rate at which kidney disease progresses. There are a range of different cells that invade the inflamed kidney, some worsen the disease while some may protect against it. Current treatments are non-selective and may, by suppressing inflammation, prevent both repair and protection. We have established a central role for two groups of white cells called macrophages and T lymphocytes in two animal models of kidney disease. In one of these models, we used DNA vaccination, which represents a novel means of switching off these disease-causing T cells. The results showed that DNA vaccination against T cell subsets was protective in our model. This raises the real and exiting possibility that DNA vaccination directed at specific disease-causing cells, and their products are much more likely to be specific and effective therapy for chronic kidney diseases. Eventually, such DNA vaccination may be used as a more effective and safer therapy for human kidney disease.Read moreRead less
A Dendritic Cell Subset Targeting Approach For Defining Immune Function And Tailoring Immunotherapy
Funder
National Health and Medical Research Council
Funding Amount
$692,753.00
Summary
Dendritic cells are important sentinel cells of the immune system that orchestrate our immune responses against invading pathogens. There are different types of dendritic cells and they perform different jobs. We have a series of antibodies that can recognise markers on the surface of different dendritic cells populations. We can use these antibodies as homing devices to deliver foreign material to individual dendritic cell subpopulations and thereby manipulate the type of immune response genera ....Dendritic cells are important sentinel cells of the immune system that orchestrate our immune responses against invading pathogens. There are different types of dendritic cells and they perform different jobs. We have a series of antibodies that can recognise markers on the surface of different dendritic cells populations. We can use these antibodies as homing devices to deliver foreign material to individual dendritic cell subpopulations and thereby manipulate the type of immune response generated. Effectively, we aim to tailor immune responses to fight a particular bacteria, virus, parasite, or even cancer cells. The current proposal will extend the number of antibodies we test for their ability to generate tailored immunity. We will examine a number of new molecules for their ability to shuttle foreign material to dendritic cells and their ability to stimulate immune responses. Next, we will test these homing devices as vaccines and their ability to prevent or treat cancer. Our aim is to develop a robust, highly efficient, generic, vaccination approach for cancer immunotherapy.Read moreRead less
Immunogenicity Of 23-valent Pneumococcal Polysaccharide Vaccination Among Indigenous Australian Adolescents And Adults
Funder
National Health and Medical Research Council
Funding Amount
$674,738.00
Summary
Multiple doses of pneumococcal vaccine are recommended for Indigenous Australians under a unique schedule aimed at reducing high rates of pneumococcal disease. However, disease rates have not reduced after several years of the program. This study examines a key, previously unstudied explanation for the lack of disease reduction in this population: that repeated vaccination could produce suboptimal protection against disease. It will provide evidence to underpin future vaccination policy.
The Role Of Secretory Antibodies In Mucosal Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$314,773.00
Summary
This proposal will address the role of the antibodies that are present in all secretions from the gut, the lungs, the eye and mouth in maintaining the health of the mucosal (ie mucous covered) tissues from which they originate. It has long been presumed that these antibodies stop bacteria and other pathogens adhering to the surface of mucosal tissues. Our preliminary findings suggest that they have another very important role in removing excess inflammatory material from beneath the lining of th ....This proposal will address the role of the antibodies that are present in all secretions from the gut, the lungs, the eye and mouth in maintaining the health of the mucosal (ie mucous covered) tissues from which they originate. It has long been presumed that these antibodies stop bacteria and other pathogens adhering to the surface of mucosal tissues. Our preliminary findings suggest that they have another very important role in removing excess inflammatory material from beneath the lining of the mucosal tissues, to prevent recognition of this material by the immune system. Such recognition could result in serious consequences both locally (ie. in the gut) and more distally eg. in the pnacreas leading to diabetes. As a consequence, we believe that these antibodies are fundamental to health. The research could have important ramifications for diseases resulting from immune responses against host tissues, so-called autoimmune diseases like diabetes.Read moreRead less