Molecular Mechanisms Of Macrophage-mediated Renal Injury.
Funder
National Health and Medical Research Council
Funding Amount
$437,036.00
Summary
The complete loss of kidney function means that survival of the patient is dependent upon lifelong dialysis or a kidney transplant. Dialysis patients have a poor quality of life, and the provision of dialysis and transplantation treatments are very costly. Our current therapies have only limited efficacy and are associated with significant side-effects. Therefore, we need to understanding the way in which the kidney is damaged in disease in order to identify new and specific approaches to the tr ....The complete loss of kidney function means that survival of the patient is dependent upon lifelong dialysis or a kidney transplant. Dialysis patients have a poor quality of life, and the provision of dialysis and transplantation treatments are very costly. Our current therapies have only limited efficacy and are associated with significant side-effects. Therefore, we need to understanding the way in which the kidney is damaged in disease in order to identify new and specific approaches to the treatment of kidney disease. Our studies have shown that white blood cells, called macrophages, enter the kidney in large numbers during disease. Indeed, the greater the number of macrophages within the kidney, the more severe the kidney injury. We believe, on the basis of animal studies, that these macrophages cause kidney injury. However, we do not know the mechanisms by which this happens. To address this question, we have developed a rat model of kidney disease in which we can take macrophages, which we have cultured in the laboratory, and inject them into animals and they will enter the kidney and cause injury. This allows us to modify specific macrophage functions in culture and then determine whether this affects the ability of these macrophages to cause kidney injury in the animal. In this way, we will be able to understand the mechanisms by which macrophages cause kidney injury. We hope that these studies will can be a starting point for the development of new and specific approaches to the treatment of human kidney disease.Read moreRead less
The glomerulus is the filtering component of the kidney. In many diseases, it can be the target of an inappropriate inflammatory response. As part of this response, white blood cells accumulate in the glomerulus where they cause damage. In this project, we make use of special microscopes to examine the glomerulus during an inflammatory response, with the aim of understanding the actions of leukocytes present in glomeruli and how they cause inflammation and damage the glomerulus.
Current therapy for AAV has major toxicities and 30% of Patients are dead or on dialysis within 3 years. This proposal aims to study a unique form of cell death termed Neutrophil extracellular traps (NETs) that initiates and perpetuates inflammation in this disease. We will use an animal model of the disease that mirrors human disease. We will inhibit crucial molecules in NET production to attenuate disease. This will provide proof of concept evidence to promote clinical trials in patients.
Defining The Central Role Of Podocyte Depletion In The Development, Progression And Management Of Glomerular Disease
Funder
National Health and Medical Research Council
Funding Amount
$690,855.00
Summary
Podocytes are key cellular components of the kidney’s filtration barrier. Podocyte depletion (cell loss or injury) is a key event in most forms of kidney disease. We will investigate interactions between podocyte depletion and two major risk factors for kidney disease (diabetes and hypertension), assess whether podocyte depletion influences therapeutic outcomes, and commence efforts to develop podocyte-specific therapies.
Inflammation of the kidneys is an important, yet poorly understood cause of kidney disease in Australia. This project will define the role of some of the immune cells, called Th17, that usually act to protect us from infection, but can turn rouge and may cause kidney damage.
Diabetic complications are the major cause of the medical burden of both type 1 and type 2 diabetes. It appears that prior episodes of poor sugar control have a sustained impact by continuing to damage blood vessels and the kidney, this phenomenon is known as metabolic memory. In this study an enzyme called Set 7 which modifies the proteins wrapping DNA is considered to play a central role in this phenomenon and could be a potential target for developing new treatments to reduce the burden of di ....Diabetic complications are the major cause of the medical burden of both type 1 and type 2 diabetes. It appears that prior episodes of poor sugar control have a sustained impact by continuing to damage blood vessels and the kidney, this phenomenon is known as metabolic memory. In this study an enzyme called Set 7 which modifies the proteins wrapping DNA is considered to play a central role in this phenomenon and could be a potential target for developing new treatments to reduce the burden of diabetic complications.Read moreRead less
Monocytes On Patrol – Key Mediators Of Renal Injury In Glomerulonephritis
Funder
National Health and Medical Research Council
Funding Amount
$772,888.00
Summary
The glomerulus is the filtering component of the kidney. In many diseases, it can be the target of an inappropriate inflammatory response. As part of this response, white blood cells accumulate in the glomerulus where they cause damage. In this project, we make use of special microscopes to examine the glomerulus during an inflammatory response, with the aim of understanding the actions of white blood cells present in glomeruli and how they cause inflammation and damage the glomerulus.
TLR9 AGGRAVATES GLOMERULONEPHRITIS AND KIDNEY INJURY IN RENAL VASCULITIS
Funder
National Health and Medical Research Council
Funding Amount
$349,336.00
Summary
Renal failure is a significant cause of morbidity and mortality in Australia. Anti-neutrophil cytoplasmic antibody (ANCA) vasculitis associated glomerulonephritis (GN) is a significant cause of renal failure. The molecular mechanisms underlying ANCA vasculitis are poorly understood, while treatments are associated with considerable morbidity and mortality. This grant aims to explore key molecular events involved in the disease pathogenesis to facilitate the use of safer more targeted therapies.