Cytosolic Oxidative Disturbances As A Source Of Mitochondrial Dysfunction In Diabetic Nephropathy
Funder
National Health and Medical Research Council
Funding Amount
$505,786.00
Summary
There is a critical need to identify new therapies for the growing number of patients with diabetic kidney disease. Current medicines only retard progressive disease. Our studies investigate defects in the power houses of the cell, the mitochondria. These defects cause generation of toxic free oxygen radicals which eventually starve the cell of energy production. Therefore, reversal of mitochondrial defects in diabetic kidney disease may be a novel therapeutic target.
The Role Of Angiotensin Converting Enzyme 2 In Diabetic Complications
Funder
National Health and Medical Research Council
Funding Amount
$453,144.00
Summary
Most heart attacks and strokes arise from narrowing of the arteries. This process is regulated by a number of hormonal pathways. One of the most important is the renin angiotensin system. Our group has demonstrated important changes in this pathway which play a pivotal role in regulating the development of atherosclerosis and its response to treatment. It is predicted that these studies will provide critical information to develop innovative treatment strategies for cardiovascular disease.
Growth Factors And Their Effect On MicroRNAs And Transcription Factors In Tubulointerstitial Fibrosis In Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$490,202.00
Summary
A common cause of kidney disease is diabetes and is partly related to increased expression and action of growth factors such as CTGF. These factors promote the deposition of scar tissue in the kidney by acting on a novel class of intracellular regulator molecules called microRNAs, to change the cell's characteristics such that cells begin laying down excess collagen. This proposal will focus on how growth factors act on microRNAs and the role of microRNAs in diabetic kidney disease.
Normoalbuminuric And Albuminuric Pathways To Renal Insufficiency In Type 2 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$288,900.00
Summary
Up to one third of patients with type 2 diabetes develop kidney disease (diabetic nephropathy). An increase in protein excretion in the urine (albuminuria) is usually the first sign of kidney disease. Albuminuria usually progresses from normal levels to an intermediate phase (microalbuminuria) lasting 5-10 years and is then followed by overt nephropathy (macroalbuminuria). It has been traditionally believed that onset of a decline in kidney function, measured as glomerular filtration rate, accom ....Up to one third of patients with type 2 diabetes develop kidney disease (diabetic nephropathy). An increase in protein excretion in the urine (albuminuria) is usually the first sign of kidney disease. Albuminuria usually progresses from normal levels to an intermediate phase (microalbuminuria) lasting 5-10 years and is then followed by overt nephropathy (macroalbuminuria). It has been traditionally believed that onset of a decline in kidney function, measured as glomerular filtration rate, accompanies the development of diabetic kidney disease. However, recent studies by our group have shown that about one quarter of patients with type 2 diabetes have impaired kidney function without an increase in albuminuria. This raises the possibility that an alternate non-albuminuric pathway leads to kidney disease in a subgroup of patients with type 2 diabetes. This study will compare kidney structure and function in patients with type 2 diabetes and impaired kidney function with or without increases in albuminuria. The comparison will be accompanied by measurements of the rate of decline in kidney function over 5 years or more, in subjects with or without increases in albuminuria in order to confirm that kidney function may decline independently of albuminuria. The demonstration of alternate mechanisms of renal injury has the potential to identify new targets for the treatment of kidney disease in patients with type 2 diabetes.Read moreRead less
Role Of Vasoactive Hormones And Cytokines In Diabetic Nephropathy
Funder
National Health and Medical Research Council
Funding Amount
$361,650.00
Summary
Kidney disease is a major cause of disability and premature death in the Australian population. In diabetic kidney disease a major factor which accelerates the progression of this disorder is the presence of hypertension. Indeed international and national organisations now recommend aggressive blood pressure treatment in the diabetic patient. This proposal aims to optimise blood pressure treatment in diabetes and evaluate novel more potent blood pressure lowering agents which block within the ki ....Kidney disease is a major cause of disability and premature death in the Australian population. In diabetic kidney disease a major factor which accelerates the progression of this disorder is the presence of hypertension. Indeed international and national organisations now recommend aggressive blood pressure treatment in the diabetic patient. This proposal aims to optimise blood pressure treatment in diabetes and evaluate novel more potent blood pressure lowering agents which block within the kidney important hormonal pathways implicated in diabetic kidney disease. This approach will assist in determining key factors which mediate the damage to the kidney induced by elevated blood pressure. It is anticipated that these studies will lead to more rational, targeted and powerful antihypertensive agents which will retard or prevent the development of diabetic nephropathy.Read moreRead less
Progressive Renal And Vascular Disease: Pivotal Role Of The AT2 Receptor
Funder
National Health and Medical Research Council
Funding Amount
$283,875.00
Summary
Diabetes and renal disease are commonly associated with a range of vascular complications. I have been investigating a particular hormone system known as the renin-angiotensin system in promoting kidney and vascular complications in various diseases including diabetes. This system is a pathway which ultimately generates a hormone called angiotensin II which has many actions which could be harmful to the kidney and blood vessels. The importance of this hormone system has been demonstrated by the ....Diabetes and renal disease are commonly associated with a range of vascular complications. I have been investigating a particular hormone system known as the renin-angiotensin system in promoting kidney and vascular complications in various diseases including diabetes. This system is a pathway which ultimately generates a hormone called angiotensin II which has many actions which could be harmful to the kidney and blood vessels. The importance of this hormone system has been demonstrated by the beneficial effects particularly on the kidney of drugs which block this pathway. It has been demonstrated that angiotensin II acts via 2 different receptors, the AT1 and AT2 subtypes. Initially the AT1 receptor was viewed to mediate most of the biological effects of angiotensin II. However, as demonstrated by our own and other groups, the AT2 receptor may play a role in mediating various effects of angiotensin II particularly in disease states. We have identified expression of this receptor in the adult kidney and in the vessel wall which may be upregulated in various disease states. The status of the AT2 receptor is not well characterised in diabetes and many other kidney diseases and this proposal will address this issue in a comprehensive manner by evaluating various sites of injury in diabetes including the kidney and vascular tree. This proporsal includes different approach to moduate this receptor involving drug blockers and animal model where this receptoris either deleted or overexpressed. These studies potentially have major implications for the management of diabetic and renal complications. It remains to be determined if the AT2 receptor confers beneficial or deleterious effects in diabetic nephropathy or other renal diseases, if these effects vary among the various organs to be studied and whether AT2 receptor antagonists may themselves be of therapeutic value in individuals at high risk of kidney and vascular disease such as people with diabetes.Read moreRead less
Role Of The Podocyte In Diabetic Nephropathy: Structural, Functional, Molecular And Interventional Studies
Funder
National Health and Medical Research Council
Funding Amount
$227,036.00
Summary
Kidney disease is a major cause of disability and premature death in the Australian population. In disease the kidney's ability to filter out impurities and toxins in blood is impaired as a consequence of excessive cell growth and scar tissue formation. Studies from our group indicate that a highly specialised cell within the kidney's filtering apparatus becomes altered early in the course of diabetes. In the setting of diabetes, this cell, called the podocyte, stretches and begins forming scar ....Kidney disease is a major cause of disability and premature death in the Australian population. In disease the kidney's ability to filter out impurities and toxins in blood is impaired as a consequence of excessive cell growth and scar tissue formation. Studies from our group indicate that a highly specialised cell within the kidney's filtering apparatus becomes altered early in the course of diabetes. In the setting of diabetes, this cell, called the podocyte, stretches and begins forming scar tissue. In addition, it no longer maintains its barrier function and starts to leak protein. The proposed studies will explore the mechanisms that lead to these diabetes-induced changes in the podocyte. In addition, strategies for reversing these changes will also be explored in detail with the aim of providing new treatments for diabetic kidney disease.Read moreRead less