An obesity epidemic is evident in first world countries including Australia. Twenty seven percent of men aged 55-64 in this country are obese. Obesity results in increased mortality and morbidity from type 2 diabetes, cardiovascular disease, renal disease and endometrial cancer, among others. Given our flaccid lifestyles, it is imperative that the metabolic processes underlying obesity be fully understood, to allow development of suitable treatment modalities. This proposal seeks to establish an ....An obesity epidemic is evident in first world countries including Australia. Twenty seven percent of men aged 55-64 in this country are obese. Obesity results in increased mortality and morbidity from type 2 diabetes, cardiovascular disease, renal disease and endometrial cancer, among others. Given our flaccid lifestyles, it is imperative that the metabolic processes underlying obesity be fully understood, to allow development of suitable treatment modalities. This proposal seeks to establish an important new element in our understanding of the development of obesity, the transcription factor STAT5. With previous NHMRC support, we developed sophisticated genetically modified mice which lack defined signalling processes initiated by growth hormone, an anti-obesity agent. These studies showed a strong correlation between ability to activate STAT5 and resistance to obesity. There is fragmentary literature evidence to support our hypothesis, which could also explain some of leptins anti-obesity actions. Using mice which lack STAT5, we shall establish a role for STAT5 as an antiobesity agent. The actions of STAT5 are normally blocked by feedback inhibitors referred to as SOCS, discovered by Australians. We shall define which SOCS is the feedback regulator for obesity control, allowing us to develop specific anti-SOCS agents which will act as novel anti-obesity agents.Read moreRead less
Role And Mechanism Of Connective Tissue Growth Factor In Diabetic Cardiomyopathy
Funder
National Health and Medical Research Council
Funding Amount
$382,820.00
Summary
Diabetic cardiomyopathy is a condition where the heart muscle is directly damaged by diabetes. It is being recognised as a prominent cause of both acute and chronic heart failure in diabetes. It is common and occurs in up to 60% of diabetic patients . At present however, no treatments are available to directly treat the cardiomyopathy. This condition can also occur in people with diabetes who have high blood pressure and-or coronary artery disease and may combine with these problems to worsen pa ....Diabetic cardiomyopathy is a condition where the heart muscle is directly damaged by diabetes. It is being recognised as a prominent cause of both acute and chronic heart failure in diabetes. It is common and occurs in up to 60% of diabetic patients . At present however, no treatments are available to directly treat the cardiomyopathy. This condition can also occur in people with diabetes who have high blood pressure and-or coronary artery disease and may combine with these problems to worsen patient outcomes. We have generated data in experimental diabetes in rodents that strongly implicates a heart growth factor in causing diabetic cardiomyopathy. This protein, called connective tissue growth factor (CTGF), is increased in diabetic cardiomyopathy, and is elevated by high glucose and other factors in diabetes. We have published data showing that CTGF causes tissue scarring like that which occurs in cardiomyopathy, by affecting signals in cells called fibroblasts. It increases the laying down of extracellular matrix (ECM) and also inhibits the degradation of ECM by the proteins that break down matrix, known as the MMPand PAI systems. Such accumulation of ECM is thought to be a major factor leading to abnormal muscle function in cardiomyopathy. We now plan to block CTGF in this diabetic heart model to determine if we can prevent diabetic cardiomyopathy. We have generated two methods to inhibit CTGF in the animal model. Echocardiography (a heart ultrasound test), and molecular analysis of the heart tissue will determine if we can prevent the otherwise adverse functional and structural changes of diabetes in the heart. We will also study our baboon model of diabetes to determine if diabetic cardiomyopathy with increased heart CTGF is present in the primates. Cell culture studies from rat heart fibroblasts and myocytes will determine how CTGF has the effect on cells to cause cardiomyopathy and how we might further prevent this condition developing in diabetes.Read moreRead less
Type 2 Diabetic Renal Complications And Microvascular Injury: Novel Predictors Of Onset And Progression, Mechanisms Of Association With Cardiovascular Disease And The Benefits Of Fenofibrate.
Funder
National Health and Medical Research Council
Funding Amount
$84,448.00
Summary
We will investigate the mechanisms of diabetic complications related to kidney and blood vessel disease, focusing on identifying people at greater risk and ways to improve or prevent these complications. In addition, we will look at how diabetic kidney disease affects non-kidney related problems like heart disease and examine the benefit of fenofibrate on both. This greater understanding will aid further drug development in kidney and cardiovascular diseases.
This study aims to identify naturally occurring genetic variations between men which modify the impact of testosterone, the major male hormone, on men's health and medical care. This study will examine new factors which determine how much any particular man may gain benefit from testosterone exposure such as in muscle and bone development as well as suffer detrimental effects on cardiovascular and prostate diseases. This may clarify some new aspects of how men's health is determined as well as d ....This study aims to identify naturally occurring genetic variations between men which modify the impact of testosterone, the major male hormone, on men's health and medical care. This study will examine new factors which determine how much any particular man may gain benefit from testosterone exposure such as in muscle and bone development as well as suffer detrimental effects on cardiovascular and prostate diseases. This may clarify some new aspects of how men's health is determined as well as developing new, customized medical treatments for men.Read moreRead less
Thalassaemia is the most common blood disorder worldwide. In severe cases, life-long blood transfusions are needed to survive but complications including iron overload and bone disease can occur. Deferasirox, a drug used to treat iron overload has been linked to kidney stones and bone loss in these patients through increased loss of calcium in the urine. The purpose of this study is to investigate whether bone loss can be reversed by using a diuretic or an alternative iron chelator.
Identifying Novel Targets To Treat And Prevent Diabetic Complications
Funder
National Health and Medical Research Council
Funding Amount
$697,209.00
Summary
Diabetes is the leading cause for kidney failure requiring dialysis or transplantation. Diabetic patients also have a higher risk to suffer from heart attacks, stroke and amputations in particular once kidney damage occurs. Current strategies fail to completely protect patients from complications. My research will uncover knowledge gaps in our understanding of diabetes complications, identify new targets ultimately leading to urgently needed more effective treatments and prevention strategies to ....Diabetes is the leading cause for kidney failure requiring dialysis or transplantation. Diabetic patients also have a higher risk to suffer from heart attacks, stroke and amputations in particular once kidney damage occurs. Current strategies fail to completely protect patients from complications. My research will uncover knowledge gaps in our understanding of diabetes complications, identify new targets ultimately leading to urgently needed more effective treatments and prevention strategies to reduce the burden of disease in diabetes.Read moreRead less
The Role Of Specific Nox Isoforms In Diabetic Renal Disease And Atherosclerosis
Funder
National Health and Medical Research Council
Funding Amount
$460,396.00
Summary
Diabetes is increasing worldwide and in Australia. The majority of patients with diabetes eventually will develop kidney disease and will die of blood vessel complications such as heart attacks and stroke. Oxidative stress (the generation of free oxygen radicals that react quickly with other proteins in the body causing tissue damage) has been suggested to play an important role in kidney and blood vessel disease observed in diabetic patients. This proposal will try to identify and measure speci ....Diabetes is increasing worldwide and in Australia. The majority of patients with diabetes eventually will develop kidney disease and will die of blood vessel complications such as heart attacks and stroke. Oxidative stress (the generation of free oxygen radicals that react quickly with other proteins in the body causing tissue damage) has been suggested to play an important role in kidney and blood vessel disease observed in diabetic patients. This proposal will try to identify and measure specific proteins in the kidney and vessels that are involved in the production of oxidative stress. We aim to define which one of these proteins is the most important. We will assess in detail how these proteins work and which other factors are activated leading to tissue damage. The ultimate goal of these studies is to find new treatment options to decrease the production of harmful molecules in the kidney and blood vessel wall thereby reducing kidney failure, heart attacks, stroke and gangrene in diabetes. In our studies, we will use medications already used in patients to treat high blood pressure in diabetes. In preliminary studies we have shown that these drugs also reduce oxidative stress. Furthermore, we will use novel, more specific treatments that the harmful ptoteins. Through a collaboration with Professor Harald Schmidt and his group from Germany who have recently moved to Monash University in Melbourne we will have access to mice in which specific genes for harmful proteins have been knocked out. These mice when made diabetic will most likely develop less or no kidney and blood vessel damage. Our studies will help to identify the most important oxidative stress producing protein associated with kidney and vessel disease. This knowledge will lead to more effective and more potent treatments for patients with diabetes to prevent, stop or even improve kidney and blood vessel disease thereby reducing disability and death in this high risk group of patients.Read moreRead less
ADVANCE-ON: A Post-trial Observational Study Of ADVANCE
Funder
National Health and Medical Research Council
Funding Amount
$775,867.00
Summary
The ADVANCE (Action in Diabetes and Vascular Disease) study demonstrasted that intensive control of blood glucose only reduced kidney disease but that control of blood pressure reduced both cardiovascular and kidney disease. This 10-year post-trial follow up study will determine whether intensive control of blood glucose exerts cardiovascular benefits that emerge in the long term in patients with type 2 diabetes.