Alterations In Secretion And Gene Expression In Pancreatic Beta Cells Exposed To Lipid.
Funder
National Health and Medical Research Council
Funding Amount
$425,250.00
Summary
The project is aimed at a better understanding of the way in which fats control gene expression in the pancreatic beta cells of the islets of Langerhans. Because changes in gene expression are to likely to explain why exposure of these cells to fat disrupts their ability to release insulin, identification of these genes could explain why only some obese people develop Type 2 diabetes.
Mitochondrial Energy Metabolism And Insulin Action
Funder
National Health and Medical Research Council
Funding Amount
$380,558.00
Summary
Obesity and type 2 diabetes are two major health conditions associated with abnormal energy metabolism. In this proposal I will investigate the role of important metabolic proteins in regulating energy expenditure and insulin action in skeletal muscle and adipose tissue, two crucial tissues for whole-body energy metabolism. These studies will provide critical insight into the factors leading to obesity and type 2 diabetes and will assist in identifying possible therapeutic targets.
Elucidating The Molecular Regulation Of Gp130 Complex Signalling In Lipid And Glucose Metabolism.
Funder
National Health and Medical Research Council
Funding Amount
$387,489.00
Summary
Overnutrition promotes obesity, which greatly increases the risk of type 2 diabetes and cardiovascular disease. We have provided evidence that activation of gp130 signalling may enhance insulin action and fatty acid oxidation in metabolically active tissues. My research proposal aims to elucidate the molecular regulation of gp130 complex signalling in lipid and glucose metabolism in important metabolic tissues.
I am a biochemist determining how metabolism is controlled in response to energy supply and demand. This is important in order to understanding how diet and exercise are beneficial to health.
A Novel Lipid Sensitive Kinase And Its Role In Obesity-induced Inflammation And Insulin Resistance.
Funder
National Health and Medical Research Council
Funding Amount
$560,045.00
Summary
It is now apparent that obesity leads to chronic low grade inflammation which results in insulin resistance or pre-diabetes. The mechanisms that link obesity-induced inflammation to insulin resistance are not well understood, but involve lipid oversupply. We have preliminary data identifying that a protein, not known to previously play a role in metabolic diseases, is a critical mediator of lipid-induced inflammation. We will investigate the clinical potential of blocking this protein.
Can Blocking Fatty Acid Transport In Myeloid Cells Prevent Insulin Resistance?
Funder
National Health and Medical Research Council
Funding Amount
$511,294.00
Summary
Over the past 5 years it has become apparent that blood cells can become inflamed as people become obese. These inflamed blood cells can contribute to insulin resistance or pre-diabetes. Our hypothesis is that these blood cells become inflamed because they take up fat via fatty acid transporters. Our approach is to knock out one of these fatty acid transporters specifically in blood cells and reduce inflammation and insulin resistance due to overnutrition.
Activation Of HSP70: A Therapeutic Target To Treat Obesity-induced Insulin Resistance
Funder
National Health and Medical Research Council
Funding Amount
$467,720.00
Summary
Type 2 diabetes is a prevalent and serious disease and the development of new strategies to treat it is warranted. In recent experiments we have been able to show that by upregulating a particular protein, referred to as a heat shock protein, we can reduce the clinical markers of type 2 diabetes by reducing key inflammatory pathways known to lead to insulin resistance. In this series of studies we will investigate whether activation of this protein is a target for therapeutic treatment.
Novel Gp130 Receptor Ligands To Treat Metabolic Disease
Funder
National Health and Medical Research Council
Funding Amount
$708,267.00
Summary
Over the past decade work from our group has identified that a group of cytokines termed the gp130 receptor cytokines can lead to weight loss in animals and humans. Unfortunately, due to side effects, clinical trials using peptides analogues of these cytokines have failed. We believe that we know why this has occurred and we think we have developed new peptides that will alleviate these side effects. This application will test the efficacy of these novel peptides in mammals in vivo.
Sphingosine Kinase As A Target Therapeutic For Obesity Induced Insulin Resistance
Funder
National Health and Medical Research Council
Funding Amount
$450,390.00
Summary
Obesity is linked to the development of insulin resistance and diabetes, which represent a significant health issue in Australia. A number of factors contribute to the development of insulin resistance, including defective fatty acid metabolism. This study proposes to investigate whether manipulating sphingosine kinase, a key enzyme in lipid metabolism, affects the development of insulin resistance. These studies may identify novel targets for the treatment of insulin resistance and diabetes.