The amyloid beta (Ab) protein is implicated in Alzheimer’s Disease through its ability to impair brain metabolism. We have recently found that Ab can also impair metabolism in other tissues. This project will determine the role of Ab in regulating whole body metabolism and determine whether it is implicated in the development of metabolic diseases such as type 2 diabetes.
Metabolic Wiring In Adipocytes - Unique Role In Maintaining Long-term Health
Funder
National Health and Medical Research Council
Funding Amount
$1,077,886.00
Summary
Fat cell metabolism is wired to optimize the cell’s ability to make and store lipid while programming the cell to fulfil its function in whole body metabolism. We will: 1) map fat cell metabolism under optimal and insulin resistant conditions; 2) explore the role of 3 nodes in his metabolic circuit predicted as control points; 3) use a novel genetically engineered mouse model to explore the functional significance of fat cell metabolism in whole body insulin sensitivity.
The prevalence of type 2 diabetes in increasing worldwide, the International Diabetes Federation predicting 435 million will have diabetes in 2030. The major driver of the diabetes epidemic is obesity. There is strong evidence linking type 2 diabetes and obesity to an increased risk of cancer. However, the exact mechanism promoting cancer development in obese and diabetic individuals is not clear. This project will examine the effects of high insulin levels on cancer development and progression.
The Role Fructose-1,6-bisphosphatase On The Regulation Of Hepatic Gluconeogenesis
Funder
National Health and Medical Research Council
Funding Amount
$212,485.00
Summary
Type 2 or adult onset diabetes is a disease characterised by high blood sugar that causes damage to the kidneys, eyes and to the circulation and many patients die from heart attack or stroke. There is an increase in the prevalence of diabetes in Australia and a substantial portion of the health budget is utilised by caring for people with diabetes. Determining what exactly causes the increase in blood sugar levels is critical in the treatment of the disease. It is known that the sugar produced a ....Type 2 or adult onset diabetes is a disease characterised by high blood sugar that causes damage to the kidneys, eyes and to the circulation and many patients die from heart attack or stroke. There is an increase in the prevalence of diabetes in Australia and a substantial portion of the health budget is utilised by caring for people with diabetes. Determining what exactly causes the increase in blood sugar levels is critical in the treatment of the disease. It is known that the sugar produced and released by the liver is an important contributor to the high blood sugar levels found in patients with diabetes. The main biochemical pathway responsible for this is called gluconeogenesis, a complex arrangement of enzymes, which convert amino acids and fat into sugar. Although it is known that this pathway is overactive in patients with diabetes, the exact reason for this is not clearly understood. The aim of this proposal is to produce a transgenic mouse that has an increase in liver sugar production as a result of an increase in gluconeogenesis, and to study its effects on blood sugar levels. Furthermore, studies will be performed to understand the regulation of this pathway by infusing the transgenic mice with insulin, the hormone that inhibits gluconeogenesis. The mechanism of action of insulin will be determined by the measurement of key enzymes that regulate gluconeogenesis. The significance of this grant is to identify possible sites for the development of new drugs or gene therapy that will lead to a decrease in the production of sugar by the liver. This will lead to better control of blood sugar levels and slow down or even prevent the onset of diabetes complications.Read moreRead less
Long Acting Insulin: Drug Design, In Vitro Activity Through To Animal Model Efficacy
Funder
National Health and Medical Research Council
Funding Amount
$445,011.00
Summary
This research will develop novel insulins that possess improved stability and activity for diabetic patients. The improved pharmacological actions of the modified insulins offer increased treatment options for patients eg. enabling less frequent or invasive medication. Our cross-disciplinary team will (i) design and synthesise insulin derivatives, (ii) explore the activity of the modified insulins by biophysical activity profiles in vitro, (iii) evaluate the in vivo stability and clinical effect ....This research will develop novel insulins that possess improved stability and activity for diabetic patients. The improved pharmacological actions of the modified insulins offer increased treatment options for patients eg. enabling less frequent or invasive medication. Our cross-disciplinary team will (i) design and synthesise insulin derivatives, (ii) explore the activity of the modified insulins by biophysical activity profiles in vitro, (iii) evaluate the in vivo stability and clinical effects.Read moreRead less
Can Vitamin D Prevent Diabetes By Improving Insulin Sensitivity And Secreation In Overweight Humans?
Funder
National Health and Medical Research Council
Funding Amount
$715,371.00
Summary
Vitamin D is mainly produced by the action of sunlight on skin. Low levels of vitamin D are becoming more common, as we work more indoors and avoid the sun and have been associated with type 2 diabetes. In proposed study, healthy overweight people, with low vitamin D, will be given vitamin D for 16 weeks to optimise blood levels of this vitamin. We will examine the changes in sugar metabolism. This study should provide important evidence on how vitamin D protects against diabetes and will suppor ....Vitamin D is mainly produced by the action of sunlight on skin. Low levels of vitamin D are becoming more common, as we work more indoors and avoid the sun and have been associated with type 2 diabetes. In proposed study, healthy overweight people, with low vitamin D, will be given vitamin D for 16 weeks to optimise blood levels of this vitamin. We will examine the changes in sugar metabolism. This study should provide important evidence on how vitamin D protects against diabetes and will support novel approaches to diabetes prevention.Read moreRead less
A Novel Mechanism Involved In The Regulation Of MTOR Signaling By Insulin In Adipocytes
Funder
National Health and Medical Research Council
Funding Amount
$224,324.00
Summary
I am a cell biologist with a major interest in insulin action and diabetes. I aim to determine the role of insulin as a nutrient sensor in fat cells. This is very important as it is becoming evident that fat cells somehow sense the amount of nutrients in the circulation and then relaying this information to other tissues including the brain. This system may play an important role in the development of obesity. However, the molecular details of the nutrient sensor remain poorly defined.