Obesity is an important cause of disease, including liver disease. Obesity-associated liver disease occurs when the liver becoming resistance to the effects of insulin, the hormone that controls blood sugar (glucose). In muscle and fat, insulin causes glucose to be taken into the tissues and stored. Glucose is made in the liver and the actions of insulin here are to turn off the release of glucose into the circulation and increase uptake and storage of glucose. Insulin resistance occurs in a num ....Obesity is an important cause of disease, including liver disease. Obesity-associated liver disease occurs when the liver becoming resistance to the effects of insulin, the hormone that controls blood sugar (glucose). In muscle and fat, insulin causes glucose to be taken into the tissues and stored. Glucose is made in the liver and the actions of insulin here are to turn off the release of glucose into the circulation and increase uptake and storage of glucose. Insulin resistance occurs in a number of situations but the most important of these is obesity, particularly when there is accumulation of fat inside the abdominal cavity. Although the liver has a central role in co-ordinating the bodies response to insulin, the mechanisms of insulin resistance in human liver are unknown. One prominent hypothesis is that fat molecules released by intra-abdominal fat deposits are responsible. Intra-abdominal fat stores are important because fatty acids from these deposits can travel directly to the liver with the blood supply from the gut. However the precise effects of these on insulin action in the liver are unknown. Fat tissue is actively involved in the regulation of metabolism and releases a number of regulatory proteins. One of these, adiponectin, appears to have an important role in improving insulin sensitivity in the liver. The production of adiponectin decreases as obesity increases, providing another link between obesity and insulin resistance in the liver. This project will examine insulin action and the signalling molecules responsible for this in human liver tissue. The project aims to determine the effect of obesity, particularly intra-abdominal fat deposits, on insulin responses in liver tissue. The studies also aim to confirm (or otherwise) the role of free fatty acids and adiponectin on insulin action in human liver. The data from these studies will contribute to our understanding of insulin resistance and obesity-related liver disease.Read moreRead less
Effects Of Melanocortin Neurons On Systemic Glucose Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$860,251.00
Summary
There is good evidence that the brain can control blood glucose, but we do not know how this occurs, or why this doesn’t work in diabetes. This grant will use cutting edge mouse genetic technology to determine how the brain controls blood glucose, and what changes in diabetes. This grant will determine how several hormones act through the brain to change glucose levels, and will help develop new strategies to treat high blood glucose.
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
Impact Of Advanced Glycation On Anti-atherogenic Properties Of High Density Lipoprotein
Funder
National Health and Medical Research Council
Funding Amount
$372,471.00
Summary
Type 2 diabetes is a rapidly growing medical problem in Australia and around the world. Diabetes affects human health through its complications and the cardiovascular complications are a cause for major concern. One of the complications is the effect on plasma lipids: it makes cholesterol carrying particles to accumulate in the blood vessels, causing atherosclerosis. We intend to investigate how diabetes modify these particles making them atherogenic.
Glutathione Transferase Zeta: A Novel Regulator Of Glucose And Lipid Metabolism
Funder
National Health and Medical Research Council
Funding Amount
$604,143.00
Summary
Obesity is a problem of global significance as a cause of preventable illness and death. The many consequences of obesity including cardiovascular disease, type 2 diabetes, cancer and osteoarthritis are an increasing burden on affected subjects and on the health care system. Our recent studies have revealed a novel pathway for the regulation of obesity. This discovery has provided a new target for the development of drugs for obesity and related disorders.
Role Of Microvascular Flowmotion In Skeletal Muscle Glucose Metabolism
Funder
National Health and Medical Research Council
Funding Amount
$596,971.00
Summary
Obesity and type 2 diabetes are nationally and globally reaching epidemic rates. This project investigates the regulation of blood flow within muscle and its impact on metabolism. Outcomes from the study may lead to diagnostic tools and treatments for cardiovascular disease associated with obesity, hypertension and type 2 diabetes.