Regulation Of Pancreatic Beta-cell Number And Function By Adipocyte-released Hormones, Free Fatty Acids And Ghrelin.
Funder
National Health and Medical Research Council
Funding Amount
$256,500.00
Summary
The disease diabetes mellitus comprises a heterogeneous group of disorders all characterised by high blood glucose levels. Beta-cells in the pancreas, which secrete insulin, are central to the pathophysiology of the disease. Type 1 or insulin-dependent diabetes mellitus results from an absolute deficiency of insulin due to auto immunological destruction of the pancreatic beta cell, and accounts for 5-10% of total diabetes mellitus. In the more common type 2 or non-insulin-dependent diabetes mell ....The disease diabetes mellitus comprises a heterogeneous group of disorders all characterised by high blood glucose levels. Beta-cells in the pancreas, which secrete insulin, are central to the pathophysiology of the disease. Type 1 or insulin-dependent diabetes mellitus results from an absolute deficiency of insulin due to auto immunological destruction of the pancreatic beta cell, and accounts for 5-10% of total diabetes mellitus. In the more common type 2 or non-insulin-dependent diabetes mellitus, liver, muscle and fat cells are resistant to the action of insulin and compensatory mechanisms that are activated in the beta-cell to increase insulin secretion are not sufficient to maintain normal blood glucose levels. In Western countries including Australia, type 2 diabetes currently affects around 2% of the whole population and about 6% of adults (10% of over 60-y) and continues to grow at around 6% per annum. Type 2 diabetes often occurs in obese patients and a direct link between obesity and type 2 diabetes has been strongly suggested by research to date. It has also been found that a progressive loss of beta-cell function throughout the course of the disease results in the reduction of insulin secretion. The contribution of excessive fat tissue in obese patients to the progress of type 2 diabetes is not clear. Certain hormones from fat cells, metabolic regulatory hormone, and fatty acids have been demonstrated to influence the function of beta-cells in previous studies, including our own. We now aim to investigate in detail the effect of these on cultured beta-cells with molecular and cell biology techniques. We expect to identify a factor or factors which stimulate or inhibit the progress of beta-cell dysfunction, with the potential to identify therapeutic targets in the treatment of type 2 diabetes.Read moreRead less
Type 2 diabetes is reaching epidemic proportions across the world and is a huge burden in health care costs. We know it is a multifaceted disease with many symptoms, one of which is a reduction in insulin secretion. This proposal sets out to determine the mechanisms of insulin secretion from healthy tissue and what goes wrong in disease.
Investigation Of The Roles Of Calcium-dependent Proteases In Muscle Damage And Disease
Funder
National Health and Medical Research Council
Funding Amount
$360,160.00
Summary
Muscle strength is important to the health and well-being of everyone. Skeletal muscle weakening occurs as a result of certain disease states, aging and prolonged inactivity due to illness-injury-surgery. This can result in the loss of normal activity and mobility and an increased incidence of falls and accidents, which impact considerably on health care costs. There is a family of proteins called calpains that have been linked to a number of factors affecting muscle function, however it is not ....Muscle strength is important to the health and well-being of everyone. Skeletal muscle weakening occurs as a result of certain disease states, aging and prolonged inactivity due to illness-injury-surgery. This can result in the loss of normal activity and mobility and an increased incidence of falls and accidents, which impact considerably on health care costs. There is a family of proteins called calpains that have been linked to a number of factors affecting muscle function, however it is not known how they are involved. Calpains are proteases, ie. they destroy other proteins, and they are regulated by the concentration of calcium inside a cell. The calcium concentration increases dramatically inside a muscle cell when it contracts. Inside a muscle cell it is important that there is tight regulation of the calpains to avoid them being activated inappropriately during normal use and causing muscle damage. In certain disease states, such as types of muscular dystrophy, it is known that the calcium concentration within resting muscle fibres is increased compared with healthy muscle fibres. We propose that as a consequence of this, the calpains will be less regulated and will cause damage to the muscle, which contributes to the muscle weakness seen in these diseases. Whilst calpains have been implicated with symptoms associated with muscle dystrophies, the role they play is certainly unclear. The objectives of our research proposal are to understand what factors influence i) where the calpains are located and ii) when and how much they are activated, within muscle fibres. We will compare this in healthy muscle and muscle from mdx mice, an animal model of Duchenne muscular dystrophy.Read moreRead less