Conologues: Ultra-fast-acting Therapeutic Insulins Based On Cone Snail Venom Insulin Principles
Funder
National Health and Medical Research Council
Funding Amount
$1,082,866.00
Summary
The increasing prevalence of Type 1 and Type 2 diabetes demands better treatments. Our Project is based on a fascinating discovery by our international team of CIs of a new type of insulin within marine organisms that could form the basis of a novel diabetes therapeutic. Within our Project we will exploit this discovery to develop a new class of ultra-rapid-acting therapeutic insulins.
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 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.
Dissecting The Role Of Selective Insulin Resistance In Type 2 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$980,624.00
Summary
Insulin resistance is a clinical condition where insulin, secreted from the pancreas in response to meals, is unable to fulfill its normal function. It is intimately linked to obesity and associated diseases - type 2 diabetes, cancer and cardiovascular disease. This proposal examines mechanisms contributing to insulin resistance and how insulin resistance leads to disease. We will identify drug targets with improved specificity and lead to novel insight into the risks of current treatments.
Hepatic Oxidative Stress, PTPs & STAT Signalling In Obesity
Funder
National Health and Medical Research Council
Funding Amount
$1,086,547.00
Summary
Obesity is increasing at an alarming rate worldwide and is a leading cause of morbidity and mortality. Obesity is causally linked to the development of insulin resistance, a prelude to type 2 diabetes. In this proposal we will define a novel liver centric mechanism by which insulin resistance and oxidative stress may promote the development of morbid obesity, type 2 diabetes and liver disease.
Insulin triggers glucose uptake into fat and muscle tissue, a process that is defective in type 2 diabetes. Insulin does this by triggering a complex cascade of actions once it binds to muscle and fat cells. We will analyse the function of a crucial protein within this cascade. This protein is mutated in humans with severe insulin resistance and our proposed project will dissect how this protein works potentially providing a novel drug target to treat diabetes.
Understanding The Physiological Consequences Of Biased Signalling Mediated By The Glucagon-like Peptide-1 Receptor
Funder
National Health and Medical Research Council
Funding Amount
$636,508.00
Summary
The glucagon-like peptide 1 receptor is a major target for treatment of Type 2 diabetes and obesity. However, the development of drugs targeting this receptor is challenging as activation by different ligands can result in distinct signalling biases, a paradigm for which there is limited understanding of the physiological consequences. This project will address this critical knowledge gap and may allow for development of novel drugs with improved therapeutic outcomes.
Do Synaptic-like Mechanisms Control Insulin Secretion?
Funder
National Health and Medical Research Council
Funding Amount
$593,235.00
Summary
An estimated 415 million people world-wide were diagnosed with diabetes in 2015. One of the causal factors in disease is the dysregulation of insulin secretion. We have developed new techniques to study insulin secretion that has led us to propose a new model for secretory control. This proposal sets out experiments to critically test this model. The outcomes could have wide-reaching impact on understanding and for future treatment and prevention of the diabetes.
Characterisation Of Autophagy Deficiency In Skeletal Muscle Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$956,237.00
Summary
Defects in skeletal muscle are a cause of muscle disease, and also have broad health implications for diabetes, obesity and liver disease. As such, it is important to understand the processes required for healthy muscle and how signals communicate from muscle to the liver and fat, which integrate whole body metabolism. This application examines how the cellular degradation process known as autophagy integrates these important processes by investigating a novel gene regulator of this pathway.
Dissecting Rapamycin Sensitive And Insensitive Effects Of MTOR
Funder
National Health and Medical Research Council
Funding Amount
$1,183,241.00
Summary
All cells possess machinery that can sense nutrient availability and trigger cell growth and nutrient storage pathways. However, nutrient oversupply is detrimental to health. Recently, it was shown that drugs that inhibit the nutrient sensors have life extending effects. Our laboratory has discovered a novel mechanism by which these drugs might be mediating these beneficial effects that could change the way we think about the beneficial effects of these drugs and their mode of action