Examining The Metabolic And Cognitive Deficits Caused By Insulin Resistance In The Ventral Striatum
Funder
National Health and Medical Research Council
Funding Amount
$400,372.00
Summary
Brain insulin resistance is thought to cause metabolic and cognitive deficits, but the underlying neural mechanisms remain elusive. This project addresses this gap in our knowledge by examining how brain insulin resistance disrupts the metabolic regulation of food intake and the cognitive control of actions. The outcomes will provide new insights in disorders characterised by brain insulin resistance such as obesity and dementia.
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.
Most common diseases of ageing like diabetes and cancer have proven intractable because much of our knowledge is limited to individual molecules. This proposal takes a global approach to complex diseases, utilising quantitative high-resolution methods and computational modelling. This research will lead to a completely new way of thinking about complex diseases providing a range of completely novel treatment options.
In patients predisposed to metabolic diseases, excessive fats get delivered to various tissues. About 10 to 15% are converted into sphingolipids, many of which have deleterious effects on tissue function. Blocking sphingolipid production prevents diabetes and most cardiovascular diseases in rodents. We seek to better understand these mechanisms and determine how the observations can be translated into new therapies and better clinical outcomes.
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.
Ciliary Neurotrophic Factor: A Novel Theraputic Agent For The Prevention Of Muscle Insulin Resistance
Funder
National Health and Medical Research Council
Funding Amount
$602,673.00
Summary
In 1995 leptin was discovered and scientists world-wide hoped that this was the great panacea in the treatment of obesity related disorders. Alas, from 1995-1997 the identification of a novel cytokine inducible compound termed suppressor of cytokine signaling (SOCS) that negatively regulated leptin signalling and lead to leptin resistance, quashing hopes for a viable anti-obesogenic drug. Recently, however, work from our group has demonstrated that the neuropoietic cytokine, ciliary neurotrophic ....In 1995 leptin was discovered and scientists world-wide hoped that this was the great panacea in the treatment of obesity related disorders. Alas, from 1995-1997 the identification of a novel cytokine inducible compound termed suppressor of cytokine signaling (SOCS) that negatively regulated leptin signalling and lead to leptin resistance, quashing hopes for a viable anti-obesogenic drug. Recently, however, work from our group has demonstrated that the neuropoietic cytokine, ciliary neurotrophic factor (CNTF), can act in an anti-obesogenic fashion in a manner similar to leptin. However, unlike leptin, when we place rodents on a high fat diet, the effects of CNTF persist and override induction SOCS proteins. This project will examine the biochemical pathways that allow the actions of CNTF to persist in the presence of diet-induced obesity. This is of major significance because in completing this work, the potential for the development of peripheral tissue drug targets for the treatment of obesity related diseases are both tangible and realistic.Read moreRead less