Age- And Energy-status Dependent-plasticity Of Glucose Sensing, Orexigenic NPY Neurons: The Glucose-ghrelin Balance
Funder
National Health and Medical Research Council
Funding Amount
$578,641.00
Summary
Our research aims to identify how specific brain cells detect changes in glucose levels and how ageing and diet affect their function. We identified a subset of nerve cells that detect changes in glucose and the “hunger” hormone ghrelin, their ability to do so adapting with age and nutritional status. This project will investigate the potential of these nerve cells as targets for therapeutic and diet- intervention strategies to target obesity, diabetes and promote healthy ageing
I am a physiologist focused on the role of dietary protein on excess weight gain. In the proposed study, I will examine energy balance in lean and overweight individuals in response to a 4-day covertly manipulated 10, 15 or 25% protein diet. We will measure effects on hunger using subjective ratings and hormone levels and the affects on energy expenditure including resting metabolic rate, the energy it takes to digest food and physical activity levels.
Brain Glucose-sensing: Age- And Energy-status-dependent Plasticity Of Function-specific Pro-opiomelanocortin (POMC) Glucose-sensing Neurons In The Arcuate Nucleus Of The Hypothalamus
Funder
National Health and Medical Research Council
Funding Amount
$495,071.00
Summary
Obesity and ageing predispose individuals to diabetes, the health and socio-economic implications of which posing significant challenges for Australia in the foreseeable future. Research outlined here aims to identify novel mechanisms enabling brain cells to detect changes in glucose and how ageing and diet affect the function of these nerves. We believe this research could provide novel therapeutic and early diet-based intervention strategies for diabetes and obesity.
Muscle Thermogenesis In Models Of Predisposition To Obesity
Funder
National Health and Medical Research Council
Funding Amount
$469,289.00
Summary
Obesity is a major health crisis, but effective treatments remain elusive. Body weight is determined by a balance of food intake and energy expenditure. Understanding both sides of this equation is essential to combating obesity. This project will show that the rate at which muscle uses energy is an important determinant of energy balance and contributes to the propensity to become obese. The work will define muscle as a target for developing anti-obesity therapies.
Schizophrenia: Reversal Of Atypical Antipsychotic Drug-induced Obesity And Its Related Metabolic Disorders
Funder
National Health and Medical Research Council
Funding Amount
$619,854.00
Summary
Atypical antipsychotic drugs such as olanzapine are commonly used to treat mental illnesses such as schizophrenia. While these drugs are effective, their side effects of obesity and metabolic disorders are a major hurdle leading to a serious lack of compliance in taking medication. This project aims to develop better antipsychotic treatment with reduced side-effects including obesity and metabolic disorders for mental illness patients.
NPY Coordination Of Energy Balance And Physical Activity
Funder
National Health and Medical Research Council
Funding Amount
$844,596.00
Summary
Anorexia nervosa (AN) is an eating disorder characterized by behavioral alterations, restrictive eating leading to extremely low body weight. AN is also associated with a paradoxical hyperactivity representing a failure of the brain to adjust activity to energy status. Here we aim to investigate the role of the Neuropeptide Y (NPY), a known regulator of homeostatic control and activity in the development of hyperactivity in AN, thus help to identify NPY-targeted therapeutics for AN treatment.
New Approaches For The Discovery Of Obesity Causing Genes
Funder
National Health and Medical Research Council
Funding Amount
$863,910.00
Summary
Obesity is a major health problem and treatments are ineffective. My team’s focus is to identify new candidate genes that control appetite and body fat mass and how this leads to the development of obesity or the other extreme, anorexia. We will use whole genome sequence analysis in humans and functionally validate the newly identified genes in model organisms like mice and flies. Results from this study will eventually form the basis for personalized and general health care in the future.
The Role Of The Central Insulin-NPY Pathway In The Regulation Of Energy Balance
Funder
National Health and Medical Research Council
Funding Amount
$474,975.00
Summary
Insulin is known for its role in the regulation of glucose metabolism in the liver, muscle and fat, however very little is known about the role of insulin in the brain. This project aims to improve our understanding on how insulin regulates energy balance and appetite and identifies the exact neuronal networks involved in the brain and to understand the mechanistic insights into the pathology of obesity, providing the means for the development of more effective and safer therapeutic approaches.
Central Ghrelin Regulates Peripheral Glucose Metabolism
Funder
National Health and Medical Research Council
Funding Amount
$339,938.00
Summary
Recent evidence shows ghrelin is a key anti-starvation hormone that increases glucose production in order to maintain appropriate blood glucose concentrations. How ghrelin acts in the brain to control blood glucose concentrations remains unknown and will be the focus of this project. This project is relevant to disorders such as anorexia nervosa and will help us understand blood glucose regulation during conditions of food scarcity.
How Intra-abdominal Transplantation Of Subcutaneous Adipose Tissue Prevents High-fat Diet-induced Insulin Resistance And Obesity
Funder
National Health and Medical Research Council
Funding Amount
$358,465.00
Summary
In obese humans, storing excess fat within the abdomen is associated with the development of adult-onset diabetes and cardiovascular disease. However, the mechanisms linking intra-abdominal fat accumulation with these diseases are not well understood. We have studied intra-abdominal fat accumulation in mice using a transplant model, and we have found that transplanting subcutaneous fat intra-abdominally prevents diet-induced obesity and glucose intolerance. We aim to investigate the underlying m ....In obese humans, storing excess fat within the abdomen is associated with the development of adult-onset diabetes and cardiovascular disease. However, the mechanisms linking intra-abdominal fat accumulation with these diseases are not well understood. We have studied intra-abdominal fat accumulation in mice using a transplant model, and we have found that transplanting subcutaneous fat intra-abdominally prevents diet-induced obesity and glucose intolerance. We aim to investigate the underlying mechanisms.Read moreRead less