The rhythm of the normal heart beat is controlled by electrical signals mediated by the flow of ions. The movement of ions across heart cell membranes is predominantly mediated by ion channel proteins. One of these proteins, called HERG, has some very unusual properties that make it well suited for suppressing abnormal heart beats. We propose to undertake a detailed investigation of the mechanisms by which HERG channels open and close. The results will provided a greater understanding of how HER ....The rhythm of the normal heart beat is controlled by electrical signals mediated by the flow of ions. The movement of ions across heart cell membranes is predominantly mediated by ion channel proteins. One of these proteins, called HERG, has some very unusual properties that make it well suited for suppressing abnormal heart beats. We propose to undertake a detailed investigation of the mechanisms by which HERG channels open and close. The results will provided a greater understanding of how HERG channels work and how altered function of HERG channels in patients with heart disease leads to an increased risk of abnormal heart rhythms and sudden cardiac death.Read moreRead less
Diabetes Target Discovery And Drug Development In Mice And Primates
Funder
National Health and Medical Research Council
Funding Amount
$705,501.00
Summary
1.7 million Australians have diabetes, only ½ are diagnosed, and the incidence is increasing. Diabetes imposes high economic and social costs in Australia and globally. Diabetes is often not well managed with current therapies, and there is a strong need for new drugs to treat diabetes. This research project will search for new drug targets, to develop better medicines to treat diabetes.
Can Blockade Of Leptin Action In The Brain Reduce Blood Pressure In Obese Mice?
Funder
National Health and Medical Research Council
Funding Amount
$653,049.00
Summary
The aim of these studies is to determine if high leptin levels in obese mammals activate the sympathetic nervous system (SNS), and thereby contribute to pathologically high blood pressure, increased heart rate and diabetes. If so, it may be possible to develop novel therapeutics to acutely improve a patient's metabolic condition, by blocking leptin action. The obese are already insensitive to the anorectic actions of leptin, so blocking leptin would likely have no deleterious consequences.
Understanding How The Brain Senses And Encodes Hunger And Satiety
Funder
National Health and Medical Research Council
Funding Amount
$473,477.00
Summary
Obesity is the most important health concern in the world today. Despite all the epidemiology evidence and despite the intervention approaches, obesity and type-2 diabetes continues to rise in Australia and worldwide. Clearly, a greater biological understanding of the mechanisms driving increased calorie intake and decreased calorie expenditure. This fellowship explores the different neural circuits in the brain and how they regulate motivation for food and food consumption
The Anti-inflammatory Role Of Collagen IV In Asthma
Funder
National Health and Medical Research Council
Funding Amount
$317,076.00
Summary
We have discovered that a protein, tumstatin, is missing from the lungs of people with asthma. We now have exciting data showing, for the first time, that tumstatin can stop inflammation. If tumstatin is part of the system that normally limits inflammation in the lungs its absence in asthma may be critical. In this grant we will discover how tumstatin works to block inflammation and why it is absent in asthma. Our studies will provide vital information about the role of tumstatin in the airways.
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.