Glucose is a critical fuel for living organisms and its presence in the gut triggers nerves that slow stomach emptying. However, little is known of how glucose is actually detected in the gut. We have established that sweet taste molecules of the tongue are also present in the gut, where they may detect glucose. This research will measure the expression and function of these molecules in the gut of humans and mice, and reveal key information on their potential as targets in health and disease.
Activated Protein C Utilises Protease Activated Receptors And Epidermal Growth Factor Receptor To Heal Wounds
Funder
National Health and Medical Research Council
Funding Amount
$436,882.00
Summary
Chronic leg ulcers are a major burden to the individual sufferer and to the health system. We have discovered that activated protein C (APC) potently stimulates wound healing in the laboratory and now have exciting positive results from a small pilot clinical trial showing that applying APC solution to leg ulcers also helps healing in patients. This study plans to discover how APC works at the molecular level.
Modulating Sphingolipid Signalling To Enhance Wound Healing
Funder
National Health and Medical Research Council
Funding Amount
$698,447.00
Summary
Impaired wound healing is a major problem for diabetics, who often suffer with chronic unresolved wounds with serious effects on their quality of life and mortality. We have recently discovered a new pathway involving sphingolipids that shows great promise to improve wound healing in diabetics. In this project we will examine the targeting of this pathway, using existing and newly developed agents, to improve wound healing in advanced pre-clinical models of diabetes.
Mechanics Of Normal And Disordered Gastric Emptying Studied Using Simultaneous Ultrasound And High Resolution Manometry
Funder
National Health and Medical Research Council
Funding Amount
$145,626.00
Summary
Optimal digestion and absorption relies on the stomach breaking down food and delivering it to the small intestine at an optimal rate. Abnormalities in the processes controlling the stomach's processing of food may lead to malnutrition, gastrointestinal symptoms or unpredictable drug absorption, and are commonly seen in patients with diabetes mellitus, gastrointestinal reflux disease and nonulcer dyspepsia, or following stomach surgery. Currently our understanding of the way the stomach empties ....Optimal digestion and absorption relies on the stomach breaking down food and delivering it to the small intestine at an optimal rate. Abnormalities in the processes controlling the stomach's processing of food may lead to malnutrition, gastrointestinal symptoms or unpredictable drug absorption, and are commonly seen in patients with diabetes mellitus, gastrointestinal reflux disease and nonulcer dyspepsia, or following stomach surgery. Currently our understanding of the way the stomach empties food is incomplete, and there is little information as to the mechanisms by which diseases cause abnormal stomach emptying. Recent developments in recording methods mean that we can now simultaneously measure stomach contractions, the pressures these generate and flow from the stomach. This information is synchronised and displayed for analysis using computer techniques. In this project these novel methods will be used initially to examine the normal processes by which meals with a variety of compositions and consistencies empty from the stomach. This will provide information as to which aspects of the way the stomach functions are important for breaking down food into particles, and which aspects control the flow of food from the stomach into the intestine. The mechanisms by which the rate of emptying of the stomach is controlled by feedback signals caused by the presence of foodstuffs in the small intestine will be investigated by examining the effects of infusing nutrients into the intestine on the motions of the stomach wall, pressures within the stomach and the passage of stomach contents into the small intestine. The mechanism of action of drugs and diseases which slow stomach emptying will then be examined by measuring the movements, pressures and emptying of the stomach in subjects receiving the drug, or in patients with dibetes, and comparing this information with the processes observed during normal stomach emptying.Read moreRead less
Childhood diabetes [both type 1- and young type 2-] is increasing alarmingly. Diabetes prevention will be a great benefit via both a healthier population and relief to the national health budget. To develop targeted preventive treatments we first need to identify genetic risk factors, requiring access to a large number of samples. We will establish a national Repository which will make DNA available to all qualified Australian researchers enhancing their ability to identify causes of diabetes.
A Single Fibre Study Of The Relationship Between Glucose Transport And Skeletal Muscle Contractility
Funder
National Health and Medical Research Council
Funding Amount
$284,625.00
Summary
Type 2 diabetes (a progressive disorder often accompanied by obesity) is claimed to be the most common metabolic disease in the world and is predicted to affect 1.15 million Australians by the year 2010. Muscle contraction (in the form of physical exercise or exercise training) is now an essential component in the management of type 2 diabetes and-or obesity.This project has been planned from a perspective that combines theoretical and experimental expertise in the field of muscle cell contracti ....Type 2 diabetes (a progressive disorder often accompanied by obesity) is claimed to be the most common metabolic disease in the world and is predicted to affect 1.15 million Australians by the year 2010. Muscle contraction (in the form of physical exercise or exercise training) is now an essential component in the management of type 2 diabetes and-or obesity.This project has been planned from a perspective that combines theoretical and experimental expertise in the field of muscle cell contractility with a keen interest in the role of skeletal muscle in glucose homeostasis. Work carried out within the scope of this project will contribute new insights into the pathogenesis of type 2 diabetes-obesity and new information on the cellular mechanisms involved in contraction-stimulated glucose transport by skeletal muscle. As part of this project we will develop single muscle cell-fibre preparations and appropriate protocols for monitoring cellular aspects of glucose transport in skeletal muscle. These preparations-protocols will have the potential to be used for testing anti-diabetic drugs directed towards intracellular targets. From an educational benefit point of view, the project will create the opportunity for 4-6 honours and 2-3 PhD students to acquire a rare and useful combination of skills and expertise in muscle cell biochemistry and physiology, while working on an issue of medical concern.Read moreRead less