Analysis Of A Chemosensory Complex That Controls Twitching Motility And Virulence In Pseudomonas Aeruginosa
Funder
National Health and Medical Research Council
Funding Amount
$346,250.00
Summary
Pseudomonas aeruginosa is a common bacterium which causes serious life-threatening infections of individuals with cystic fibrosis, AIDS or who have suffered severe burns or are undergoing cancer chemotherapy. Infection by this pathogen requires the controlled expression of a large number of virulence factors including extracellular enzyme, toxins and structures for the attachment and colonisation of host tissues. We have identified a complex multicomponent regulatory system which coordinates the ....Pseudomonas aeruginosa is a common bacterium which causes serious life-threatening infections of individuals with cystic fibrosis, AIDS or who have suffered severe burns or are undergoing cancer chemotherapy. Infection by this pathogen requires the controlled expression of a large number of virulence factors including extracellular enzyme, toxins and structures for the attachment and colonisation of host tissues. We have identified a complex multicomponent regulatory system which coordinates the expression of many of the virulence determinants of this pathogen. This project aims to dissect the intermolecular interactions and signalling events which input into, occur within, and output from this regulatory system. This knowledge will provide a platform for developing rational strategies for the production of new antimicrobials for fighting infections by this and related pathogens.Read moreRead less
Therapeutic Potential Of The Dipeptidyl Peptidase IV Gene Family
Funder
National Health and Medical Research Council
Funding Amount
$478,067.00
Summary
We will further investigate the therapeutic potential of the Dipeptidyl Peptidase (DP) IV gene family by studying genes identified as probable therapeutic targets for stem cell transplant, anti-inflammatory and cancer therapies. DPIV is an identified target for diabetes therapy. Our research group is internationally recognised as expert in both liver disease pathogenesis and the DPIV gene family.
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