Role Of Viruses In The Development Of Lung Disease In Cystic Fibrosis
Funder
National Health and Medical Research Council
Funding Amount
$1,223,186.00
Summary
This study will investigate how lung disease starts in babies with cystic fibrosis and the role of viral infections in this process. The new knowledge gained will help us move towards treatments that prevent or delay the start of lung disease, something not currently possible. We believe this new treatment paradigm will lead to improved quality and extent of life of those with cystic fibrosis.
Towards The Rational Design Of Calcium Sensing Receptor Allosteric Modulators For The Treatment Of Osteoporosis And Calcium Handling Disorders
Funder
National Health and Medical Research Council
Funding Amount
$741,390.00
Summary
Drugs that target the human calcium sensing receptor can be too strong or too weak, resulting in side effects or lack of efficacy. This proposal thus seeks to establish whether the strength of drug activity can be rationally altered and exploited to treat different disease states by fine-tuning CaSR activity in a disease-specific manner.
Signaling Pathways To Enhance Potency Of AMPK-targeting Drugs
Funder
National Health and Medical Research Council
Funding Amount
$661,966.00
Summary
Sedentary lifestyles and consumption of high energy foods has led to epidemics of obesity-related metabolic diseases that place enormous financial and medical burden on the Australian economy. An attractive drug target to treat these diseases is AMP-activated protein kinase (AMPK) which functions as both a cellular fuel gauge and co-ordinator of whole-body metabolism. Our goal is to improve AMPK drug potency by identifying novel processes that sensitize AMPK to drugs.
The Regulation Of 14-3-3 Protein Function By Post-translational Modification
Funder
National Health and Medical Research Council
Funding Amount
$212,036.00
Summary
The cells of our body have control mechanisms that prevent them from growing abnormally. However, when cells become cancerous they escape the normal checks and controls and are able to survive, divide and grow uncontrollably. In the last decade the molecular basis of several of the control mechanisms involved in preventing cancerous growth have been uncovered. However, our understanding is far from complete and recent research reports suggest that we have thus far overlooked a whole level of reg ....The cells of our body have control mechanisms that prevent them from growing abnormally. However, when cells become cancerous they escape the normal checks and controls and are able to survive, divide and grow uncontrollably. In the last decade the molecular basis of several of the control mechanisms involved in preventing cancerous growth have been uncovered. However, our understanding is far from complete and recent research reports suggest that we have thus far overlooked a whole level of regulation of cell growth control. Signals that instruct a normal cell to divide are propogated by pathways of interacting molecules within the cell. These pathways are regulated by switch mechanisms that either modify the interacting molecules, thereby inactivating their activity or by controlling when and where the molecules are allowed to interact. This spatial and temporal control mechanism is mediated by a family of specialised molecules, called 14-3-3 proteins. Recent research indicates that the function of these 14-3-3 proteins is also tightly controlled, although as yet we don't understand how. This research proposal attempts to discover the molecular mechanism of regulation of 14-3-3 function. An understanding of this process may provide new molecular targets for the development of therapeutics against cancer.Read moreRead less
A common characteristic of cancer is the failure of cells to die when they normally would. One of the problems with many cancer therapies is that they rely on the integrity of signalling pathways to the normal ‘death machinery’ of the cell to do their job. By understanding how the molecular death machine operates we are fashioning new drugs that can target it directly, thus bypassing the very pathways that are so frequently disrupted in tumour cells.