Structural Studies Of The Jak And Abl Kinases: A Prerequisite For Drug Design
Funder
National Health and Medical Research Council
Funding Amount
$360,965.00
Summary
Protein tyrosine kinases (PTK) are a large, pivotal family of signalling molecules implicated in diseases such as cancer and immune related disorders. This fellowship aims to develop more potent kinase inhibitors of a number of PTKs using Cytopia’s drug discovery capability coupled with the X-ray crystallography expertise within Monash University. This innovative approach will permit a rational structure-based drug discovery platform to be established and will lead to the creation of a portfolio ....Protein tyrosine kinases (PTK) are a large, pivotal family of signalling molecules implicated in diseases such as cancer and immune related disorders. This fellowship aims to develop more potent kinase inhibitors of a number of PTKs using Cytopia’s drug discovery capability coupled with the X-ray crystallography expertise within Monash University. This innovative approach will permit a rational structure-based drug discovery platform to be established and will lead to the creation of a portfolio of phase I therapeutics, which will be of substantial benefit in the medical health area.Read moreRead less
Identification And Characterization Of Substrates Of Tyrosine Kinases Involved In Hematopoiesis And Leukemia
Funder
National Health and Medical Research Council
Funding Amount
$241,527.00
Summary
The development and maintenance of tissues in mammals are tightly controlled and complex processes involving the growth, maturation and survival of vast numbers of cells of various types. In cancer, the cell's capacity to faithfully regulate these processes is diminished or lost. Many of the proteins that are essential for growth control are produced by an important class of genes called proto-oncogenes; literally, the prototypes of cancer-causing genes. Naturally occurring mutations in these ge ....The development and maintenance of tissues in mammals are tightly controlled and complex processes involving the growth, maturation and survival of vast numbers of cells of various types. In cancer, the cell's capacity to faithfully regulate these processes is diminished or lost. Many of the proteins that are essential for growth control are produced by an important class of genes called proto-oncogenes; literally, the prototypes of cancer-causing genes. Naturally occurring mutations in these genes have been identified in man and are likely to play a major role in the initiation and progression of distinct human malignancies. A significant number of proto-oncogenes are enzymes called protein tyrosine kinases (PTKs). Research has shown that the function of PTKs is to relay growth signals or other regulatory signals from the outer surface of the cell to specific target proteins inside the cell. These target proteins are needed to relay the signal to other target molecules and so on. This highly ordered process, involving a specific sequence of proteins, ensures that cells respond appropriately to a given signal. Our research focuses on identifying and studying the immediate targets of PTKs with the broad aim of understanding how PTKs control growth in normal and cancerous cells. We have recently developed a method that has enabled us to identify a new protein that may regulate the growth of blood cells. The research proposed here aims to extend our preliminary observations showing that the growth of specific types of blood cells is inhibited by this protein. We also plan to search for new targets of a PTK that is involved in leukemia. The findings of this research will provide important insight into how blood cells are regulated in health and disease.Read moreRead less
The Role Of ERK MAPKs In Compensated Cardiac Hypertrophy
Funder
National Health and Medical Research Council
Funding Amount
$241,650.00
Summary
According to recent statistics, heart failure accounts for almost 300 deaths each year in Australia. In fact, heart failure is now a major health problem that is on the rise, despite the reduced incidence of other forms of heart and blood vessel disease. We are now in the situation where the cost of treatment of heart failure exceeds that of treating all cancer patients, and there are more patient days in hospital with heart failure than with any other heart or blood vessel disease. Most often, ....According to recent statistics, heart failure accounts for almost 300 deaths each year in Australia. In fact, heart failure is now a major health problem that is on the rise, despite the reduced incidence of other forms of heart and blood vessel disease. We are now in the situation where the cost of treatment of heart failure exceeds that of treating all cancer patients, and there are more patient days in hospital with heart failure than with any other heart or blood vessel disease. Most often, the heart fails to act as an effective pump following long-term exposure to high blood pressure. The increased work load placed on the heart effectively forces it to increase in size in a process called cardiac hypertrophy. But this initial compensation which is of benefit to the patient commonly deteriorates and many of the heart cells die. The resulting death of heart cells is the failure of the heart, and death of the patient is inevitable. The fundamental changes in the functional protein molecules of the heart cells that accompany hypertrophy and heart failure are likely to be extremely complex. As yet, no research has taken a global and unbiased look into this complexity. However, there are new technologies that allow us to take such a look. We have established a collaborative research team to investigate the fundamental mechanisms underlying cardiac hypertrophy. We are exploiting a novel model in which hypertrophy does not progress to failure. Our combined expertise allows us to use recently developed scientific methodologies to evaluate the biochemical basis for these events in the heart. We have chosen to focus on documenting the changes in proteins that accompany cardiac hypertrophy with the aim to establish important targets for interventions to permit cardiac cells to survive despite hypertrophy. This will have important implications for preventing cardiac failure.Read moreRead less