Overcoming Breast Cancer Heterogeneity And Resistance Using A Novel Therapeutic Approach Targeting The Metastasis Suppressor NDRG1.
Funder
National Health and Medical Research Council
Funding Amount
$431,000.00
Summary
Breast cancer (BrCa) is the leading cause of cancer death in women and current treatments suffer from development of resistance, leading to metastatic progression. I will assess a novel treatment strategy for BrCa, targeting a gene that is able to inhibit multiple key drivers of BrCa, using a novel potent and selective anti-cancer agent. This approach has the potential to overcome resistance to current therapies and alleviate the onset of metastasis, to improve prognosis for BrCa patients.
TACI: A Novel Immune Checkpoint In Chronic Lymphocytic Leukemia
Funder
National Health and Medical Research Council
Funding Amount
$874,462.00
Summary
Chronic Lymphocytic Leukemia (CLL) is a very common blood cancer. CLL cells actively shut down immune defenses in patients. Moreover, current as well as emerging more targeted therapies suppress immunity and over a quarter of patients will die from an infection despite a good response to cancer treatments. Our laboratory has gained new understanding in the mechanism of action of a new treatment for CLL called Ibrutinib. This information allows us to design improved treatment options for CLL.
Relaxin Receptor Structural Determination To Aid Therapeutic Development
Funder
National Health and Medical Research Council
Funding Amount
$1,249,114.00
Summary
The receptor for the peptide hormone relaxin, RXFP1, is being targeted by numerous drug companies for the treatment of cardiovascular disease. However, the lack of molecular detail of how relaxin binds and activates RXFP1 is hindering new drug development. We will determine the structure of the complex of relaxin bound to RXFP1 and the mechanism by which this activates cells. The knowledge gained will aid in the design of new drugs targeting RXFP1 for the treatment of cardiovascular disease.
Epigenetic Therapies As Molecular Probes To Investigate The Molecular Pathogenesis Of Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$937,402.00
Summary
A major limitation to the success of targeted therapies in cancer is the fact that we have few if any tools to study in detail their mechanism of action within cancerous and normal cells. If we were able to visualise these drugs within cells and precisely characterise the proteins, DNA and RNA within a cell that interact with these therapies we will be able to identify strategies that can optimise their efficacy and reduce the side-effects of these treatments.
Novel Targeted PEG Nanoparticles For Cancer Treatment And Monitoring
Funder
National Health and Medical Research Council
Funding Amount
$606,979.00
Summary
We will develop novel targeted cancer therapies based on next generation nanoparticles. These particles will deliver highly potent drugs to tumours with less adverse effects to healthy organs. The ability to image the therapeutic can be used to detect diseases at early, potentially curable stages, identify patients likely to respond to certain treatments, and predict response to therapy. Our project has the potential to increase the survival of patients suffering from the most deadly cancer.
A National Resource For Mouse Models Of Mesothelioma
Funder
National Health and Medical Research Council
Funding Amount
$483,643.00
Summary
Mouse models of mesothelioma have led to a greater understanding of the disease and the identification of potential drug therapies some of these have now been translated into clinical trials. In the existing models, mesothelioma cells that have been grown in the laboratory are transplanted into animals by injecting the cells under the skin. Different cell lines with different properties are used in different experimental protocols. This application will fund the establishment of a central resour ....Mouse models of mesothelioma have led to a greater understanding of the disease and the identification of potential drug therapies some of these have now been translated into clinical trials. In the existing models, mesothelioma cells that have been grown in the laboratory are transplanted into animals by injecting the cells under the skin. Different cell lines with different properties are used in different experimental protocols. This application will fund the establishment of a central resource to maintain and distribute these cell lines. In addition, we describe a new transgenic mouse model in which mesotheliomas are rapidly induced in the peritoneal cavity after exposure to asbestos, recreating the natural tumour development much more accurately. These mice have been engineered to express the cancer causing protein of a monkey virus (SV40 large T antigen) in their mesothelial cells because it has been suggested that the virus has a role in the development of mesothelioma. This application also seeks funding to use the MexTAg mice to test the usefulness of different therapies for the prevention or treatment of mesothelioma. These animals give us the ability to investigate the disease in a more realistic environment than previous models. In parallel collaborative studies with other groups investigating different aspects of the biology of this cancer, we plan to analyze the earliest changes in the development of the disease and search for early markers using proteomics and gene expression studies. We anticipate that this model will generate information more directly relevant to understanding the human disease and will provide essential experimental data for clinical trials.Read moreRead less
Glucocorticoids (or 'steroids') are among the most commonly used drugs in the world, chiefly used for inflammatory diseases. However, they have major predictable side effects that have been known for over 60 years. Science has, til now, failed to deliver an alternative that delivers the effects of steroids without the side effects. This application is for funds to support the development of the discovery of the protein known as GILZ towards a treatment to help patients.
Targeting The Complement Cascade: A Novel Therapeutic Strategy For Metastatic Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$546,496.00
Summary
The incidence of melanoma is increasing world-wide, and Queensland has the highest rate of melanoma in the world. Despite advances in treatment, the 3-year survival rate for metastatic melanoma remains extremely low. This project builds on our recent research demonstrating a role for a key component of the innate immune system (complement C3a) in melanoma growth. Specifically we seek to investigate the potential of C3a as a therapeutic target for metastatic melanoma.