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Elucidating The Cellular Processes That Are Critical For P53 Mediated Tumour Suppression
Funder
National Health and Medical Research Council
Funding Amount
$1,016,108.00
Summary
p53 is a tumour suppressor gene that is mutated in ~50% of human cancers. Mutations in p53 cause development of cancer and render malignant cells resistant to chemotherapy. We have identified genes regulated by p53 that appear critical for its tumour suppressive function. In this project, we will use innovative novel genetic tools to discover the cellular and biochemical functions of these genes. The ultimate goal of our studies is to identify novel targets for anti-cancer therapy.
Understanding The Role Of The Essential Regulator WalKR In Staphylococcus Aureus
Funder
National Health and Medical Research Council
Funding Amount
$555,239.00
Summary
Staphylococcus aureus is one of the most common human bacterial pathogens. This project aims to characterise an important global control system in S. aureus, and determine if chemical inhibitors of this control system could be used to treat S. aureus disease in the future.
Identification Of Factors Critical For Maintenance Of The Epidermal Barrier
Funder
National Health and Medical Research Council
Funding Amount
$616,950.00
Summary
The human skin plays a crucial role in the body’s defence against our hostile environment. The outer most layer of the skin, the epidermis is the key structural component of the skin barrier and is essential for its integrity. We have identified a family of genes that are pivotal for epidermal barrier formation, maintenance and repair. This project examines the mechanisms that underpin the function of this family, and has broad ramifications in a host of dermatological conditions.
Genetic Programs Orchestrated By AP-1 Transcription Factors In Colorectal Cancer Progression
Funder
National Health and Medical Research Council
Funding Amount
$599,941.00
Summary
Colorectal cancer (CRC) is the third most common cancer worldwide. About half of all patients diagnosed with the disease die as a result of its spread in the body. This project will investigate the role that a specific DNA-binding protein plays in orchestrating gene expression programs required for CRCs to spread. The research will provide new insights into underlying mechanisms of CRC progression as well as identify new therapeutic targets for aggressive forms of the disease.
Regulation Of TNF Expression In Inflammation And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$728,447.00
Summary
By studying a spontaneous mutation in mice, we have found an error in the TNF gene (a major factor in many inflammatory diseases) that causes severe arthritis, heart valve disease and gut inflammation. We have also identified new regulators of TNF expression, which might be useful therapeutic targets to limit inflammation. We intend to study the role of these regulators in controlling the expression of TNF, and the link between chronic inflammation and the development of cancer.
Examining The Contribution Of Mutant DNMT3a In The Development And Sustained Growth Of Acute Myeloid Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$820,880.00
Summary
Experimental models of Acute Myeloid Leukaemia (AML) have been valuable tools for studying this cancer. Recent analysis of human cancer genomes identified novel mutated gene products implicated in AML. To study the involvement of these genes in the development and sustained growth of AML, we will generate new experimental models that express the mutated forms of these newly described genes. These studies will assist in the development of improved treatments for patients with AML.
Understanding How Bcl-2 Proteins Form The Apoptotic Pores That Kill Cells
Funder
National Health and Medical Research Council
Funding Amount
$893,614.00
Summary
Programmed cell death termed apoptosis is a process our bodies use to remove cells that are a threat to our health, e.g. cancer cells. The proteins that regulate cell death are attractive targets for therapeutics that have become resistant to this defence mechanism. This study will reveal how proteins from the Bcl-2 family regulate cell death at the molecular level. Understanding this process will inform the development of drugs aimed at regulating cell death in cancer and other diseases.
The Mechanisms Of Epithelial Cell Survival That Govern Thymus Function
Funder
National Health and Medical Research Council
Funding Amount
$620,967.00
Summary
The thymus is an organ dedicated to the production of crucial immune cells, called T lymphocytes. Cancer treatments, such as radiation or chemotherapy, destroy thymic function and impair immune recovery in patients. We aim to uncover molecular processes that govern the life and death decisions of cells in the thymus. Our goal is to then use this information to develop treatments to protect this critical organ from damage and improve immune recovery following radiation or chemotherapy.
Development Of Small Molecule Modulators Of Apoptosis
Funder
National Health and Medical Research Council
Funding Amount
$621,558.00
Summary
Cancers rely on the deregulation of key cellular pathways. Along with biological and genetic tools, small molecules are powerful probes to understand these mechanisms. During the course of this research program, we will develop new and drug-like molecules that reinstate the cell death process to combat malignancies. This research will bring important advances for potential chemotherapies and create probes to better understand the biology of programmed cell death processes.
Toward Effective Targeted Therapies For Acute Myeloid Leukaemia (AML)
Funder
National Health and Medical Research Council
Funding Amount
$551,345.00
Summary
Standard chemotherapy for acute myeloid leukaemia (AML) is highly toxic, and has not changed in over 40 years. We will conduct a world-first clinical trial incorporating ABT-199 (Venetoclax) to target BCL2 into the standard-of-care treatment for AML. A second initiative will explore the potential for small molecule inhibitors to simultaneously target both BCL2 and its related partner MCL1, to create a “chemotherapy-free” regimen for AML. These studies promise to herald a new era in AML therapy.