For 60 years, we have had only 3 effective cancer treatments: surgery, radiation and chemotherapy, often used in combination.The last 5 years have produced a powerful fourth treatment: the patient's own immune system.The long standing collaborations and synergies of our multi-disciplinary teams have already underpinned many recent advances in immune-based therapies: we are now poised to develop several further immunotherapies and on track to test them in patients during the term of this grant.
Does CD123 Provide A Biological Advantage To Leukaemia Stem Cells?
Funder
National Health and Medical Research Council
Funding Amount
$647,637.00
Summary
Leukaemia is a devastating form of blood cancer affecting both young and old. We need to understand the diseased stem cell to eradicate this disease. Current therapy is poorly tolerated and the majority of patients ultimately die at relapse. We intend to investigate how we can make the cells more susceptible to therapy by understanding their biology.
The Role Of Redox Regulation In Controlling The Oncogenic Function Of Eph Receptors
Funder
National Health and Medical Research Council
Funding Amount
$71,766.00
Summary
Reactive oxygen species (ROS) produced in cancers activate cell surface receptor signalling pathways that drive cancer progression. I will study links between ROS and receptor signalling in cancer cells, and inhibit signalling with ROS scavengers delivered in nanoparticles, targeted to receptor complexes with specific antibodies. These will include antibodies we raised against ADAM10, a protease associated with multiple receptor signalling pathways, to simultaneously inhibit these pathways.
Wnt-5a Signalling - A Novel Therapy For Triple Negative And Tamoxifen Resistant Breast Cancer Patients
Funder
National Health and Medical Research Council
Funding Amount
$330,534.00
Summary
Breast cancer is the most common cancer in women. Commonly used drugs target the estrogen receptor (ER). However, one third of breast cancer patients lack ER, and do not respond to treatment. Cancers that lack ER also lack a gene called Wnt5a, which is linked to better prognosis. We have shown that fixing Wnt5a can restore ER allowing cells to respond to Tamoxifen. We would now test this in animals, in the hope of developing a new drug for breast cancer patients currently with limited options.
Interleukin-3 Receptor Signaling Is A Driver Of Myeloid Leukaemia And A Significant Therapeutic Target
Funder
National Health and Medical Research Council
Funding Amount
$601,966.00
Summary
Acute Myeloid Leukaemia (AML) is an aggressive blood cancer. There are many types of AML, but overall, less than half of those with AML are cured. This project evaluates how certain molecules on the surfaces of leukaemic cells keep those cells alive and growing. We are also testing new ways to block these molecules and so provide new therapies for this cancer.
This study focuses on key endocrine pathways involved in the remodelling of the breast stromal cells into a reactive stromal environment which is more permissive for tumour growth. We have identified key pathways involved in the regulation of estrogen biosynthesis and fibrosis in tumour associated stroma. These studies will lead to the development of novel breast cancer therapies.
Targeting FLT3 Kinase Activity To Treat Haematopoietic Neoplasms
Funder
National Health and Medical Research Council
Funding Amount
$673,045.00
Summary
Most leukaemias are incurable so it is important to find new treatments. For this to occur it is essential that the mutated genes that cause leukaemia are identified. We have generated a mouse with a mutation in a gene called c-Cbl that promotes the activation a protein called FLT3 that is involved in the development of many types of leukaemias. By treating mutant mice a drug that specifically suppresses the function of FLT3 we intend to identify the most effective treatments for human leukaemia ....Most leukaemias are incurable so it is important to find new treatments. For this to occur it is essential that the mutated genes that cause leukaemia are identified. We have generated a mouse with a mutation in a gene called c-Cbl that promotes the activation a protein called FLT3 that is involved in the development of many types of leukaemias. By treating mutant mice a drug that specifically suppresses the function of FLT3 we intend to identify the most effective treatments for human leukaemias associated with activated forms of FLT3.Read moreRead less
Dual Targeting Of The Androgen Receptor For Effective And Durable Control Of Lethal Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$946,177.00
Summary
Preventing binding of androgens to the androgen receptor is the mainstay treatment for advanced prostate cancer, but resistance inevitably develops and the disease becomes lethal. We will develop a new drug that targets a part of the androgen receptor unrelated to its androgen binding function to overcome resistance to current therapy. As this drug will be effective in all stages of prostate cancer, it has high potential to improve survival outcomes for men with prostate cancer.
The Contribution Of Host Caveolin-1 To Breast Cancer Metastasis
Funder
National Health and Medical Research Council
Funding Amount
$517,992.00
Summary
Mortality in breast cancer rises to 80% in cases where secondary tumors form in other organs. To improve outcome, a better understanding of the processes involved in cancer spread is needed. Normal cells contribute to the growth and spread of a tumour and are a target for therapy. When a protein called caveolin-1 is lost from normal cells in a tumour, the prognosis for the patient is much worse. The aim of this project is to understand how this protein can regulate the spread of breast cancer.
The Role Of Clathrin In The Spindle Assembly Checkpoint And As An Anti-cancer Target
Funder
National Health and Medical Research Council
Funding Amount
$651,768.00
Summary
Cell division produces two daughter cells. Incorrect localisation and modification of proteins that regulate mitosis cause errors that can lead to cancer. As well as using a unique machinery mitosis uses proteins involved in non-cell cycle pathways. This project investigates the role during mitosis of one such protein: clathrin. We will identify lead clathrin inhibitory compounds, pitstops, that have potential anti-cancer properties, ultimately to be used as a chemotherapy agent.