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Receptor Tyrosine Kinase Function As Molecular Target In Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$415,788.00
Summary
As molecular cell biologist and protein chemist my motivation for research is to tackle metastatic cancer, one of the principle health burdens of the 21 century. Over the next five years I will lead R&D programs with national and international collaborators that will generate new diagnostic approaches and insights in basic and translational research. These will allow us to develop anti-cancer drugs, which target several of the mechanisms that are active in metastatic cancers.
Melanoma is the 4th most common cancer diagnosed in Australia. Advanced melanoma frequently spreads to other organs and can acquire resistance to anti-melanoma treatments, making it fundamentally incurable. I am focused on investigating the mechanisms underlying melanoma disease progression. I will achieve this by comparing the biological nature of melanoma cells at different stages of disease and therapy-resistance to identify new targets for the more effective treatment of patients with melano ....Melanoma is the 4th most common cancer diagnosed in Australia. Advanced melanoma frequently spreads to other organs and can acquire resistance to anti-melanoma treatments, making it fundamentally incurable. I am focused on investigating the mechanisms underlying melanoma disease progression. I will achieve this by comparing the biological nature of melanoma cells at different stages of disease and therapy-resistance to identify new targets for the more effective treatment of patients with melanoma.Read moreRead less
Regulation Of Innate Immunity And Tumour Progression By Activating Transcription Factor 3
Funder
National Health and Medical Research Council
Funding Amount
$473,469.00
Summary
Toll-like receptors (TLRs) play an essential role in innate immune responses and are involved in initiating tumourigenesis via inflammatory pathways. We have shown that the transcription factor ATF3 is a negative regulator of TLR signalling. We will study how modulation of the activity of ATF3 affects the inflammatory response and tumour progression. This will provide a molecular basis on which to design therapeutic reagents for the treatment of cancer.
ALT-associated PML Bodies: Keys To The Biology And Treatment Of An Important Subset Of Cancers
Funder
National Health and Medical Research Council
Funding Amount
$813,614.00
Summary
Alternative Lengthening of Telomeres (ALT) is a molecular mechanism used by ~10% of cancers to sustain their relentless growth. ALT is common in sarcomas and brain tumours which are difficult to treat. ALT cancers contain nuclear structures called ALT-associated PML nuclear bodies (APBs) which may be part of the ALT machinery. This research will investigate characteristics of APBs and how they are formed, and will use this information to identify drugs to treat ALT tumours.
Molecular Pathways Mediating The Anti-tumour Activity Of WIF1
Funder
National Health and Medical Research Council
Funding Amount
$462,342.00
Summary
Osteosarcoma is the most common bone cancer. Treatment often entails aggressive surgery with intensive chemotherapy, although one third of those diagnosed will still die from this disease. We have found that the molecule WIF1 can suppress osteosarcoma growth. In this project we aim to identify genetic modifiers of WIF1, potential WIF1 interactors and define active domains of WIF1 for the development of more effective targeted therapeutics for osteosarcoma.
Engineering MYCN Models Of High-grade Serous Ovarian Cancer (HGSC)
Funder
National Health and Medical Research Council
Funding Amount
$797,478.00
Summary
The most lethal type of ovarian cancer, high-grade serous cancer (HGSC), can be divided into four subtypes based on gene patterns. One subtype involves a set of genes/proteins that, in their specific combination, result in activation of a pathway known as MYCN. As most HGSC start in the fallopian tube, we are using fallopian tube material to make new MYCN HGSC models to observe development in the earliest stages. We hope to generate new tests and treatments for this subtype of ovarian cancer.
Targeting Survival Pathways To Overcome The Resistance Of Human Melanoma To Treatment
Funder
National Health and Medical Research Council
Funding Amount
$332,123.00
Summary
Melanoma is a major Australian health problem. This is believed to be due to resistance of melanoma cells to cell death associated with inappropriate activation of survival signalling pathways. My previous studies have provided a number of insights into resistance mechanisms of melanoma cells to apoptosis. I wish to understand more fully the molecular basis of the survival signalling pathways, and to identify new therapeutic targets for overcoming resistance of melanoma to treatment.
The Role Of ILK In Hedgehog Signaling And Medulloblastoma.
Funder
National Health and Medical Research Council
Funding Amount
$452,248.00
Summary
Molecular signaling pathways regulate normal embryo development, and deregulated signaling by these pathways causes many cancers. Hedgehog (Hh) is a signalling pathway commonly activated by mutations in specific genes to cause cancer, including medulloblastoma, the most common brain tumour of childhood. We have discovered novel protein interactions in the Hh pathway, and will use animal models of Hh-dependent medulloblastoma to investigate new anti-cancer drugs targetting these proteins.
Cancer cachexia is a devastating disease characterised by skeletal muscle wasting and weakness. It impairs patient quality of life and accounts for >20% of cancer-related deaths. My work aims to identify factors contributing to the development of cancer cachexia. This insight will then enable me to test potential strategies to prevent the wasting seen in cancer patients to improve their quality of life and to reduce mortality.
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.