Fzd receptors are often upregulated in gastric cancer, and recent studies have shown that targeting these receptors has be effective at reducing cancer cell growth in other cancers including prostate and breast. This project will use cutting edge technology to firstly determine the specific requirement for Fzd receptors during gastric cancer and then determine the therapeutic benefit of using an antibody to target these receptors in mouse models and human gastric cancer cells.
Alpha-actinin-4 As An Oncogenic Driver And Therapeutic Target In Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$401,786.00
Summary
Despite the recent advances in targeted therapy and immunotherapy, curative treatment of metastatic melanoma remains an unmet health problem. In this project, we will potentially demonstrate that a protein called ACTN4 is abnormally expressed at high levels in melanoma cells and plays an important role for melanoma cell survival and resistance to treatment, and thus identify inhibition of ACTN4, either alone or in combination with other drugs, as a novel approach in the treatment of melanoma.
An exciting area of drug discovery involves targeting Hippo pathway proteins, particularly one called YAP, which were discovered by members of our research team and which are highly active in some cancer cells, making them grow and spread. We will test whether YAP is a potential drug target to prevent or treat melanoma, a deadly type of cancer that usually arises in the skin but also internal organs and the eye. If so, we would fast-track these drugs for testing in patients via clinical trials.
Transcriptional Effectors Of Oncogenic ERK Signaling In Colorectal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$820,776.00
Summary
This project aims to unravel how one of the most frequently deregulated molecular pathways in colorectal cancer controls the expression of genes required for these tumours to grow and spread. We expect this work to uncover novel therapeutic targets to effectively inactivate this pathway and biomarkers to select patients most likely to benefit from existing therapies.
Regulation Of ERK Driven Cell Proliferation By The Actin Cytoskeleton
Funder
National Health and Medical Research Council
Funding Amount
$920,972.00
Summary
The cells in your body respond to external signals and control their proliferation by transmitting signals from one part of the cell to another. This has usually been thought to involve the movement of signals through a liquid medium without the involvement of any machinery to control the movement. The project aims to test the role of the architecture of the cells in physically moving a growth signal from one place to another. We think that the architecture involved plays a key role in cancer.
Each year, 18,000 Australian men are diagnosed with prostate cancer. While current treatments are designed to directly target cancer cells, the tumour-associated stroma is also recognised to play a pivotal in the establishment and progression of prostate cancer. This grant aims to investigate the contribution of stromal Hedgehog signalling, with the view to creating new treatment strategies that will treat the entire tumor environment.
Investigation Of DUSP5 As A Novel Tumour Suppressor Gene In Colon Cancer
Funder
National Health and Medical Research Council
Funding Amount
$578,268.00
Summary
Colon cancer is the second leading cause of cancer related death in Australia. Understanding the genetic causes of this disease are essential to developing new treatment strategies. The goal of this study is to understand the role of the DUSP5 gene in colon cancer. The findings of this study has the potential to further our understanding of how colon cancers arise and for identifying patients likely to respond to specific existing treatments.
Defining The Function Of ROCK In Establishing A Tumour-promoting Microenvironment
Funder
National Health and Medical Research Council
Funding Amount
$611,950.00
Summary
Cancer’s spread from its primary to secondary sites causes most cancer-related deaths. As cancers grow and spread, their internal structure is modified. Immune cells within the cancer begin to behave differently to the same types of cells in normal tissues, promoting its spread. We have discovered that many of these changes are regulated by a protein called ROCK. We plan to study how ROCK controls such a wide range of tumour promoting processes.
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.
Characterisation Of A Novel Oncogene In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$1,118,325.00
Summary
Breast cancer affects 1 in 8 women in Australia. Cancer cells are able to spread to other sites in the body by a process known as metastasis which is the leading cause of breast cancer death. We have identified a gene which controls breast cancer metastasis and thereby may affect disease outcome. This grant aims to elucidate the mechanisms by which this gene regulates breast cancer metastasis.