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.
Defining The Role Of Reserve Stem Cells In Gastric Cancer
Funder
National Health and Medical Research Council
Funding Amount
$563,739.00
Summary
Over 800,000 deaths from stomach cancer occur annually. This often fatal disease is caused by chronic inflammation of the stomach lining. This proposal will investigate how stomach inflammation ‘reprograms’ a new type of 'cancer stem cell' to form tumours and evaluate ways to therapeutically target these cells to prevent disease. Collectively, these studies will inform new approaches for stomach cancer prevention and treatment.
Tumour Induced Innate Immune Responses That Control Breast Cancer Metastases
Funder
National Health and Medical Research Council
Funding Amount
$596,164.00
Summary
The mechanisms of breast cancer spread to bone are largely unknown. We have found that cross-talk between tumour cells and the immune system exists to induce anti-tumour immune responses. By decreasing the release of proteins known to activate immune responses (type I interferons), tumour cells can hide from such responses and spread to tissues such as bone. We aim to identify the immune responses activated by type I IFN and if restoration of these pathways can block breast cancer spread to bone ....The mechanisms of breast cancer spread to bone are largely unknown. We have found that cross-talk between tumour cells and the immune system exists to induce anti-tumour immune responses. By decreasing the release of proteins known to activate immune responses (type I interferons), tumour cells can hide from such responses and spread to tissues such as bone. We aim to identify the immune responses activated by type I IFN and if restoration of these pathways can block breast cancer spread to bone.Read moreRead less
Activating Transcription Factor 3 And Cancer Progression
Funder
National Health and Medical Research Council
Funding Amount
$767,794.00
Summary
We have shown that the transcription factor ATF3 suppresses bladder cancer spread. Turning off ATF3 is associated with disease progression in bladder and colorectal cancer. We will test whether levels of ATF3 can be used as a prognostic maker for disease progression, investigate the mechanisms underlying the actions of ATF3 in bladder and colorectal cancer and test whether therapeutically activating ATF3 can inhibit cancer progression.
Defining The Role Of Microphthalmia-associated Transcription Factor (MITF) In Melanoma Heterogeneity By Real-time Cell Cycle Imaging
Funder
National Health and Medical Research Council
Funding Amount
$613,705.00
Summary
Metastatic melanoma is highly therapy-resistant. Modern targeted therapy is promising but suffers from rapid onset of drug resistance. Tumours consist of zones of fast growing cells next to zones of dormant cells. This tumour heterogeneity is one of the reasons for cancer drug resistance, as cells in different growth states respond differently to drugs. By understanding the causes of tumour heterogeneity we will set the basis for innovative clinical approaches against this devastating disease.
Aberrant Transcriptional Signalling In The Progression And Metastasis Of Melanoma.
Funder
National Health and Medical Research Council
Funding Amount
$353,033.00
Summary
There are currently no treatments that have any impact on decreasing mortality from metastatic melanoma. We have found 2 new variants in melanoma that may control the tumour growing and invading around the body. This study will examine the protein containing these changes with the aims of finding how they function differently, to identify their roles in the formation of melanoma, as well as to identify new targets for prevention and treatment of metastatic disease.
Role Of The Inositol Polyphosphate 4-phosphatase Type 2 In Human Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$611,032.00
Summary
Breast cancer is the most invasive cancer in females, affecting 1 in 9 women before the age of 85. Normally cells only divide when they receive a stimulus from a hormone or growth factor. The PI3K pathway responds to these stimuli and has been implicated in cancer when cells divide uncontrollably and invade surrounding tissue. We have identified a potential cancer suppressing gene, 4-ptase-2 that turns off the PI3K growth signals. We aim to characterize the role of 4-ptase-2 in breast cancer.
Breast cancer is the most frequent malignancy among women, with an estimated 1 million new cases per year worldwide. A family of enzymes known as protein tyrosine kinases (PTKs) are fundamental in the initiation and progression of tumour growth and they are frequently hyperactivated in breast cancer. This proposal will examine whether inactivation of the enzyme known as TCPTP contributes to PTK hyperactivation and tumorigenicity in breast cancer.
Identifying And Characterizing Genes That Regulate Breast Tumorigenesis And Metastasis
Funder
National Health and Medical Research Council
Summary
I am a breast cancer biologist. My research focuses on identifying the changes in normal cells that allow cancer to form, and identifying the changes in cancer cells that allows them to spread. To accomplish this, I have developed new methods using mouse models of breast cancer. My goal is to use these methods to further our understanding of the causes of breast cancer development and progression.