Role Of LncRNA IDH1-AS1 In Regulating C-Myc Driven-glycolysis And Tumorigenesis
Funder
National Health and Medical Research Council
Funding Amount
$685,043.00
Summary
It is thought that understanding cancer metabolism will reveal vulnerabilities that can be exploited in the clinic. Indeed, compared to most normal cells, cancer cells utilise different fuels to sustain proliferation and to adapt to their environment. Herein we have discovered a molecular switch that regulates the key metabolic enzyme IDH1 and show this controls tumour growth. Given this switch may be active in 50% of cancers we anticipate our work will have significance to many cancer types.
Role Of Proline-rich Tyrosine Kinase 2 (Pyk2) In Ovarian Cancer
Funder
National Health and Medical Research Council
Funding Amount
$85,254.00
Summary
Ovarian cancer is one of the most lethal gynaecological cancers in the developed world. Elevated levels of gonadotropin hormones and cell protein Pyk2 have been implicated in ovarian cancer. Our aim is to determine the role of Pyk2 in growth and metastasis of ovarian cancer when stimulated with gonadotropins. In addition, we aim to identify protein changes which occur in ovarian cancer when stimulated by gonadotropins in order to identify new biomarkers for the disease.
Investigating Signalling Pathways That Mediate Suppression Of Anoikis By Chemokine Receptors In Metastatic Breast Cancer Cells
Funder
National Health and Medical Research Council
Funding Amount
$597,349.00
Summary
This research aims at understanding the "nuts and bolts" of the main killer in cancer patients - tumour metastasis. We will look for molecules that are specific to metastatic tumour cells that transmit signals from the cell surface to the cell "suicide" machinery and prevent metastatic cancer cell death.
Clinical And Molecular Analyses Of Nodular Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$130,904.00
Summary
There have been very recent advances in our understanding of the biology of melanoma that are now poised to have major impacts in the outcome of patients with this disease. The nodular subtype of melanoma contributes disproportionately to mortality from melanoma. By using the latest molecular techniques to study these melanomas I will identify causative factors, diagnostic features and molecular profiles associated with these poor-prognosis melanomas leading to new approaches in the prevention, ....There have been very recent advances in our understanding of the biology of melanoma that are now poised to have major impacts in the outcome of patients with this disease. The nodular subtype of melanoma contributes disproportionately to mortality from melanoma. By using the latest molecular techniques to study these melanomas I will identify causative factors, diagnostic features and molecular profiles associated with these poor-prognosis melanomas leading to new approaches in the prevention, early detection and treatment of these melanomas.Read moreRead less
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.
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.
The Nature And Significance Of Clonal Evolution In Human Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$665,420.00
Summary
Cancers can progress in patients by developing genetic changes that favor the growth, survival and spread of cancer cells. However, the rate at which genetic changes occur in human cancer is not known. This project will determine the degree and biological significance of genetic change in human melanoma by using a novel method of growing tumors from single cells and comparing genetic differences between them.
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.
Real-time Optical Window Imaging Of AKT-FRET Biosensor Mice To Maximise PI3K/AKT Drug Targeting Within The Hypoxic Microenvironment Of Pancreatic Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$683,447.00
Summary
Inefficient drug response in solid tumour tissue is often a limiting factor in the clinical effectiveness of cancer therapies. Using cutting-edge imaging technology and 3D models that mimic the disease, we have mapped areas of poor drug response within distinct regions of tumours with low oxygen levels known as hypoxia. Here, we will specifically target factors limiting efficient drug targeting in these areas to improve the encouraging anti-cancer profile of AKT inhibitors in pancreatic cancer.
Understanding Cancer Development And Metastasis Through Regulation Of Cell Plasticity
Funder
National Health and Medical Research Council
Funding Amount
$773,103.00
Summary
I aim to understand how cancer cells switch between non-aggressive and aggressive cell states, and to determine how these processes contribute to cancer development and progression. In determining the factors that drive these processes I aim to discover novel strategies for deriving effective therapies for patients with aggressive and advanced-stage cancer.