Clinicopathological Characterisation Of Male Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$113,322.00
Summary
Male Breast Cancer is an uncommon and poorly understood disease. Due to its low frequency, there is a paucity of studies with large numbers of patients. Our aim will be to establish one of the largest worldwide databases of Male Breast Cancer. This will allow us to more thoroughly investigate clinical, pathological and molecular characteristics of male breast cancer, improve treatment of these patients and potentially develop novel and innovative strategies for treatment of female breast cancer.
BRCA-P: An International Randomised Phase III Study Evaluating The RANK Ligand Inhibitor Denosumab For The Prevention Of Breast Cancer In BRCA1 Mutation Carriers
Funder
National Health and Medical Research Council
Funding Amount
$2,589,049.00
Summary
Women with a faulty BRCA1 gene are at high lifetime risk for breast cancer. Identifying a safe and effective prevention therapy is therefore a ‘holy grail’. We have discovered that denosumab, used to treat osteoporosis or breast cancer spread to bone, could be ‘repurposed’ as a prevention drug. BRCA-P is an international randomised controlled study that will determine if denosumab prevents breast cancer. Associated translational research will facilitate swift transfer to the clinic.
Therapeutics Discovery Program To Uncover Novel Strategies For Hepatocellular Carcinoma Prevention
Funder
National Health and Medical Research Council
Funding Amount
$396,252.00
Summary
Liver cancer (HCC) incidence is rapidly rising. It is the fastest increasing cause of cancer death in Australia. There are no therapies that prevent HCC or stop liver disease progression. Liver gene profiles have been shown to be associated with HCC development, poor outcome, recurrence, future risk of progressive liver damage and future HCC. Targeting these gene profiles may yield targets for HCC prevention and halt liver disease progression that may revolutionalise liver disease management.
Inhibiting Tumour Growth By Targeting EphA3 And Disrupting Tumour Stromal And Vascular Microenvironment
Funder
National Health and Medical Research Council
Funding Amount
$645,136.00
Summary
Tumours consist of cancer cells, tumour blood vessels and connective tissue, all of which are different to normal tissues. Many of the cells making up tumour vessels and connective tissue are recruited, during initial growth and subsequent spreading of tumours, from the bone marrow. Our research will examine the presence and function of the EphA3 receptor on these cells during tumour development and assess how our anti-EphA3 antibody inhibits tumour growth by targeting stroma and vasculature.
Delineating Mechanisms Of Acquired Resistance To Kinase Inhibitors And Devising Novel Strategies To Combat Therapeutic Resistance
Funder
National Health and Medical Research Council
Funding Amount
$437,034.00
Summary
Kinase inhibitors are some of the most successful anti-cancer agents that have emerged in the last 15 years. However, tumors become resistant to these drugs after showing initial response. Understanding mechanisms through which cancer cells become resistant to these drugs will allow us to develop effective strategies to counter it and achieve sustained responses to cancer therapy. I propose to build a research program to systematically study these mechanisms to improve cancer therapeutics.
Companion Biomarker And Therapeutic Strategy Development For Pancreatic Cancer
Funder
National Health and Medical Research Council
Funding Amount
$121,031.00
Summary
Innovation of predictive and responsive biomarkers in pancreatic cancer (PC) is of paramount importance. This project contains two parts: 1. Circulating DNA. It has been shown previously that DNA released into the blood stream by cancer can be measured, its usefulness in PC will be assessed. 2. ROCK-I as a predictive biomarker. ROCK-I is a protein involved in cell motility. The ability for ROCK-I amplification to predict for response to ROCK-I inhibitors will be assessed in vitro/in vivo.
Toll-like Receptor 2 Signalling As A Potential Therapeutic Target In Gastric Cancer
Funder
National Health and Medical Research Council
Funding Amount
$323,091.00
Summary
Stomach cancer is the fourth most deadly cancer in the world. Stomach cancer is closely linked with inflammation, and we have shown that a key inflammatory molecule, called toll-like receptor 2 (TLR2), can drive the development of stomach cancer. However, this occurs in a non-inflammatory manner. My research aims to understand how TLR2 is involved in the progression of stomach cancer, with the ultimate goal to find an early biomarker of disease, and to develop better therapies.
Tailoring Targeted Therapy To DNA Repair-defective High-Grade Serous Ovarian Cancer
Funder
National Health and Medical Research Council
Funding Amount
$802,247.00
Summary
Ovarian cancer is a major cause of cancer death in women because current treatments are inadequate. Half of aggressive ovarian cancers have abnormalities in DNA repair and should be susceptible to new PARP inhibitor therapy, yet not all those respond. By developing a new model of studying human ovarian cancers in mice, we can discover markers to predict which ovarian cancers will respond best to these exciting new treatments.
The Oligoadenylate-RNAseL Pathway May Provide A Specific And Low Toxicity Approach To Therapy For Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$439,314.00
Summary
We have discovered that a pathway used to fight viral infections can be triggered to produce massive cell death in the mammary gland. We hope to be able to trigger this response in breast cancers through the strategic combination of available drugs. If successful this project will establish a new therapeutic strategy for breast cancer.
Discovery, Preclinical And Translational Research In Endometrial Cancer
Funder
National Health and Medical Research Council
Funding Amount
$451,716.00
Summary
My research program is focused on “bench to bedside” translational research in uterine cancer. Specifically, identifying the genetic aberrations underlying the development of uterine cancer, understanding the function of these genes in normal and cancer cells, providing proof of principle data that drugs targeting these defective proteins induce cancer cell death in vitro and in vivo and identifying factors associated with whether a patient will respond to one particular treatment over another.