The migration of cancer cells (metastasis) is responsible for most cancer deaths. Central to this is dynamic organisation of the actin cytoskeleton _ an internal structure that provides cell shape and enables movement. We have identified a family of small molecules (called miR-200) that regulates this actin cytoskeleton through specifically downregulating various genes. We are investigating the nature of these genes and their role in cell motility _ an underlying pre-requisite of metastasis.
Can Decision Analytic Modelling Promote Clinical Translation Of Personalised Medicine Markers For Oncology Drugs?
Funder
National Health and Medical Research Council
Funding Amount
$69,893.00
Summary
Personalised medicine is an approach that has great potential to improve healthcare. There has been limited success to date, however, in utilising proposed tests in the clinical. It is proposed that use of mathematical models early in the development of personalised medicine tests will allow early understanding of the value that the test will have for patients and society. Such insight will help build a strong case to undertake the research required before personalised medicine can be more widel ....Personalised medicine is an approach that has great potential to improve healthcare. There has been limited success to date, however, in utilising proposed tests in the clinical. It is proposed that use of mathematical models early in the development of personalised medicine tests will allow early understanding of the value that the test will have for patients and society. Such insight will help build a strong case to undertake the research required before personalised medicine can be more widely used to improve treatment for cancer.Read moreRead less
MICROFABRICATED DEVICES: A SIGNIFICANT ADVANCE FOR THE DETECTION AND MOLECULAR ANALYSES OF CIRCULATING CANCER CELLS?
Funder
National Health and Medical Research Council
Funding Amount
$422,107.00
Summary
Using advanced microfabrication concepts, this project aims to develop a platform technology able to capture tumour cells circulating in the blood of cancer patients. Although present only in extremely small numbers, these cells provide invaluable insights into the pathophysiology of the disease and consequently provide vital diagnostic and prognostic information. Molecular analyses of these cancer cells could ultimately enable the design of improved and personalized cancer treatment.
Dissecting The Role Of The IL-3 Receptor Alpha Subunit And Beta-catenin In Acute Myeloid Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$583,312.00
Summary
Leukaemia is a devastating form of blood cancer affecting both young and old. We aim to understand the mechanisms of uncontrolled cell growth associated with acute myeloid leukaemia. We focus on the role of key growth regulators that are abnormally active in the critical leukaemia stem cells. Understanding the biological and molecular properties of these cells is of considerable importance for development of the next generation of leukaemia therapies.
Pathophysiology And Alternative Preventative Strategy For Breast Cancer Chemotherapy-induced Bone Loss
Funder
National Health and Medical Research Council
Funding Amount
$540,356.00
Summary
Combination cytotoxic chemotherapy is the current optimal approach for treating breast cancer in premenopausal women. However, long-term skeletal defects (osteoporosis and fractures) caused by the chemotherapy have become an increasingly serious problem due to its intensified use and improved patient survival rate. This project seeks to elucidate the mechanisms for chemotherapy-induced bone defects and to initiate development of a preventative treatment using natural bioactive micronutrients.