Molecular Mechanisms And Functional Consequences - Understanding Endocrine Tumorigenesis
Funder
National Health and Medical Research Council
Funding Amount
$124,530.00
Summary
A/Prof Marsh is focused on discovering the causes of both inherited and non-inherited endocrine tumours, translating this knowledge into medical practice for the improved diagnosis of cancer and using this knowledge to highlight new therapeutic options for people who have cancer. She is internationally recognised for her work on a protein linked to the development of parathyroid cancer and is working towards improving our understanding of women’s cancers.
Cellular And Molecular Mechanisms Of Hedgehog Signaling In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$551,937.00
Summary
Breast cancer cells create the conditions for their own survival by communicating their needs to the healthy cells that surround them. We have previously shown that a molecule known as ‘hedgehog’ transmits biochemical signals between breast cancer cells and healthy cells. When hedgehog is ‘silenced’, tumours shrink and stop their spread. In this application, we will identify the cells receiving the hedgehog signal and identify how they support the growth and spread of breast cancers.
Defining The Role Of The PSA-related Kallikrein Serine Proteases In Hormone Dependent Cancer Progression
Funder
National Health and Medical Research Council
Funding Amount
$880,454.00
Summary
Kallikreins are a family of 15 proteins, related to the prostate cancer biomarker PSA, that have potential as biomarkers for hormone dependent cancers such as prostate and ovarian cancer. Prof Judith Clements and her team discovered that kallikreins induce resistance to chemotherapy in ovarian cancer and are found in prostate cancer bone disease. Her research will determine the underlying mechanisms of kallikrein action and their potential as new biomarkers or treatment targets for these disease ....Kallikreins are a family of 15 proteins, related to the prostate cancer biomarker PSA, that have potential as biomarkers for hormone dependent cancers such as prostate and ovarian cancer. Prof Judith Clements and her team discovered that kallikreins induce resistance to chemotherapy in ovarian cancer and are found in prostate cancer bone disease. Her research will determine the underlying mechanisms of kallikrein action and their potential as new biomarkers or treatment targets for these diseases.Read moreRead less
Interleukin-3 Receptor Signaling Is A Driver Of Myeloid Leukaemia And A Significant Therapeutic Target
Funder
National Health and Medical Research Council
Funding Amount
$601,966.00
Summary
Acute Myeloid Leukaemia (AML) is an aggressive blood cancer. There are many types of AML, but overall, less than half of those with AML are cured. This project evaluates how certain molecules on the surfaces of leukaemic cells keep those cells alive and growing. We are also testing new ways to block these molecules and so provide new therapies for this cancer.
Prof Lindeman's laboratory, co-headed with Dr Visvader, has played an influential role in the identification of mammary stem and progenitor cells, elucidation of the mammary epithelial cell hierarchy and gaining insights into how female hormones regulate mammary gland development and cancer. In parallel, I have established translational research platforms such as patient-derived tumour xenograft (PDX) models, which offer powerful preclinical models to test new drugs.
Rob Ramsay has had a long standing research commitment to understanding bowel and breast cancer using mouse models with defined genetic defects. These sophisticated models replicate various stages of cancer development and some have profound effects on normal tissue biology. He also uses molecular tools to investigate how genes are controlled. These approaches are providing direct input into the development of therapeutic agents for cancer treatment.
Deciphering Breast Cancer Heterogeneity To Improve Breast Cancer Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$851,980.00
Summary
Breast cancer is a very heterogeneous disease. Patients are often treated in a ‘one size fits all’ approach, but response to therapy remains quite disparate. To better personalise therapy, there is a pressing need to define the precise cell types and initiating genetic events that give rise to breast cancer. This application is focussed on understanding the molecular and cellular origins of breast cancer, with the potential of identifying new prognostic markers and therapeutic targets.
RNA Polymerase I: A Novel Target In The Treatment Of MYC Driven Malignancies
Funder
National Health and Medical Research Council
Funding Amount
$605,963.00
Summary
Synthesis of ribosomes, the cellular protein synthetic machinery, is dysregulated during cancer leading to the hypothesis that it may be causative in the malignant process. This application will test this hypothesis using novel inhibitors or ribosome biogenesis in a mouse genetic model termed E�-MYC that faithfully that replicates human B-cell lymphoma. These studies will uncover novel mechanisms in malignant transformation and identify new therapeutics in the treatment of human cancer.
Novel Inhibition Of Cancer Cell Growth In Gastrointestinal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$47,474.00
Summary
This research project will focus on new treatment targets for gastrointestinal malignancies, focusing on the mTOR pathway which is important in driving cancer cell growth. The mTOR inhibitor drug Everolimus will be used in colon and biliary tract cancers to look for novel biomarkers of response and resistance to treatment, using cancer cell lines and correlative analysis with data obtained from patients' tumour samples and clinical assessment in current trials.
Epigenetics describes how genes can be turned off or on without changing the DNA sequence. Epigenetics plays a major role in cancer development. In this proposal we are investigating a novel hypothesis that in cancer a similar mechanism to imprinting USING NON-CODING RNA is triggered and this promotes the suppression of clusters of genes. The results from this proposal will have major implications to our understanding of gene regulation in cancer and will have important therapeutic value for can ....Epigenetics describes how genes can be turned off or on without changing the DNA sequence. Epigenetics plays a major role in cancer development. In this proposal we are investigating a novel hypothesis that in cancer a similar mechanism to imprinting USING NON-CODING RNA is triggered and this promotes the suppression of clusters of genes. The results from this proposal will have major implications to our understanding of gene regulation in cancer and will have important therapeutic value for cancer treatment.Read moreRead less