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Understanding Lymphatic And Vascular Biology For Application To Human Disease
Funder
National Health and Medical Research Council
Funding Amount
$697,209.00
Summary
This research is designed to provide further understanding of the role that the blood and lymphatic vessels plays in human disease. The proposal will use advanced molecular and cell biological approaches to define new diagnostic and therapeutic targets for human disease.
Discovering How MicroRNAs And CircRNAs Control Cancer Metastasis
Funder
National Health and Medical Research Council
Funding Amount
$763,845.00
Summary
Most cancers arise from epithelial cells, and most deaths from these cancers are due to the transition of the cancer to an invasive form, that can invade tissues and establish secondary cancers (metastases). Our work will focus on understanding how recently discovered gene regulators, called microRNAs and circular RNAs, control changes in cancer cells to allow them to progress to invasive, metastatic forms and use this knowledge to find ways to block the process.
Biosensor Imaging In Preclinical Pancreatic Cancer Targeting: Taking Cancer Targeting To New Dimensions.
Funder
National Health and Medical Research Council
Funding Amount
$640,210.00
Summary
Using cutting-edge imaging technology and 3D models that mimic cancer, we can map areas of poor drug response within distinct 'stages' or regions of tumours. Here, we pinpoint and specifically target key factors limiting efficient drug response in order to improve the encouraging anti-cancer profile of new or current drugs in pancreatic cancer.
This application will increase the impact of cancer immunotherapy on disease prevention and treatment, by developing new targets and novel combination immunotherapies. Outcomes will include an improved understanding of the immune reaction with cancer and more effective strategies to prevent cancer spread and safely target and eradicate a larger proportion of established and advanced malignant disease.
I am a cell biologist/geneticist focusing on understanding tumourigenesis. Cancer is a multigenic and complicated disease, involving interactions between the tumour and normal tissue. I use the genetically tractable model organism, the vinegar fly, Drosophila, to model cancer in situ and identify novel genes that drive cancer. My 5 year career plan is to use the Drosophila system to model cooperative tumourigenesis in epithelial and brain tissues and translate this to human cancer.
The majority of deaths from cancers are due to metastasis. MicroRNAs are gene regulators involved in shaping cellular properties and are known to control metastasis. My work will lead to understanding how the production of microRNAs in cancer cells is controlled, what the major functions of microRNAs are in cancer cells and the discovery of pathways that may be amenable to new forms of therapeutic intervention in cancer.
The Interferon System In Innate Immune Responses To Disease
Funder
National Health and Medical Research Council
Funding Amount
$836,818.00
Summary
My research investigates special proteins called cytokines in the body’s first-line defence against infection, inflammation and cancer. I will characterise how cells respond, the signals that mediate effects, using sophisticated genetic and new computational techniques to manage and analyse data. One focus is a new cytokine we discovered that protects against infections of the reproductive tract –a global health and socio-economic problem affecting 1 billion people.