Evaluation Of Molecular Mechanisms Driving Metastasis Using Integrated Intravital Imaging
Funder
National Health and Medical Research Council
Funding Amount
$885,271.00
Summary
Metastasis is the leading cause of cancer-associated death. Understanding key steps that drive the spread of cancer is critical to improve current treatment strategies. Using cutting-edge imaging technology and 3-dimensional model systems that mimic the disease, we will pinpoint key events that are susceptible to drug intervention and identify new therapeutic targets.
Elucidating The Role Of Claudin-2 In Tumour Initiation And Metastasis Development From Colorectal Cancer: Consequence For Tumour Relapse
Funder
National Health and Medical Research Council
Funding Amount
$398,993.00
Summary
Mortality from colorectal cancer is often due to the development of metastases. Cancer stem cells (CSC) are suspected to provide a major drive for metastasis development, to resist current therapies, and to initiate tumour relapse. Yet, little is known about mechanisms that control CSC behaviour. Our project investigates the role of claudin-2, a cell adhesion protein that is strongly overexpressed in colorectal cancer, in the regulation of CSCs, metastasis development and tumour relapse.
Inhibiting Mutant FGFR2 In Endometrial Cancer By Extracellular Blockade
Funder
National Health and Medical Research Council
Funding Amount
$354,859.00
Summary
Endometrial cancer is a common gynecological cancer in women and new therapies are required to improve survival rates. We have identified mutations in a key cell membrane protein (FGFR2) and shown that endometrial cancer cells with these mutations have altered growth factor dependence. Inhibiting these mutant proteins can result in cell death. By characterizing these mutations and their cellular effects we will be able to develop specific blocking agents for use as potential novel treatments
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100092
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Fluorescence microscopy with optical tweezers: imaging cellular responses. Life relies on the ability of our cells to receive and respond to signals with pinpoint accuracy, involving both chemical and mechanical signals. This equipment will allow scientists to expose cells to both types of signals and measure the response at an unprecedented level of accuracy for the first time.
I am a cancer biologist determining the mechanisms controlling growth and proliferation of cancer cells and use transgenic models of malignancy and genetic approaches to identify new therapies for targeting growth control in the treatment of cancer.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100166
Funder
Australian Research Council
Funding Amount
$370,000.00
Summary
Imaging Cell and Tissue Architecture using Confocal and Super-Resolution Microscopy. Imaging cell and tissue architecture using confocal and super-resolution microscopy: This project aims to understand how the architecture of cells and tissues is controlled. This is because the organisation of biological space underpins the function of cells, tissues and organisms. This project will test the role of identified parts of cell architecture in regulating specific animal functions/pathologies. It wil ....Imaging Cell and Tissue Architecture using Confocal and Super-Resolution Microscopy. Imaging cell and tissue architecture using confocal and super-resolution microscopy: This project aims to understand how the architecture of cells and tissues is controlled. This is because the organisation of biological space underpins the function of cells, tissues and organisms. This project will test the role of identified parts of cell architecture in regulating specific animal functions/pathologies. It will do this by using new microscope technologies which are at the frontier of visualising cell structure in isolation and in the context of tissue including application to the living animal. The dynamic organisation of structures in cells will be imaged in living tissue. Novel insights into structure/function relationships in the body will impact the health industry and generate opportunities for new diagnostics and therapeutics. Read moreRead less
The Pez-TGFbeta-miR200-ZEB1-2 Axis In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$533,541.00
Summary
A feature of late-stage cancer is metastasis - the dissemination of cancer cells to other tissues. Despite advances in treatment of primary cancers, metastatic disease remains the major cause of death in cancer patients. In metastatic cancers, the cells undergo a change that enables them to initially invade the surrounding tissues. We have discovered a novel regulator of the invasive process in tissue culture and this study aims to substantiate its role in breast cancer.
Development and validation of virtual epithelial cancer models using an integrated modelling and experimental three-dimensional approach. The mathematical and experimental modelling of the human prostate and ovary applying quantitative bioengineering concepts will lead to virtual cancer models. This project aims to validate these multi-scale models to delineate biological and pathological avenues in healthy and disease tissue and improve prevention and treatment of prostate and ovarian cancer.
Transcriptional Effectors Of Oncogenic ERK Signaling In Colorectal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$820,776.00
Summary
This project aims to unravel how one of the most frequently deregulated molecular pathways in colorectal cancer controls the expression of genes required for these tumours to grow and spread. We expect this work to uncover novel therapeutic targets to effectively inactivate this pathway and biomarkers to select patients most likely to benefit from existing therapies.