Tumour Induced Innate Immune Responses That Control Breast Cancer Metastases
Funder
National Health and Medical Research Council
Funding Amount
$596,164.00
Summary
The mechanisms of breast cancer spread to bone are largely unknown. We have found that cross-talk between tumour cells and the immune system exists to induce anti-tumour immune responses. By decreasing the release of proteins known to activate immune responses (type I interferons), tumour cells can hide from such responses and spread to tissues such as bone. We aim to identify the immune responses activated by type I IFN and if restoration of these pathways can block breast cancer spread to bone ....The mechanisms of breast cancer spread to bone are largely unknown. We have found that cross-talk between tumour cells and the immune system exists to induce anti-tumour immune responses. By decreasing the release of proteins known to activate immune responses (type I interferons), tumour cells can hide from such responses and spread to tissues such as bone. We aim to identify the immune responses activated by type I IFN and if restoration of these pathways can block breast cancer spread to bone.Read moreRead less
Each year, 18,000 Australian men are diagnosed with prostate cancer. While current treatments are designed to directly target cancer cells, the tumour-associated stroma is also recognised to play a pivotal in the establishment and progression of prostate cancer. This grant aims to investigate the contribution of stromal Hedgehog signalling, with the view to creating new treatment strategies that will treat the entire tumor environment.
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.
Elucidating The In Vivo Role Of The Pro-survival Gene Mcl-1 In Mammary Gland Development And Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$664,691.00
Summary
Breast cancer strikes one in 8 women by age 85 and is a major cause of morbidity and mortality. Despite recent improvements, the immense breast cancer burden demands new strategies that will radically improve patient outcomes. This project will address a hallmark of cancer: evasion of apoptosis. Understanding the molecular events that promote tumour survival and resistance to therapy represents a key area in cancer biology that has yet to be properly applied to breast cancer.
Molecular hallmarks of androgen receptor targeting in prostate cancer. There is a critical need in oncology drug development for better biomarkers of response to prostate cancer therapies, clinically to assist with treatment decision making, and pre-clinically to facilitate translation of emerging agents into clinical practice. Using a unique explant culture model, this project will identify protein and lipid markers that can be used to accurately and reliably assess response to androgen recepto ....Molecular hallmarks of androgen receptor targeting in prostate cancer. There is a critical need in oncology drug development for better biomarkers of response to prostate cancer therapies, clinically to assist with treatment decision making, and pre-clinically to facilitate translation of emerging agents into clinical practice. Using a unique explant culture model, this project will identify protein and lipid markers that can be used to accurately and reliably assess response to androgen receptor (AR)-targeting therapies in human prostate tumours. The identification and functional assessment of these biomarkers will identify those that can be used as surrogate endpoints in clinical trials, facilitate earlier approval of investigational agents and lead to improved options for therapeutic management of prostate cancer.Read moreRead less
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
Much of the death and suffering caused by cancer is associated with secondary tumours, but alot remains to be learned about how cancer spreads through the patient's body. This project will determine how genes that enable the growth of tumours work with other genes that enable cancer cells to detach from the tumour, enabling them to enter the bloodstream and form secondary tumours in other organs.
Cells have the ability to commit suicide in a process called apoptosis. Developing new treatments and drugs that harness the ability of cancer cells to commit suicide (undergo apoptosis) would represent a new and potentially valuable therapeutic approach. We have identified a number of previously unrecognized ways of triggering apoptosis in cancer cells of the blood (leukemias). We propose to use our approaches to find more effective ways of treating cancers in the future.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100239
Funder
Australian Research Council
Funding Amount
$480,000.00
Summary
Small biological molecule tissue imaging mass spectrometry facility for Western Australia for spatial metabolomics and lipidomics. This tissue imaging facility for Western Australia will provide researchers with access to much needed instrumentation. The facility will support major research efforts in key disciplines, including agriculture and animal science, fisheries and medical science.
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.