Translating Molecular Determinants Of Susceptibility And Progression In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$6,510,085.00
Summary
Breast cancer is the most common cancer in women. Despite improvements in prevention, detection and treatment, it is the 2nd most common cause of cancer death in Australian women. Research advances in the last decade have improved our understanding of the pathways from susceptibility to progression and metastasis but this has mostly not yet translated into better outcomes. This program aims to translate some of our fundamental discoveries to improve outcome for affected women and their families.
This study focuses on key endocrine pathways involved in the remodelling of the breast stromal cells into a reactive stromal environment which is more permissive for tumour growth. We have identified key pathways involved in the regulation of estrogen biosynthesis and fibrosis in tumour associated stroma. These studies will lead to the development of novel breast cancer therapies.
Fighting Epidermal Skin Cancers By Targeting Epidermal Clones That Accumulate Mutations
Funder
National Health and Medical Research Council
Funding Amount
$1,149,373.00
Summary
Common skin cancers such as basal and squamous cell carcinomas (BCC and SCC) are by far the most frequent cancer worldwide and require over a million interventions per year in Australia. This project will identify the skin cells that are most susceptible to give rise to cancer if excessively exposed to the sun and explores ways to prevent cancer formation. This will inform on new strategies to prevent new skin cancer development.
Cellular And Molecular Aspects Of Mammographic Density As A Predictor Of Breast Cancer Risk In Pseudo-orthotopic Mammatrophic Environment
Funder
National Health and Medical Research Council
Funding Amount
$113,322.00
Summary
High mammographic density (MD), or denser breast tissue on mammogram, is associated with greater breast cancer risk. Despite this, the basis for its increased risk is poorly understood. This study assesses the effect of high density breast tissue transferred from high risk women at time of mastectomy into tissue engineering chambers in mice. Changes in the connective tissue harvested from the chamber were examined with specialized imaging, laboratory stains and molecular analysis.
Defining Biomarkers Of Colorectal Cancer Prevention By Dietary Agents And Translation To Human Intervention Studies
Funder
National Health and Medical Research Council
Funding Amount
$632,924.00
Summary
This research will explore dietary agents for their ability to regulate the damage to DNA that is responsible for causing bowel cancer. The plan is to identify a dietary approach that will effectively reduce the risk of colon cancer. The science will be tested in animal models followed by initial human experiments aimed at testing the relevance to humans.
The Nature And Significance Of Clonal Evolution In Human Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$665,420.00
Summary
Cancers can progress in patients by developing genetic changes that favor the growth, survival and spread of cancer cells. However, the rate at which genetic changes occur in human cancer is not known. This project will determine the degree and biological significance of genetic change in human melanoma by using a novel method of growing tumors from single cells and comparing genetic differences between them.
Investigating Signalling Pathways That Mediate Suppression Of Anoikis By Chemokine Receptors In Metastatic Breast Cancer Cells
Funder
National Health and Medical Research Council
Funding Amount
$597,349.00
Summary
This research aims at understanding the "nuts and bolts" of the main killer in cancer patients - tumour metastasis. We will look for molecules that are specific to metastatic tumour cells that transmit signals from the cell surface to the cell "suicide" machinery and prevent metastatic cancer cell death.
Effects Of A Novel Hotspot Mutation Of Brm In Non-Melanoma Skin Cancer Development
Funder
National Health and Medical Research Council
Funding Amount
$92,314.00
Summary
Australia has the highest incidence of skin cancer in the world. SWI/SNF, a yeast nucleosome remodeling complex, is known destabilise interactions in DNA. It is made up of 8-10 proteins, including a novel tumour suppressor Brm. There is some evidence that Brm acts as a tumour suppressor in skin cancer, but relevance of a recently found mutation in Brm is yet to be characterised. This project aims to identify the effect of this mutation, on cellular sensitivity to UV radiation and examine transfo ....Australia has the highest incidence of skin cancer in the world. SWI/SNF, a yeast nucleosome remodeling complex, is known destabilise interactions in DNA. It is made up of 8-10 proteins, including a novel tumour suppressor Brm. There is some evidence that Brm acts as a tumour suppressor in skin cancer, but relevance of a recently found mutation in Brm is yet to be characterised. This project aims to identify the effect of this mutation, on cellular sensitivity to UV radiation and examine transformation to malignancy.Read moreRead less
Identifying Castrate-resistant Tumour Cells In Localised Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$573,047.00
Summary
This proposal addresses one of the most important challenges in cancer: what cell population ‘drives’ tumour progression, and how can it be effectively targeted? We will define the prostate cancer cells that survive androgen withdrawal therapy and investigate new ways to target them. Eliminating these important cells earlier in disease progression will lead to increased survival for men with prostate cancer.
The Role Of DNA Sensing In The Pathogenesis Of Colorectal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$633,704.00
Summary
Colorectal (bowel) cancer is a leading cause of death in Australia and worldwide. The ability of the body to detect DNA from damaged or dying cells in the gut is an important part of the healing process. This response also provides protection against colorectal cancer. In this project, we investigate how a DNA sensor prevents the development of intestinal tumours. This project will lead to new ways to fight cancer in humans.