Optimising Regulatory T Cell Depletion In Combination With Chemotherapy For Enhanced Anti-tumour Immunity
Funder
National Health and Medical Research Council
Funding Amount
$264,816.00
Summary
The drug cyclophosphamide helps the immune system attack cancer by decreasing the number of immune cells that suppress an immune response to cancer ('Regulatory T cells'). This project combines standard chemotherapy with the drug cyclophosphamide in people with mesothelioma and lung cancer. The aim of the project is to find the dose of cyclophosphamide that maximally decreases Regulatory T cells in each patient, and determine the effect of this on anti-tumour immunity and response to treatment.
I am a cancer molecular and cell biologist determining the mechanisms of anticancer drug action and resistance in both childhood and adult malignancies. My research involves the development and investigation of both in vivo and in vitro models of resistan
DNA methylation is a mechanism used by many organisms, including humans, to keep certain regions of DNA inactive, i.e. in a state where they will not be read. Errors in this process may result in inappropriate inactivation of a gene, termed epimutation; this may occur even when no DNA sequence changes (i.e. mutations) are present. Some individuals are born with high levels of an epimutation that predisposes them to developing multiple cancers. Little is known about whether low levels of epimutat ....DNA methylation is a mechanism used by many organisms, including humans, to keep certain regions of DNA inactive, i.e. in a state where they will not be read. Errors in this process may result in inappropriate inactivation of a gene, termed epimutation; this may occur even when no DNA sequence changes (i.e. mutations) are present. Some individuals are born with high levels of an epimutation that predisposes them to developing multiple cancers. Little is known about whether low levels of epimutations (only a portion of the body's cells affected) are important in development of sporadic (common) cancer. The aim of this project is to determine the levels of epimutations in the normal tissues of healthy individuals, and compare these with the levels in normal tissues of people who have had certain types of cancers. In doing this we hope to find out if low level epimutations contribute to the risk of developing sporadic cancer.Read moreRead less
Therapeutic Strategies In Epithelial Cancer Through Signalling Inhibition Of The Epidermal Growth Factor Receptor.
Funder
National Health and Medical Research Council
Funding Amount
$136,250.00
Summary
The growth of cancer cells is regulated by many factors, including the presence of growth receptors on the surface of cancer cells. The epidermal growth factor receptor (EGFR) is present in some normal tissues, but is highly expressed on many common cancers, including brain, breast, lung, head and neck, colon and prostate cancer. We are developing a number of potential therapeutic compounds that act by inhibiting the EGFR in cancer cells. These compounds include a novel monoclonal antibody that ....The growth of cancer cells is regulated by many factors, including the presence of growth receptors on the surface of cancer cells. The epidermal growth factor receptor (EGFR) is present in some normal tissues, but is highly expressed on many common cancers, including brain, breast, lung, head and neck, colon and prostate cancer. We are developing a number of potential therapeutic compounds that act by inhibiting the EGFR in cancer cells. These compounds include a novel monoclonal antibody that binds to EGFR and inhibits its function, and a small molecule that binds to a portion of the EGFR inside cancer cells and also inhibits function. Both of these compounds prevent tumour growth in laboratory studies. This project will examine the mechanisms of action of these compounds, and explore ways to improve their anti-cancer effect. We have also shown that combining these compounds with other therapeutics eg chemotherapy markedly enhances their anti-cancer effect. We will further examine the mechanisms of these effects, and also determine if radiotherapy has additive anti-cancer effects. These studies will provide a basis for improved therapies for cancers overexpressing the EGFR.Read moreRead less