UNDERSTANDING FOCAL ADHESION DYNAMICS IN CELL MIGRATION
Funder
National Health and Medical Research Council
Funding Amount
$268,944.00
Summary
Metastatic (secondary) cancers are a frequent cause of patient mortality. Central to the development of metastasis is cell motility-movement. A key component of cell movement is the way that cells bind and release the extra-cellular matrix as they move. By understanding how the dynamics of cell interaction with the matrix are regulated, we will identify molecules that are critical to the development of metastatic cancer and thus novel targets for inhibition of metastasis.
Investigating Tumour Development And Metastasis Using A Novel Drosophila Cancer Model.
Funder
National Health and Medical Research Council
Funding Amount
$505,500.00
Summary
The majority of cancers are derived from epithelial cells. The primary cause of cancer related deaths is due to the ability of these epithelial cancer cells to migrate and invade other tissues within the body away from their primary tissue of origin (metastasise). This proposal seeks to understand the pathways that are important in regulating the processes of epithelial cell migration and invasion that are instrumental in promoting the metastatic spread of tumour cells. As controls usually opera ....The majority of cancers are derived from epithelial cells. The primary cause of cancer related deaths is due to the ability of these epithelial cancer cells to migrate and invade other tissues within the body away from their primary tissue of origin (metastasise). This proposal seeks to understand the pathways that are important in regulating the processes of epithelial cell migration and invasion that are instrumental in promoting the metastatic spread of tumour cells. As controls usually operate to induce cell death in any cell that attempts to break away and invade other tissues, this proposal also seeks to understand some of the pathways that are responsible for causing these cells to die. To carry out these investigations we have developed a novel Drosophila model of epithelial cancer development. We use this model because of the ease with which it is possible to carry out complex genetic analyses and so dissect the roles of the many different signalling pathways involved in these processes. The strength of the model is that it is dependent upon genetic alterations that are also implicated in the development and metastatic spread of many mammalian cancers, namely activating mutations in two genes, Ras and Notch. It is expected, therefore, to offer considerable insight into why these activated genes also cause the spread of cancer cells in humans.Read moreRead less
Characterisation Of The Role & Biomarker Potential Of The Novel Cell Surface Protein TTYH2 In Renal Cell Carcinoma
Funder
National Health and Medical Research Council
Funding Amount
$489,000.00
Summary
Renal cell carcinoma is the most common cancer of the kidney. One-third of patients upon first diagnosis have secondary tumour sites already within their body as well as new treatment approaches for more advanced disease making them very difficult to cure. An early specific test for this cancer is urgently needed. Our group has identified a new gene called TTYH2 which is highly expressed by renal cell carcinoma tissue samples but not in normal kidney tissues. In this study, we intend to look at ....Renal cell carcinoma is the most common cancer of the kidney. One-third of patients upon first diagnosis have secondary tumour sites already within their body as well as new treatment approaches for more advanced disease making them very difficult to cure. An early specific test for this cancer is urgently needed. Our group has identified a new gene called TTYH2 which is highly expressed by renal cell carcinoma tissue samples but not in normal kidney tissues. In this study, we intend to look at the expression of TTYH2 in more clinical samples to determine if TTYH2 will be a useful bio-marker for this cancer. We are also studying the function of this protein in renal cell carcinoma cells to identify the exact role that TTYH2 performs in cancer development and progression. Finally we will look at what other proteins are interacting with TTYH2 in kidney cancer cells. These latter studies will help us to understand the disease process better and may help us design new treatment methods.Read moreRead less
Mechanisms Of CD44v2-10-mediated Tumour Metastasis.
Funder
National Health and Medical Research Council
Funding Amount
$441,000.00
Summary
Cancer metastasis remains the principal cause of treatment failure in malignant disease. Current therapies for metastases are generally non-specific, and can cause considerable systemic toxicity. The ideal target for metastasis therapy would be expressed by a broad range of tumours, but be restricted in expression in normal tissues. CD44 is a family of widely expressed cell-surface adhesion molecules and its members are implicated in a variety of physiological and pathological processes, includi ....Cancer metastasis remains the principal cause of treatment failure in malignant disease. Current therapies for metastases are generally non-specific, and can cause considerable systemic toxicity. The ideal target for metastasis therapy would be expressed by a broad range of tumours, but be restricted in expression in normal tissues. CD44 is a family of widely expressed cell-surface adhesion molecules and its members are implicated in a variety of physiological and pathological processes, including tumour progression and metastasis. CD44 has considerable molecular diversity and its broad range of known biological activities suggests that multiple domains in the molecule may confer different biological functions. The core CD44 molecule, termed CD44s, is the most commonly expressed CD44 molecule. CD44 variants (termed CD44v) are much more restricted in their expression in normal tissues, and hence may make specific targets for anti-metastasis therapy. We have shown that CD44 variants are expressed by colorectal tumours from the earliest stages of tumour development, and that theses variants are found to be expressed by colorectal hepatic metastases. We targeted two key domains in the variants and found that by inhibiting expression in these domains we showed complete abrogation of metastasis, and of primary tumour growth in mice. Hence these domains in the CD44 molecule are directly involved in cancer spread. We propose to investigate the mechanisms by which specificdomains in the CD44 variants actually cause tumour spread. Understanding of the various mechanisms involved in tumour spread, and targeting the functions of the domains has enormous potential as a therapeutic target.Read moreRead less
INVESTIGATIONS INTO THE BIOLOGICAL FUNCTIONING AND PROGNOSTIC VALUE OF NOVEL METASTATIC MARKERS FOR BREAST CANCER
Funder
National Health and Medical Research Council
Funding Amount
$423,564.00
Summary
Breast cancer is the most malignant tumour of women and, despite great advances in detection and treatment, some 30% of women who present with primary breast cancer eventually relapse or die of their disease. Genetic studies have resulted in the rapid identification of the one-third of women at high risk of developing breast cancer because of a family history of the disease: it is hoped that these women will eventually benefit from advances in gene therapy now being developed. For the majority o ....Breast cancer is the most malignant tumour of women and, despite great advances in detection and treatment, some 30% of women who present with primary breast cancer eventually relapse or die of their disease. Genetic studies have resulted in the rapid identification of the one-third of women at high risk of developing breast cancer because of a family history of the disease: it is hoped that these women will eventually benefit from advances in gene therapy now being developed. For the majority of women developing breast cancer, however, the outcome, or prognosis, remains uncertain. The most important indicators of outcome are obtained by study of the excised cancer tissue, and these relate to the speed of growth of the cancer cells and their ability to migrate, or metastasise, to other sites in the body. Studies of cancer tissue using molecular cell biological methods has enabled the identification of several markers that are proving useful as indicators of outcome, and further understanding of the biological functioning of these markers will enable these molecules to be targetted in new treatments aimed at preventing the spread of the cancer. The present study will examine the appearance of new markers for cell migration among breast cancers and measure their value as indicators of outcome. One molecule in particular may be useful as a therapeutic target since it is used by migrating cells during development but is not expressed by normal (non-cancer) adult tissue cells. Towards this, the project will seek to understand how this molecule functions in cell migration.Read moreRead less