Elucidation of the hierarchy of stem, progenitor and mature cells in the mouse mammary gland. Breast cancer is the most common cause of cancer-related death in women in Australia. Although the treatments have improved over the last 30 years, many women still die from the disease. It is therefore important to identify new targets for breast cancer treatment. There is growing interest in the concept that a cancer-initiating cell may arise from a stem cell or progenitor cell in the mammary gland. O ....Elucidation of the hierarchy of stem, progenitor and mature cells in the mouse mammary gland. Breast cancer is the most common cause of cancer-related death in women in Australia. Although the treatments have improved over the last 30 years, many women still die from the disease. It is therefore important to identify new targets for breast cancer treatment. There is growing interest in the concept that a cancer-initiating cell may arise from a stem cell or progenitor cell in the mammary gland. Our goal is to identify those cells and to determine which genes are involved in transforming a normal cell to a cancerous cell.Read moreRead less
Planning female and male vaccination and cervical screening strategies to achieve optimal prevention of HPV-related disease. The findings from this research will inform the development of public health policy on the most cost-effective utilisation of resources for preventing cervical, anogenital and head/neck cancers, and genital warts, in women and men, due to human papillomavirus (HPV). We will evaluate strategies for using emerging screening and vaccine technologies to prevent HPV-related dis ....Planning female and male vaccination and cervical screening strategies to achieve optimal prevention of HPV-related disease. The findings from this research will inform the development of public health policy on the most cost-effective utilisation of resources for preventing cervical, anogenital and head/neck cancers, and genital warts, in women and men, due to human papillomavirus (HPV). We will evaluate strategies for using emerging screening and vaccine technologies to prevent HPV-related disease, and assess potential adverse outcomes of vaccination. Men are currently not covered by routine vaccination or screening programs; this research will assess the benefit to men of vaccinating women only, and will consider the impact of vaccination and other interventions targeted towards men.Read moreRead less
Discovering mechanisms of primary embryonic tissue migration through live cell imaging and novel genetic approaches. The studies proposed here will provide concepts and knowledge about the molecular basis of cell migration that will impact on diverse aspects of human health, such as the causes and nature of tumour metastasis and our understanding of the developmental basis of birth defects. In addition, understanding cell migration mechanisms will allow us to better predict or control the behav ....Discovering mechanisms of primary embryonic tissue migration through live cell imaging and novel genetic approaches. The studies proposed here will provide concepts and knowledge about the molecular basis of cell migration that will impact on diverse aspects of human health, such as the causes and nature of tumour metastasis and our understanding of the developmental basis of birth defects. In addition, understanding cell migration mechanisms will allow us to better predict or control the behaviour of therapeutic stem cells introduced into the body.Read moreRead less
How does Fat cadherin control organ size in Drosophila, and cancer in humans? The primary function of Fat cadherin is to dictate the appropriate size of organs in developing animals. Deficiency in the fat gene results in vastly overgrown organs and can lead to the formation of cancer in humans. Our study will provide important insights into how the size of organs are controlled during development. Our research findings will have important implications for several aspects of human health and biol ....How does Fat cadherin control organ size in Drosophila, and cancer in humans? The primary function of Fat cadherin is to dictate the appropriate size of organs in developing animals. Deficiency in the fat gene results in vastly overgrown organs and can lead to the formation of cancer in humans. Our study will provide important insights into how the size of organs are controlled during development. Our research findings will have important implications for several aspects of human health and biology, and will increase our understanding of diseases that arise due to aberrant tissue growth, such as cancer. Our research findings will thus be of substantial national benefit, given that cancer is now the biggest cause of death in Australia, and that more than 88,000 Australians are diagnosed with cancer each year. Read moreRead less
Adaptive Evolution of BRCA1 in Ancestral Mammals. This project investigates adaptive evolution of BRCA1 in the early radiation of mammals. We will test the hypothesis that the evolution of mammary glands and X chromosome inactivation has resulted in modification of the BRCA1 protein sequence as it aquired new roles in these processes. We will also investigate the importance of these changes inducing compensatory changes in other parts of the protein.
Control of cell survival by the Bcl-2 protein family. The control of apoptosis is essential for homeostasis. It is now realized that deregulation of apoptosis is a hallmark of many cancers. In apoptosis, the Bcl-2 protein family plays a central role in determining if a cell lives or dies. My proposal aim is to provide a deeper understanding of how cell death and survival is controlled by the Bcl-2 family. These studies have notable implications for understanding normal cell death control as well ....Control of cell survival by the Bcl-2 protein family. The control of apoptosis is essential for homeostasis. It is now realized that deregulation of apoptosis is a hallmark of many cancers. In apoptosis, the Bcl-2 protein family plays a central role in determining if a cell lives or dies. My proposal aim is to provide a deeper understanding of how cell death and survival is controlled by the Bcl-2 family. These studies have notable implications for understanding normal cell death control as well as aid in the development of therapeutic agents such as ones to overcome the resistance to apoptosis, found in many types of cancer.Read moreRead less
Apoptotic signalling in virally infected and normal cells. Viral diseases contribute substantially to mortality and morbidity, in Australia and internationally. Emerging viral diseases, including H5N1 avian influenza, have the potential to severely impact on human health and the global economy. Concerns also exist that viruses may be used as bioweapons. This project seeks to define the mechanisms by which cell death occurs and is regulated in healthy cells, and how this is altered in virally inf ....Apoptotic signalling in virally infected and normal cells. Viral diseases contribute substantially to mortality and morbidity, in Australia and internationally. Emerging viral diseases, including H5N1 avian influenza, have the potential to severely impact on human health and the global economy. Concerns also exist that viruses may be used as bioweapons. This project seeks to define the mechanisms by which cell death occurs and is regulated in healthy cells, and how this is altered in virally infected or oncogenically transformed cells. Outcomes of this work may contribute to development of novel anti-cancer and anti-viral therapies, diagnostic reagents and vaccines.Read moreRead less
Mechanisms of cell death regulation by the Bcl-2 protein family. Through the proposed study, the expected outcome is a better understanding of the important process of how the Bcl-2 family of proteins interact with each to control cell death. Furthermore, as dysfunctional apoptosis signalling contributes to diseases such as autoimmune conditions, neurodegenerative disorders and cancer, a detailed and sound understanding of how the cell death machinery operates should enable the design of more ef ....Mechanisms of cell death regulation by the Bcl-2 protein family. Through the proposed study, the expected outcome is a better understanding of the important process of how the Bcl-2 family of proteins interact with each to control cell death. Furthermore, as dysfunctional apoptosis signalling contributes to diseases such as autoimmune conditions, neurodegenerative disorders and cancer, a detailed and sound understanding of how the cell death machinery operates should enable the design of more effective and importantly, safer therapies against these pathologies.Read moreRead less
Structural investigations into the regulation of programmed cell death. One in three men and one in four women in Australia will develop cancer by the age of 75 at current incidence rates. At its heart, cancer is a disease of uncontrolled cell proliferation. One of the body's main defence mechanisms against excess cell proliferation is Programmed Cell Death, a process which becomes dysfunctional in cancer cells. This work will provide three dimensional images of the machinery that controls Progr ....Structural investigations into the regulation of programmed cell death. One in three men and one in four women in Australia will develop cancer by the age of 75 at current incidence rates. At its heart, cancer is a disease of uncontrolled cell proliferation. One of the body's main defence mechanisms against excess cell proliferation is Programmed Cell Death, a process which becomes dysfunctional in cancer cells. This work will provide three dimensional images of the machinery that controls Programmed Cell Death. This information is critical for the development of drugs designed to re-initiate Programmed Cell Death in cancer cells.Read moreRead less
Elucidating the regulation of cell death by random mutagenesis of key apoptotic proteins. All organisms need to remove damaged or excessive cells. This cell death process is called apoptosis. Defects in apoptosis result in numerous diseases including cancer, and neurodegenerative and immune disorders. Determining how this process is regulated is of crucial importance for therapeutic intervention. We will utilise a powerful strategy to mutate proteins required for apoptosis so that they no longer ....Elucidating the regulation of cell death by random mutagenesis of key apoptotic proteins. All organisms need to remove damaged or excessive cells. This cell death process is called apoptosis. Defects in apoptosis result in numerous diseases including cancer, and neurodegenerative and immune disorders. Determining how this process is regulated is of crucial importance for therapeutic intervention. We will utilise a powerful strategy to mutate proteins required for apoptosis so that they no longer work, which will allow the identification of protein regions essential for cell death activity . This will lead to identification of potential drug targets to control apoptosis. Elucidating the mechanism of cell death will lead to the development of novel and improved therapies for diseases such as cancer and neurodegenerative disease.Read moreRead less