Understanding the critical processes that control cell death and using this knowledge to kill cells that have evaded death. Cell death is essential for protecting the body against cancer, and defects in cell death pathways contribute to cancer progression. To design new and better cancer therapies we must understand the critical processes which control cell death, and develop effective ways to either reset, or bypass, defects in cell death pathways that contribute to cancer. The program as outl ....Understanding the critical processes that control cell death and using this knowledge to kill cells that have evaded death. Cell death is essential for protecting the body against cancer, and defects in cell death pathways contribute to cancer progression. To design new and better cancer therapies we must understand the critical processes which control cell death, and develop effective ways to either reset, or bypass, defects in cell death pathways that contribute to cancer. The program as outlined will elucidate the process of mitochondrial outer membrane permeabilization, a critical event in cell death by apoptosis, and determine how to kill cells in which this event is blocked.Read moreRead less
Cholesterol and Hydroxycholesterol Shaping Phagocytosis. Reports now show that membrane cholesterol and 25-hydroxycholesterol (25HC) are required for immune cells to ingest and kill pathogens by phagocytosis. This project will measure phagocytosis in macrophages with genetically or pharmacologically varied cholesterol and 25HC, to compare and quantify the ingestion of different bacteria, fungi and particles. This project will also address the link between cholesterol synthesis, its storage in li ....Cholesterol and Hydroxycholesterol Shaping Phagocytosis. Reports now show that membrane cholesterol and 25-hydroxycholesterol (25HC) are required for immune cells to ingest and kill pathogens by phagocytosis. This project will measure phagocytosis in macrophages with genetically or pharmacologically varied cholesterol and 25HC, to compare and quantify the ingestion of different bacteria, fungi and particles. This project will also address the link between cholesterol synthesis, its storage in lipid bodies and its availability for phagocytosis, based on preliminary data showing such defects in the staggerer mouse model. Notably, cholesterol dysregulation is now a prevalent condition in society and our results will reveal at a fundamental, molecular level how this might compromise immune defenses.Read moreRead less
Brain metabolic changes in experimental malaria: a paradigm for the molecular mechanisms of intravascular inflammation. Malaria is endemic in countries directly to the north of Australia, as close as Papua New Guinea and East Timor. This project's findings about malaria also will have relevance to other infectious diseases of national importance. The outcomes will contribute to Australia's research reputation. We will build international links that will increase the national knowledge base and r ....Brain metabolic changes in experimental malaria: a paradigm for the molecular mechanisms of intravascular inflammation. Malaria is endemic in countries directly to the north of Australia, as close as Papua New Guinea and East Timor. This project's findings about malaria also will have relevance to other infectious diseases of national importance. The outcomes will contribute to Australia's research reputation. We will build international links that will increase the national knowledge base and research skill base. Young scientists will be trained in state-of-the-art research techniques in a cross-disciplinary environment that is the way of future biological research. The project may identify potential drug targets for malaria or other infectious diseases. The Intellectual Property will be protected and commercialised.Read moreRead less
Moonlighting from sugar to metal. This project intends to use integrated genetics, biochemistry and omics to decipher the roles of the highly conserved OST3 proteins, which have been implicated in the disparate functions of regulating protein glycosylation and transporting magnesium. The project plans to detail the role of OST3 proteins in regulating mammalian glycosylation and reconstruct the vertebrate co-evolutionary trajectory of OST3 protein–substrate interactions. It also aims to identify ....Moonlighting from sugar to metal. This project intends to use integrated genetics, biochemistry and omics to decipher the roles of the highly conserved OST3 proteins, which have been implicated in the disparate functions of regulating protein glycosylation and transporting magnesium. The project plans to detail the role of OST3 proteins in regulating mammalian glycosylation and reconstruct the vertebrate co-evolutionary trajectory of OST3 protein–substrate interactions. It also aims to identify and characterise the regulation, mechanisms and metabolic consequences of OST3 protein-mediated magnesium transport. These outcomes may provide insights into eukaryotic biology, and allow advances in engineered systems for glycoprotein production and modulating cellular metabolism with potential research and therapeutic utility.Read moreRead less
Matching Supply And Demand: How Does Metabolism Fine-tune Signal Transduction?
Funder
National Health and Medical Research Council
Funding Amount
$316,449.00
Summary
Insulin controls nutrient traffic and disrupting its actions are linked to many diseases: type 2 diabetes, cancer, heart disease. Here, I will test a novel hypothesis that our cells’ metabolic rate, defined by the balance between nutrient supply and energy expenditure, controls how cells respond to insulin. These metabolic regulatory nodes would play a major determinant of many essential functions linked to human health, and thus provide novel therapeutic targets for numerous diseases.
Oxidative Damage and Cell Ageing. This research will benefit Australia by providing a fundamental understanding of how cells age. This will have immediate international impact at the scientific level and will inform strategies to reduce the rate of ageing and alleviation of age-related disorders. In the longer term the research may provide commercial and social outcomes by identifying antioxidant systems that will provide a genuine benefit in reducing ageing.
Identifying The Critical Components Of Growth Factor-mediated Survival Pathways
Funder
National Health and Medical Research Council
Funding Amount
$589,338.00
Summary
The regulation of cell lifespan (cell survival) is controlled by growth factors and lies at the heart of all biological processes. However, little is known of the molecular switches inside cells that either turn survival on or off. We propose to identify and characterize the molecular switches inside cells that control the balance between cell survival and death. Targeting specific components of these switches may provide new approaches for the treatment of cancer and infectious diseases.
Cellular Responses to Oxidative Damage: Cell Aging. The aim of this project is to identify the mechanisms by which oxidative stress and free radical damage cause cell aging. This work will make a significant contribution to our understanding of the aging process in cells by identifying the major reactive oxygen species that contribute to cell aging, which defence systems and antioxidants provide the greatest degree of protection, what damage accumulates as cells age and which genetic systems ar ....Cellular Responses to Oxidative Damage: Cell Aging. The aim of this project is to identify the mechanisms by which oxidative stress and free radical damage cause cell aging. This work will make a significant contribution to our understanding of the aging process in cells by identifying the major reactive oxygen species that contribute to cell aging, which defence systems and antioxidants provide the greatest degree of protection, what damage accumulates as cells age and which genetic systems are activated as during the process.Read moreRead less
Regulation of lipolysis: new players, new paradigms. The way in which fat is broken down is poorly understood. This research will determine how important proteins in fat breakdown are turned on and off. By understanding this relationship, effective pharmaceutical treatments will be developed that will enhance the capacity to burn fat and ultimately reduce the incidence of type 2 diabetes and cardiovascular disease, and ease the associated financial burden on the community and healthcare system. ....Regulation of lipolysis: new players, new paradigms. The way in which fat is broken down is poorly understood. This research will determine how important proteins in fat breakdown are turned on and off. By understanding this relationship, effective pharmaceutical treatments will be developed that will enhance the capacity to burn fat and ultimately reduce the incidence of type 2 diabetes and cardiovascular disease, and ease the associated financial burden on the community and healthcare system. Understanding fat breakdown is also important for developing new processing technologies in the food industry.Read moreRead less
Molecular basis of skeletal muscle lipoapoptosis. High levels of fat in cells are associated with obesity and type 2 diabetes, medical conditions that have increased dramatically in prevalence in Australia. High fat levels in cells also causes cell death. This research will determine the mechanisms by which excessive fat storage leads to cell death and whether this leads to insulin resistance and type 2 diabetes. By understanding this relationship, effective pharmaceutical treatments will be dev ....Molecular basis of skeletal muscle lipoapoptosis. High levels of fat in cells are associated with obesity and type 2 diabetes, medical conditions that have increased dramatically in prevalence in Australia. High fat levels in cells also causes cell death. This research will determine the mechanisms by which excessive fat storage leads to cell death and whether this leads to insulin resistance and type 2 diabetes. By understanding this relationship, effective pharmaceutical treatments will be developed that will ultimately reduce the incidence of type 2 diabetes, and ease the associated financial burden on the community and healthcare system.Read moreRead less