Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453630
Funder
Australian Research Council
Funding Amount
$274,692.00
Summary
High-Speed Confocal Microscope Live Cell Recording System. The high-speed confocal microscope live cell recording system we are establishing represents new generation equipment. It allows quality imaging of selected subcellular regions of live cells combined with simultaneous electrophysiological recording at rates and sensitivity hitherto not possible. This equipment provides a window of opportunity for major research advances in that it allows real-time two and three-dimensional imaging of fun ....High-Speed Confocal Microscope Live Cell Recording System. The high-speed confocal microscope live cell recording system we are establishing represents new generation equipment. It allows quality imaging of selected subcellular regions of live cells combined with simultaneous electrophysiological recording at rates and sensitivity hitherto not possible. This equipment provides a window of opportunity for major research advances in that it allows real-time two and three-dimensional imaging of fundamental cellular activities that previously could not be viewed. It will allow major advances in priority health-related research and will provide an ideal research tool to introduce young scientists and students to cutting edge research.Read moreRead less
The basis of recognition and disposal of dysfunctional proteins by clusterin. When proteins become damaged they can precipitate. A blood protein called clusterin prevents precipitation of damaged proteins. Clusterin does this by forming complexes with the damaged proteins. Clusterin is the first blood protein known to do this. We will discover which parts of clusterin are responsible for this activity. We will also discover whether cells can take up and dispose of the complexes of clusterin and ....The basis of recognition and disposal of dysfunctional proteins by clusterin. When proteins become damaged they can precipitate. A blood protein called clusterin prevents precipitation of damaged proteins. Clusterin does this by forming complexes with the damaged proteins. Clusterin is the first blood protein known to do this. We will discover which parts of clusterin are responsible for this activity. We will also discover whether cells can take up and dispose of the complexes of clusterin and damaged proteins. This work is important because some diseases (eg, Alzheimers disease) involve the toxic effects of abnormal protein precipitation. Understanding how clusterin works may help in developing better treatments for these diseases.Read moreRead less
The macrophage nucleus - its form and function during migration in vivo. As cells migrate through tissues, they encounter complex, 3-dimensional environments that provide cues to guide them and present obstacles in their path. This project focuses on macrophages, a large immune cell capable of both amoeboid and mesenchymal modes of migration. The nucleus is the largest organelle and its bulk and stiffness must be managed as migrating cells travel through constrictions. The project uses specialis ....The macrophage nucleus - its form and function during migration in vivo. As cells migrate through tissues, they encounter complex, 3-dimensional environments that provide cues to guide them and present obstacles in their path. This project focuses on macrophages, a large immune cell capable of both amoeboid and mesenchymal modes of migration. The nucleus is the largest organelle and its bulk and stiffness must be managed as migrating cells travel through constrictions. The project uses specialised high-end microscopy and genetic methods to examine how the nucleus of migrating zebrafish macrophages deforms, repositions and is restructured during migration in living tissues, and how this influences macrophage locomotion. The goal is to provide fundamental insights into the cell biology of macrophage migration.Read moreRead less
Novel sources of nitric oxide (NO) in cells: Implications for an endocrine role for NO. Communication between cells is essential for coordinating and controlling a healthy body. A key regulator and cell-communicating molecule is the gas, nitric oxide. Although nitric oxide is a simple substance we still do not fully understand all aspects of its cellular functions. It is assumed that nitric oxide is synthesised in the body and, after release, is rapidly metabolized and eliminated. Reductions in ....Novel sources of nitric oxide (NO) in cells: Implications for an endocrine role for NO. Communication between cells is essential for coordinating and controlling a healthy body. A key regulator and cell-communicating molecule is the gas, nitric oxide. Although nitric oxide is a simple substance we still do not fully understand all aspects of its cellular functions. It is assumed that nitric oxide is synthesised in the body and, after release, is rapidly metabolized and eliminated. Reductions in the levels of nitric oxide in the body are associated with several diseases states and states of dysfunction including cardiovascular disease, diabetes and also impotence. Professor Triggle's study seeks to characterize how tissues may store nitric oxide, thus prolonging the life of nitric oxide, and how such stores are released. Read moreRead less
Transduction of neuronal signals by brain macroglial cells: implications for neuronal function. Study of mechanisms regulating brain cell (neuron and glial) communication is essential for understanding of normal brain function and transformations that occur in neurodegenerative states and age-related disorders. Mechanisms underlying neuron-glia communication are not well understood. By combining cell physiology, digital imaging technologies, and genetically designed and delivered molecules we w ....Transduction of neuronal signals by brain macroglial cells: implications for neuronal function. Study of mechanisms regulating brain cell (neuron and glial) communication is essential for understanding of normal brain function and transformations that occur in neurodegenerative states and age-related disorders. Mechanisms underlying neuron-glia communication are not well understood. By combining cell physiology, digital imaging technologies, and genetically designed and delivered molecules we will enhance our understanding of this brain cell communication and critical roles played by intracellular calcium. This will enhance international competitiveness of Australian biological research and provide novel insight of glial function in neurodegeneration and potential for specific therapeutic intervention in disease.Read moreRead less
The role of intracellular calcium stores in cardiac pacemaking. The spontaneous firing of pacemaker cells is central to regulation of the cardiovascular system particularly during exercise. The discovery that pacemaker cell function is modulated in part by calcium ions will change our understanding of the changes in heart rate during exercise and in diseases which affect the pacemaker cells. Better understanding of the way in which spontaneous activity of these cells is regulated is the key to ....The role of intracellular calcium stores in cardiac pacemaking. The spontaneous firing of pacemaker cells is central to regulation of the cardiovascular system particularly during exercise. The discovery that pacemaker cell function is modulated in part by calcium ions will change our understanding of the changes in heart rate during exercise and in diseases which affect the pacemaker cells. Better understanding of the way in which spontaneous activity of these cells is regulated is the key to controlling or modifying their function.Read moreRead less
Calcium signalling by intracellular calcium stores in rabbit, mouse and man: implications for muscle performance and athletic ability. This project addresses essential vital life functions such as respiration and movement and factors that determine whether muscles are better suited to weight lifting, endurance or sprint activities. The outcome will fill an information gap and provide therapeutic targets, significant in medicine, sports and veterinary science.
Discovery Early Career Researcher Award - Grant ID: DE220100403
Funder
Australian Research Council
Funding Amount
$468,582.00
Summary
Defining how gut bacteria regulate metabolism: a role for gut serotonin. This project aims to understand how serotonin-producing cells in the gut interact with gut bacteria (the microbiome), using a combination of cells in culture and live germ-free and genetically modified mice. This project expects to generate new knowledge regarding cellular interactions that underlie important physiological pathways, such as the control of blood glucose and fat storage. The intended outcomes of this project ....Defining how gut bacteria regulate metabolism: a role for gut serotonin. This project aims to understand how serotonin-producing cells in the gut interact with gut bacteria (the microbiome), using a combination of cells in culture and live germ-free and genetically modified mice. This project expects to generate new knowledge regarding cellular interactions that underlie important physiological pathways, such as the control of blood glucose and fat storage. The intended outcomes of this project are to identify how gut bacteria communicate with serotonin-producing cells to regulate metabolism, and whether diet acts via a gut microbiome-serotonin axis to impact physiology. The expected benefit of this project will be to provide a new understanding of highly complex physiological systems that regulate our health.Read moreRead less
Do pancreatic stellate cells play a role in pancreatic exocrine secretion? 3 major national benefits: 1)Alignment with research priority goals of preventative health care and ageing well ageing productively. Elucidation of mechanisms of action of CCK and the interaction of PSCs and acinar cells in mediating pancreatic secretion will help refine our approach to the prevention and treatment of disorders related to the above processes viz. maldigestion, malabsorption, obesity and pancreatic cancer. ....Do pancreatic stellate cells play a role in pancreatic exocrine secretion? 3 major national benefits: 1)Alignment with research priority goals of preventative health care and ageing well ageing productively. Elucidation of mechanisms of action of CCK and the interaction of PSCs and acinar cells in mediating pancreatic secretion will help refine our approach to the prevention and treatment of disorders related to the above processes viz. maldigestion, malabsorption, obesity and pancreatic cancer. 2)Enhancement of Australia's reputation in gastrointestinal (GI) research through a unique collaboration between internationally recognised researchers in GI and pancreatic biology. 3)Training opportunities for Australian research students and scientists in physiology, gastroenterology and pancreatology.Read moreRead less
Do depolarizing currents in the endothelium evoke contraction of vascular smooth muscle? Establishment of our concept involving a novel constricting influence in blood vessels will have two major benefits. First, it will keep Australian research at the leading edge in blood vessel research and thus maintain a very high international profile for Australian science. Second, our concept represents a whole new field of therapeutic potential for treating a range of vascular diseases involving excess ....Do depolarizing currents in the endothelium evoke contraction of vascular smooth muscle? Establishment of our concept involving a novel constricting influence in blood vessels will have two major benefits. First, it will keep Australian research at the leading edge in blood vessel research and thus maintain a very high international profile for Australian science. Second, our concept represents a whole new field of therapeutic potential for treating a range of vascular diseases involving excessive constriction of blood vessels. The development and manufacture of drugs in Australia would contribute to the national economy, and their consumption could improve the quality of life for those suffering from vascular diseases amenable to treatment by such drugs, likely to include pre-eclampsia, diabetes, hypertension.
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