The role of omega-3 fatty acids in brain mechanisms that regulate water and salt balance. The ability of mammals to survive is heavily dependent upon their ability to maintain body fluid balance. This project aims to elucidate brain mechanisms for the behavioural regulation of water and salt balance, with specific investigation of the role of dietary fatty acids within these processes. It is hypothesised that omega-3 polyunsaturated fatty acids (PUFA) affect intake of water and salt by affecti ....The role of omega-3 fatty acids in brain mechanisms that regulate water and salt balance. The ability of mammals to survive is heavily dependent upon their ability to maintain body fluid balance. This project aims to elucidate brain mechanisms for the behavioural regulation of water and salt balance, with specific investigation of the role of dietary fatty acids within these processes. It is hypothesised that omega-3 polyunsaturated fatty acids (PUFA) affect intake of water and salt by affecting the sensitivity of various receptors, or the hormones used by this body system. Omega-3 PUFA are known to play a role in regulating genes, and therefore, may also affect the production of key proteins, such as receptors, hormones or enzymes involved in the regulation of salt and water intake.Read moreRead less
The cortical location of hunger and thirst: a multifunctional study in sheep. The escalating problems associated with obesity are immense. These effects contribute to a global epidemic that now eclipses both infectious diseases and (ironically) undernutrition in its proportions. The effects of disorders of thirst are less apparent but potentially devastating albeit on a smaller scale. The elderly and psychotic in the community have impaired thirst mechanisms which impacts on their life in a dra ....The cortical location of hunger and thirst: a multifunctional study in sheep. The escalating problems associated with obesity are immense. These effects contribute to a global epidemic that now eclipses both infectious diseases and (ironically) undernutrition in its proportions. The effects of disorders of thirst are less apparent but potentially devastating albeit on a smaller scale. The elderly and psychotic in the community have impaired thirst mechanisms which impacts on their life in a dramatic way particularly during prolonged hot weather. The aims of these experiments are to understand the basic brain mechanisms that underpin these drives. This understanding will have far reaching repercussions for the community both in terms of promoting good health and in preventative health care.
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Environmental impact on neuroendocrine and neurobiological mechanisms: treatment strategies and mimetics for maintaining good health. The current societal climate of industrialized countries such as Australia has shifted considerable over recent decades and is now one which is highly conducive to overfeeding and reduced physical activity. As a result, the incidence of obesity has risen markedly along with an associated increase in obesity-related chronic diseases such as cardiovascular disease, ....Environmental impact on neuroendocrine and neurobiological mechanisms: treatment strategies and mimetics for maintaining good health. The current societal climate of industrialized countries such as Australia has shifted considerable over recent decades and is now one which is highly conducive to overfeeding and reduced physical activity. As a result, the incidence of obesity has risen markedly along with an associated increase in obesity-related chronic diseases such as cardiovascular disease, stroke, obstructive pulmonary disease, type II diabetes, and many types of cancers. Less is known about the psychological and behavioural sequelae of this overfeeding. Calorie restriction mimetics may not only act as a preventative intervention to help reduce the incidence and severity of these major health problems, but also impact on social behaviour.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347278
Funder
Australian Research Council
Funding Amount
$383,000.00
Summary
Brain Slice Macroscopic Imaging and Electrophysiology Recording System. Electrical signals are the primary mode of communication between excitable cells, in particular, the cells (neurons) that comprise the brain and central nervous system. Understanding of the processes of cell-to-cell communication between neurons is of primary importance to our understanding of fundamental phenomena such as voluntary and reflex movement, sensory responses and learning and memory, as well as providing fundamen ....Brain Slice Macroscopic Imaging and Electrophysiology Recording System. Electrical signals are the primary mode of communication between excitable cells, in particular, the cells (neurons) that comprise the brain and central nervous system. Understanding of the processes of cell-to-cell communication between neurons is of primary importance to our understanding of fundamental phenomena such as voluntary and reflex movement, sensory responses and learning and memory, as well as providing fundamental knowledge of numerous disease states. We are applying for equipment to monitor electrical signals (both visually and electrically) of small groups of cells (neurons) or large groups of interconnected cells (macroscopic complexes) within the brain. Facilities of this type for the visual and electrical recording of cell communication and brain activity will be unique to these Universities in Australia and extremely rare in the scientific world.Read moreRead less
Inhibitory control of retinal sensitivity. We will determine how the nerve cells that carry information from the eye to the brain are always able to provide signals despite very different environments; daylight, fog and night. Knowledge of how nerve cells achieve this rapid learning is important for any understanding of brain function; it is fundamental if we are to develop machines that see or that help restore vision in humans. The project will provide the world's first look at the synaptic ph ....Inhibitory control of retinal sensitivity. We will determine how the nerve cells that carry information from the eye to the brain are always able to provide signals despite very different environments; daylight, fog and night. Knowledge of how nerve cells achieve this rapid learning is important for any understanding of brain function; it is fundamental if we are to develop machines that see or that help restore vision in humans. The project will provide the world's first look at the synaptic physiology that underpins all visual perception, helping to bring Australia back to the forefront of research in this field. This new collaboration between two successful researchers will attract top quality students and researchers from Australia and abroad and be published in major journals.Read moreRead less
The Functional Significance of Motor Laterality. Just as humans are left- or right-handed, dogs are left-and right-pawed and, most importantly, left-pawed individuals tend towards innate fearfulness. Using dogs as a model, this project will explore lateralisation in general.
Guide dogs and police dogs are required to work only on one side of their handlers. This convention is likely to affect the work of individual dogs. This project will examine the extent to which pawedness predicts success ....The Functional Significance of Motor Laterality. Just as humans are left- or right-handed, dogs are left-and right-pawed and, most importantly, left-pawed individuals tend towards innate fearfulness. Using dogs as a model, this project will explore lateralisation in general.
Guide dogs and police dogs are required to work only on one side of their handlers. This convention is likely to affect the work of individual dogs. This project will examine the extent to which pawedness predicts success in working dog training. It has the potential to reduce wastage that comes from recruitment of unsuitable dogs and will also improve our understanding of family pets.
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Understanding the neuronal mechanisms underlying inherited epilepsies. Epilepsy is a serious disease that impacts severely on individuals and the community as a whole. Conservative estimates suggest a financial cost of more than $2 billion per annum. Drug treatment for this disease is often not adequate. Recent advances have allowed scientists to determine mutation in human genes that cause epilepsy. New models of epilepsy based on this knowledge will allow us to better understand what causes e ....Understanding the neuronal mechanisms underlying inherited epilepsies. Epilepsy is a serious disease that impacts severely on individuals and the community as a whole. Conservative estimates suggest a financial cost of more than $2 billion per annum. Drug treatment for this disease is often not adequate. Recent advances have allowed scientists to determine mutation in human genes that cause epilepsy. New models of epilepsy based on this knowledge will allow us to better understand what causes epilepsy enabling us to devise new and potent therapeutic strategies to treat the disease.Read moreRead less
Glucose facilitation of cognitive function: Effects of effort, age and glucose control. Age-related decline in mental capacity contributes to the economic (estimated at over 2 trillion AUD by 2050), social and human costs of an increasingly older Australian population. The studies in this program aim to understand the role of poor control of blood glucose in age-related cognitive deficits. The role of individual differences in biological (hormonal responses) and psychological (stress and appetit ....Glucose facilitation of cognitive function: Effects of effort, age and glucose control. Age-related decline in mental capacity contributes to the economic (estimated at over 2 trillion AUD by 2050), social and human costs of an increasingly older Australian population. The studies in this program aim to understand the role of poor control of blood glucose in age-related cognitive deficits. The role of individual differences in biological (hormonal responses) and psychological (stress and appetite) factors will also be assessed. A better understanding of the nature of age-related cognitive decline as it relates to biological processes such as blood glucose control will help to develop tangible strategies to combat age-related cognitive decline and dementia (which has been described as Type 3 diabetes).Read moreRead less
Investigating the mechanisms of flavonoid actions on glycine receptors. The research to be conducted in this project will use state-of-the-art electrophysiological and molecular biological approaches to carefully characterise the actions of certain flavonoid compounds on the glycine-receptor channel. These compounds have recently been reported to act as modulators of ligand-gated ion channels, proteins integral to brain function and disease. However, no-one has studied in any detail the mechan ....Investigating the mechanisms of flavonoid actions on glycine receptors. The research to be conducted in this project will use state-of-the-art electrophysiological and molecular biological approaches to carefully characterise the actions of certain flavonoid compounds on the glycine-receptor channel. These compounds have recently been reported to act as modulators of ligand-gated ion channels, proteins integral to brain function and disease. However, no-one has studied in any detail the mechanisms by which these compounds act. By discovering their site and mechanisms of action we will further our understanding of these important proteins and their modulation, maintain Australia's significant expertise in this field and provide leads for future development of drugs with potential therapeutic value.Read moreRead less
Calcium signalling in neurons of the central nervous system. Understanding of the processes of cell-to-cell communication between neurons that comprise the brain and central nervous system is of primary importance to our understanding of fundamental phenomena such as voluntary and reflex movement, sensory responses and learning and memory. We would like to obtain a better understanding of how calcium controls neuronal and synaptic function. These studies will combine high-speed fluorescence ima ....Calcium signalling in neurons of the central nervous system. Understanding of the processes of cell-to-cell communication between neurons that comprise the brain and central nervous system is of primary importance to our understanding of fundamental phenomena such as voluntary and reflex movement, sensory responses and learning and memory. We would like to obtain a better understanding of how calcium controls neuronal and synaptic function. These studies will combine high-speed fluorescence imaging, electrophysiological recording, gene transfer using Adeno- and Sindbis viruses, and genetically designed and targeted biosensors to describe key "descriptors" of the calcium signals generated as neurons of the central nervous system ?talk? to each other.Read moreRead less