Is FGF21 the master regulator of protein intake? The project plans to bring together two major, rapidly growing disciplines – nutritional geometry and metabolic signalling – to address a topic of fundamental biological significance: the regulation of protein intake. A specific capacity to regulate protein intake has been shown for organisms spanning slime moulds to humans, yet the controlling mechanisms remain elusive. The project aims to test the hypothesis that fibroblast growth factor 21, rel ....Is FGF21 the master regulator of protein intake? The project plans to bring together two major, rapidly growing disciplines – nutritional geometry and metabolic signalling – to address a topic of fundamental biological significance: the regulation of protein intake. A specific capacity to regulate protein intake has been shown for organisms spanning slime moulds to humans, yet the controlling mechanisms remain elusive. The project aims to test the hypothesis that fibroblast growth factor 21, released from the liver under low protein nutrition, is a master regulator of protein intake. Understanding the mechanisms of protein appetite may have implications for organismal biology, understanding social interactions, the structure of food webs and the health and welfare of food and companion animals and humans.Read moreRead less
Adaptation of respiratory chemoreception: role of inhibitory neuropeptides. The project aims to investigate how the retrotrapezoid nucleus (RTN) is involved in respiratory adaptation to hypercapnia. Chemoreceptor neurons in the RTN are crucial for life however, the mechanisms that underlie their basal and stimulated activity, to control breathing, remain to be clarified. This project will investigate the role of galanin in RTN-mediated regulation of breathing. The project looks to determine inst ....Adaptation of respiratory chemoreception: role of inhibitory neuropeptides. The project aims to investigate how the retrotrapezoid nucleus (RTN) is involved in respiratory adaptation to hypercapnia. Chemoreceptor neurons in the RTN are crucial for life however, the mechanisms that underlie their basal and stimulated activity, to control breathing, remain to be clarified. This project will investigate the role of galanin in RTN-mediated regulation of breathing. The project looks to determine instructive and multifunctional roles of peptidergic chemosensory neurons and their contribution to local inhibitory control of the respiratory network. New knowledge from the project may in the future assist translational research into respiratory disorders and lead to technological advances.Read moreRead less
Does muscle contribute to the maintenance of vitamin D status in winter? This project aims to test the mechanism by which vitamin D status is maintained in winter when input is low. The long half-life in blood of the vitamin D metabolite, 25-hydroxyvitamin D [25(OH)D], maintains an adequate vitamin D status over winter, when sunlight, which produces vitamin D in skin, is reduced. From preliminary data in sheep and mice, this project proposes that skeletal muscle, not fat, stores vitamin D. This ....Does muscle contribute to the maintenance of vitamin D status in winter? This project aims to test the mechanism by which vitamin D status is maintained in winter when input is low. The long half-life in blood of the vitamin D metabolite, 25-hydroxyvitamin D [25(OH)D], maintains an adequate vitamin D status over winter, when sunlight, which produces vitamin D in skin, is reduced. From preliminary data in sheep and mice, this project proposes that skeletal muscle, not fat, stores vitamin D. This project will test this hypothesis in sheep, cultured muscle cells and in transgenic mice. The project will confirm whether the processes identified in skeletal muscle contribute to the maintenance of vitamin D status, and identify ways of enhancing this process.Read moreRead less
Neurons and neurotransmitters that control the apnoeic response to irritation of the larynx. Normal function of the larynx enables breathing, cough, singing, speech and many other normal functions. This project will reveal how nerves in the brain coordinate to achieve these many functions; in particular the way that breathing stops if fluid or smoke enters the larynx.
Discovery Early Career Researcher Award - Grant ID: DE130101357
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Modulation of gap-junction coupling in the mammalian retina. This project aims to examine the alteration in neuronal circuits of the retina over the course of the day and in response to changes in light. Basic knowledge of how the retina functions will be determined, providing invaluable information for strategies aimed at restoring vision to vision-impaired patients by replicating normal retinal function.
Bias and allostery at the calcium sensing receptor. This project aims to provide a mechanistic and dynamic picture of the structure, function and physiology of the human calcium sensing receptor (CaSR), which is critical for vertebrate life. By responding to chemicals in the body, it acts as a universal nutrient sensor to maintain extracellular calcium homeostasis and mediate biological functions, including neurotransmission, inflammation, digestion, blood pressure and development. However, it i ....Bias and allostery at the calcium sensing receptor. This project aims to provide a mechanistic and dynamic picture of the structure, function and physiology of the human calcium sensing receptor (CaSR), which is critical for vertebrate life. By responding to chemicals in the body, it acts as a universal nutrient sensor to maintain extracellular calcium homeostasis and mediate biological functions, including neurotransmission, inflammation, digestion, blood pressure and development. However, it is not known how this single receptor controls the actions of multiple ligands to mediate numerous functions. By elucidating the roles of the CaSR and its ligands, this project aims to better understand fundamental physiological processes.Read moreRead less
A life-course approach to the nutrition-lifespan-reproduction nexus. This project aims to address the “cost of reproduction”, where lifespan and fecundity are negatively correlated. Bringing together nutritional geometry and evolutionary theory, to the project will produce an over-arching theory of why animals have finite lifespans and limited reproductive capacity. Benefits include developing research strategies for managing the nexus between diet, reproduction and lifespan in animals and human ....A life-course approach to the nutrition-lifespan-reproduction nexus. This project aims to address the “cost of reproduction”, where lifespan and fecundity are negatively correlated. Bringing together nutritional geometry and evolutionary theory, to the project will produce an over-arching theory of why animals have finite lifespans and limited reproductive capacity. Benefits include developing research strategies for managing the nexus between diet, reproduction and lifespan in animals and humans, placing Australia at the forefront of a paradigm shift in understanding the relationship between diet, reproduction and lifespan.Read moreRead less
THE MATERNAL GUT MICROBIOTA DRIVES FOETAL THYMIC T CELL DEVELOPMENT . This project aims to investigate the role of maternal gut microbiota on foetal immune development, revealing the interaction of gut microbiota-host immunity at the early stages of new life. Significantly, the research will examine the time window when microbiota by-products from the mother reach the foetus and affect the development of immunity. Maternal by-products will be identified using cutting-edge methods to unravel the ....THE MATERNAL GUT MICROBIOTA DRIVES FOETAL THYMIC T CELL DEVELOPMENT . This project aims to investigate the role of maternal gut microbiota on foetal immune development, revealing the interaction of gut microbiota-host immunity at the early stages of new life. Significantly, the research will examine the time window when microbiota by-products from the mother reach the foetus and affect the development of immunity. Maternal by-products will be identified using cutting-edge methods to unravel the complex systems interactions in the developmental process. Outcomes include new fundamental knowledge about maternal gut microbiota composition and its relationship to the growing foetus, with benefits in informing pregnant women about their lifestyle choices, particularly their dietary habits, during pregnancy.
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Cardiac a1-adrenergic receptors in survival of the fittest. This project aims to determine the role of alpha1A-adrenergic receptor inactivation, a receptor/signalling pathway, in mediating cardiac contraction and survival in response to stressors fight-or-flight response triggers.Higher organisms’ ability to respond to environmental changes is central to the survival of the fittest, and is mediated by the release of catecholamines that stimulate adrenergic receptors. The precise receptor and sig ....Cardiac a1-adrenergic receptors in survival of the fittest. This project aims to determine the role of alpha1A-adrenergic receptor inactivation, a receptor/signalling pathway, in mediating cardiac contraction and survival in response to stressors fight-or-flight response triggers.Higher organisms’ ability to respond to environmental changes is central to the survival of the fittest, and is mediated by the release of catecholamines that stimulate adrenergic receptors. The precise receptor and signalling pathways underlying these adaptive responses remain unclear. This project’s research could improve contractility, reduce cardiomyocyte death and define organismal adaptation to extreme environmental changes.Read moreRead less
Nutritional and bacterial influences on gut and peripheral homeostasis. Nutritional and bacterial influences on gut and peripheral homeostasis. This project aims to understand the role of macronutrients on gut homeostasis. While the understanding of what factors affect gut homeostasis is still in its infancy, scientists know that its disruption contributes to a broad range of inflammatory diseases, including type 1 diabetes and asthma. This project will determine the role of specific macronutrie ....Nutritional and bacterial influences on gut and peripheral homeostasis. Nutritional and bacterial influences on gut and peripheral homeostasis. This project aims to understand the role of macronutrients on gut homeostasis. While the understanding of what factors affect gut homeostasis is still in its infancy, scientists know that its disruption contributes to a broad range of inflammatory diseases, including type 1 diabetes and asthma. This project will determine the role of specific macronutrients on gut microbiota, gut epithelium, and immunity in mice, and the receptors involved. This research could ultimately lead to significant decreases in the cost of healthcare.Read moreRead less