Development of novel reagents that specifically counteract EphA4 to enhance axonal regeneration. This project will examine the role of EphA4, an important guidance protein, in neural cell regeneration. The goal is to understand the signalling mechanisms that inhibit regeneration in the central nervous system and to develop novel biological agents to overcome these processes and promote functional recovery after nervous system injury or disease.
Sustaining neuronal communication through bulk endocytosis. Brain activities such as learning and memory rely on the ability of neurons to communicate. This research will improve our understanding of how synaptic vesicles recycle during periods of intense synaptic activity. This is a fundamental process relevant to neuronal communication, insulin release, hormone secretion, and allergic responses in health and disease and therefore has broad significance. This work will enhance Australia's exist ....Sustaining neuronal communication through bulk endocytosis. Brain activities such as learning and memory rely on the ability of neurons to communicate. This research will improve our understanding of how synaptic vesicles recycle during periods of intense synaptic activity. This is a fundamental process relevant to neuronal communication, insulin release, hormone secretion, and allergic responses in health and disease and therefore has broad significance. This work will enhance Australia's existing strength in cell biology and neuroscience and provide high quality training for an undergraduate student and post-doctoral scientist.Read moreRead less
Neural circuits that mediate fear conditioning and extinction. Understanding of how the brain processes, stores and retrieves information and produces behavioural outcomes is in its infancy. This project will use electrophysiology and molecular techniques to understand the circuits that mediate one form of emotional learning.
The implications of resistance training for the control of movement. Resistance training (or weight lifting) is an essential element of comprehensive rehabilitation programs in a wide range of clinical settings. However, because we know little about how the organization of the nervous system is affected by training with high loads, the consequences of resistance training for our ability to control functional movements are unclear. The ultimate goal of this research is to generate basic knowledge ....The implications of resistance training for the control of movement. Resistance training (or weight lifting) is an essential element of comprehensive rehabilitation programs in a wide range of clinical settings. However, because we know little about how the organization of the nervous system is affected by training with high loads, the consequences of resistance training for our ability to control functional movements are unclear. The ultimate goal of this research is to generate basic knowledge about the impact of resistance training on nervous system function. The research will lead to the design of injury prevention and rehabilitation programs that are maximally effective, and provide a genuine benefit to the community.Read moreRead less
Novel Applied Bayesian Statistics for Monitoring Neuromuscular Diseases. Neurological diseases such as motor neurone disease are caused by the progressive death of motor units serving a muscle. Currently there are no ways of quantifying and detecting change in the number of motor units serving a muscle which are non-invasive. Our research will provide an objective method for the progression of neuromuscular diseases to be monitored with minimal inconvenience to patients. This will allow clinic ....Novel Applied Bayesian Statistics for Monitoring Neuromuscular Diseases. Neurological diseases such as motor neurone disease are caused by the progressive death of motor units serving a muscle. Currently there are no ways of quantifying and detecting change in the number of motor units serving a muscle which are non-invasive. Our research will provide an objective method for the progression of neuromuscular diseases to be monitored with minimal inconvenience to patients. This will allow clinical trials for possible effective treatments of neurological diseases such as motor neurone disease to be conducted with an objective measurement of disease progression. Read moreRead less
Molecular control of adult neural stem cell quiescence. The objective of this project is to improve our understanding of adult neural stem cell biology and function. Within the central nervous system of the brain, neural stem cells persist throughout adult life. These cells continually produce new neurons that are pivotal for processes including learning and memory, and deficits in adult neurogenesis have been linked to age-related cognitive decline. Adult neural stem cells are predominantly qui ....Molecular control of adult neural stem cell quiescence. The objective of this project is to improve our understanding of adult neural stem cell biology and function. Within the central nervous system of the brain, neural stem cells persist throughout adult life. These cells continually produce new neurons that are pivotal for processes including learning and memory, and deficits in adult neurogenesis have been linked to age-related cognitive decline. Adult neural stem cells are predominantly quiescent, dividing rarely to ensure that they are not prematurely exhausted. However, the factors that maintain this quiescence are very poorly defined. The project aims to understand how stem cell quiescence is controlled at both a molecular and cellular level in vivo within the adult mouse brain.Read moreRead less
Transcriptional regulation of brain size during development. This project aims to understand the fundamental mechanisms through which intermediate progenitor cell (IPC) formation is regulated within the cerebral cortex. The cerebral cortex plays a key role in functions central to our existence, including emotion, behaviour, learning and memory. During development, cortical neural stem cells produce neurons via IPCs. This project expects to discover the genetic programs regulating neuronal produc ....Transcriptional regulation of brain size during development. This project aims to understand the fundamental mechanisms through which intermediate progenitor cell (IPC) formation is regulated within the cerebral cortex. The cerebral cortex plays a key role in functions central to our existence, including emotion, behaviour, learning and memory. During development, cortical neural stem cells produce neurons via IPCs. This project expects to discover the genetic programs regulating neuronal production, providing significant conceptual advances in this key field. This will provide significant benefits, such as enhancing our understanding of how overall brain size is regulated during development.Read moreRead less
Understanding the mechanisms of GABA type-A receptor activation and drug modulation. There is currently little understanding of how sedative and anxiolytic drugs, including valium, interact with their receptors in the brain. This project will dramatically increase our understanding of how these receptors work and how drugs affect their activity. This will provide new insights into drug discovery and design.
Early formation of the preplate establishes the cerebral cortex. The cerebral cortex is arguably the most complex area of the brain due to its ability to process and integrate a wide variety of information in a seamless manner. To understand how this occurs, it is essential to understand how the cerebral cortex is built during embryonic life. The focus of this project is on the formation of the very earliest neurons of the cortex, called preplate neurons. This project aims to: test a new model f ....Early formation of the preplate establishes the cerebral cortex. The cerebral cortex is arguably the most complex area of the brain due to its ability to process and integrate a wide variety of information in a seamless manner. To understand how this occurs, it is essential to understand how the cerebral cortex is built during embryonic life. The focus of this project is on the formation of the very earliest neurons of the cortex, called preplate neurons. This project aims to: test a new model for preplate development with regards to their origin; their function in formation of the cerebral cortex; and the the molecular mechanisms underlying their development. This work provides a developmental framework for understanding how the cerebral cortex is established.Read moreRead less
Characterisation of monoaminergic transmission in Central Amygdala. This project will identify the distribution and function of dopamine, serotonin and noradrenalin receptors on the various cell types and their inputs, in the medial, lateral and capsular divisions of Central Amygdala (CeA). We will test for tonic endogenous activation of monoaminergic receptors and synaptic release from electrically stimulated fibers terminating in CeA. Using paired recordings and calcium imaging, we will invest ....Characterisation of monoaminergic transmission in Central Amygdala. This project will identify the distribution and function of dopamine, serotonin and noradrenalin receptors on the various cell types and their inputs, in the medial, lateral and capsular divisions of Central Amygdala (CeA). We will test for tonic endogenous activation of monoaminergic receptors and synaptic release from electrically stimulated fibers terminating in CeA. Using paired recordings and calcium imaging, we will investigate intracellular mechanisms underlying monoamine receptor mediated effects. These findings when correlated with published behavioural studies will provide greater understanding of the role of the divisions of CeA and the inputs they receive, in the function of the amygdala.Read moreRead less