Using Artificial Synapses To Investigate The Functional Pathology Underlying Epilepsy
Funder
National Health and Medical Research Council
Funding Amount
$515,256.00
Summary
Epilepsy is a common neurological disorder. Some forms arise from hereditary mutations to GABA-A receptors. To advance our understanding of epileptogenesis, it is necessary to understand how mutations affect GABA-AR function. We will use a novel ‘artificial synapse’ system to characterise these mutant receptors. This will define how epilepsy is caused and inform us how to best tailor drug treatments for different epilepsy conditions.
The Alpha5 GABA-A Receptor: Delineating An Emerging Therapeutic Target
Funder
National Health and Medical Research Council
Funding Amount
$481,178.00
Summary
GABA-A receptors mediate inhibitory synaptic transmission in the brain. Receptors containing ?5 subunits are therapeutic targets for many neurological disorders. We aim to characterise the functional properties of the main ?5-containing isoforms using high-resolution imaging and whole-cell recording. Our goal is to understand which ?5-containing isoform should be preferentially targeted (and how) when seeking to treat the various disorders in which these receptors have been implicated.
A Novel Mechanism For Therapeutically Modulating Neurotransmitter-activated Ion Channels
Funder
National Health and Medical Research Council
Funding Amount
$667,529.00
Summary
This project aims to elucidate the mechanisms by which macrocyclic lactones bind to brain ion channel receptors. This will reveal fundamental new insights into the operation of these receptors and will have important implications for the design of novel treatments for a variety of central nervous system disorders.
Genetic Cues Responsible For Interneuron Migration And Layering In The Neocortex
Funder
National Health and Medical Research Council
Funding Amount
$650,250.00
Summary
Understanding how the brain is assembled, and the genes that drive this process, will provide insights into two exciting areas of current neuroscience. First, it will clarify how we differ from other species, and illuminate the evolutionary concepts underscoring functional specialization. Secondly, there are sound health-related reasons to study brain development. Proper brain function requires the proper assembly of neurons and the establishment of circuitry. Defective generation of neurons in ....Understanding how the brain is assembled, and the genes that drive this process, will provide insights into two exciting areas of current neuroscience. First, it will clarify how we differ from other species, and illuminate the evolutionary concepts underscoring functional specialization. Secondly, there are sound health-related reasons to study brain development. Proper brain function requires the proper assembly of neurons and the establishment of circuitry. Defective generation of neurons in sufficient numbers, or impediments to neuron migration to proper destinations are certain recipes for neurological disorders, including epilepsy and mental retardation. In this application, we will study how neurons are assembled in the cortex. We will focus on a subpopulation known as interneurons that are vital for toning down electrical discharges from excitatory neurons. We will investigate how these neurons are able to migrate long distances to settle into defined layers of the cortex. Mutant mice with deleted genes have a defect in this process and the aim of this project will be to study the precise mode of action for some of these genes.Read moreRead less
Inhibitory Neurotransmitter Receptors As Therapeutic Targets For Chronic Pain And Anxiety Disorders
Funder
National Health and Medical Research Council
Funding Amount
$763,409.00
Summary
There are currently few effective long-term treatments for chronic pain and anxiety disorders. Here we propose to develop innovative therapies for both of these debilitating neurological disorders. In addition, we plan to improve our current understanding of how these disorders occur in the first place. This may identify novel potential therapeutic strategies for treating pain, anxiety and a host of other neurological disorders.