Chronic inflammation underlies common and debilitating diseases and causes pain by unknown mechanisms. There is an urgent need to gain a deeper understanding of the mechanisms of chronic pain, which will allow the development of improved therapies with fewer side-effects. Our research program investigates the mechanisms of pain that are associated with inflammatory bowel disease and irritable bowel syndrome, with the goal of developing more effective and selective therapies.
How Does Sudden Cardiac Death Occur In Familial Hypertrophic Cardiomyopathy?
Funder
National Health and Medical Research Council
Funding Amount
$1,312,606.00
Summary
Familial hypertrophic cardiomyopathy is a leading cause of sudden cardiac death but the mechanisms for the induction of arrhythmia are unknown. This proposal has the potential to impact sudden death in the young and enable significant expansion of Australia’s research capacity into the treatment of familial hypertrophic heart disease in humans.
Role Of Calcium-activated Potassium Channels In Neuronal Excitability, Synaptic Plasticity And Sensory Processing
Funder
National Health and Medical Research Council
Funding Amount
$612,272.00
Summary
Disturbances in brain function, as occur in diseases such as epilepsy and schizophrenia, are associated with abnormal electrical activity. This electrical activity leads to increases in calcium inside nerve cells. In this project we plan to investigate how changes in calcium inside nerve cells regulates electrical activity, and how this impacts on the capacity of the brain to process and learn new information.
Investigating CRAC Channel Assembly And Interactions Important In Immunity
Funder
National Health and Medical Research Council
Funding Amount
$398,247.00
Summary
#ERROR: -Transmission and amplification of signals between subcellular compartments underpins cell function. Calcium ions are cellular messengers that can cross Membranes using specialised pores. CRAC Calcium channels in particular are critical for immune system function,and partner Proteins switch them on and off in a feedback response to compartmental Calcium levels. the objective of my research is to investigate how opening and closing of the CRAC pore is triggered at a molecular level.
Impact Of Somatic Versus Dendritic Inhibition On Neuronal Output
Funder
National Health and Medical Research Council
Funding Amount
$1,047,686.00
Summary
The brain is made up of literally billions of neurons connected in complex networks. These neurons come in two primary flavors - excitatory and inhibitory - which work in balance. Too much excitation and the brain becomes epileptic, too much inhibitory and we go into a coma. This proposal focuses on the role of specific inhibitory cell types in regulating brain function, and has relevant to a range of neurological disorders from epilepsy, to schizophrenia to depression.
A DENDRITIC SUBSTRATE FOR THE CHOLINERGIC CONTROL OF NEOCORTICAL OUTPUT
Funder
National Health and Medical Research Council
Funding Amount
$898,340.00
Summary
The forebrain cholinergic system controls neocortical activity and cognitive function. This project will investigate the mechanisms by which the cholinergic system controls neocortical circuit activity in rodent models using advanced optical and electrical recording methods. The results will provide a foundation for the understanding of how dysfunction of the cholinergic system results in cognitive decline in humans, and identify new targets for improved treatment of human cognitive impairment.
Role Of Dendritic Information Processing In Visual Circuit Computations
Funder
National Health and Medical Research Council
Funding Amount
$895,244.00
Summary
Vision is the primary sensory modality in man, and its disturbance carries an enormous socio-economic burden. The dynamic operations of the neuronal assemblies that underlie vision are poorly understood, partly because of an incomplete description of the computational properties of visual neuronal circuits. The aims of the application are to mechanistically dissect defined computational operations of visual neural circuits using advanced electrophysiological and optical recording techniques.
The Effects Of Human Epilepsy Mutations On Synaptic GABA-A Receptors Studied By Localization-based Superresolution Microscopy
Funder
National Health and Medical Research Council
Funding Amount
$524,215.00
Summary
The genetic epilepsies are debilitating neurological disorders that are frequently associated with mutations in genes encoding neurotransmitter-gated receptors in the brain. The goal of this project is to understand mechanisms that cause changes in neuronal communication and lead to epilepsy on a single receptor level. This will lead to an improved understanding of the mechanisms of epileptogenesis and new insights into ways of treating different epilepsies.
The Role Of Force-sensing Ion Channels In Melanoma Migration
Funder
National Health and Medical Research Council
Funding Amount
$553,848.00
Summary
Metastasis of melanoma cells away from the primary tumour site carries a very poor patient prognosis.This research aims to characterise a novel signalling pathway that can regulate the migration (movement) of melanoma cells. This signalling pathway depends on force-sensing platforms that can rapidly convert physical inputs from the environment into an electrical signal within the cell. We are working to understand how these force-sensors function.
The cells that produce and maintain our cartilage, known as chondrocytes, do so by sensing changes in the mechanical environment, but precisely how chondrocytes detect these changes is not known. We are investigating the role of ion channels that are opened in direct response to mechanical movements within the cartilage.This project plans to identify the specific molecules that are participating in this process and to determine if they are therapeutic targets for treatment of osteoarthritis