Microglia As Primary Drivers Of Stress-induced Changes In Neuronal Connectivity
Funder
National Health and Medical Research Council
Funding Amount
$475,781.00
Summary
Persistent exposure to stressful events can produce serious and lasting disturbances in cognitive function. Our research group has recently identified that microglia may play a very significant role in these disturbances. The studies to be undertaken in this proposal will provide fundamental knowledge on how microglia contribute to neuronal plasticity, and how microglia via their effects on neurons regulate complex cognitive behaviour.
Microglial Paralysis In Post-stroke Neurodegeneration: Help Or Hindrance?
Funder
National Health and Medical Research Council
Funding Amount
$512,351.00
Summary
Dementia and cognitive decline may occur months or years after a stroke, associated with delayed loss of brain cells in different brain regions. We recently discovered that the cells responsible for protection and repair of brain, called microglia, become paralysed in these regions. We will use a live-imaging microscope to determine whether the microglial paralysis causes brain cell death. We will also determine if a commonly used stroke prevention drug can worsen the microglial paralysis.
Abnormalities in cells at the back of the eye called photoreceptors are associated with at least 50% of all cases of blindness in this country.This project will examine a novel mechanism of photoreceptor death. In particular, whether abnormalties in support cells at the back of the eye cause photoreceptors to lose contact with their nutrient source and die.
Neuron To Glia Signalling: Learning How Synaptic Signalling Can Promote CNS Remyelination
Funder
National Health and Medical Research Council
Funding Amount
$609,650.00
Summary
An immature cell type in the brain, known as the oligodendrocytes progenitor cell (OPC), receives direct electrical communication from neurons. This communication regulates the behavior of the OPC, affecting its ability to divide and generate new brain cells. This project will identify the signaling molecules that guide the OPC to for this specialized contact with the nerve cell. Understanding this communication has important implications for the treatment of Multiple Sclerosis.
The Role Of Gliosis In Advanced Retinal Degeneration
Funder
National Health and Medical Research Council
Funding Amount
$457,785.00
Summary
The development of treatments that restore vision assumes that the output neurons of the retina remain intact. Yet, there is now considerable evidence that the neurons that signal from the retina to the brain are altered in those that have degenerative diseases of the retina. Here, we will examine the cause of these cellular changes in an animal model and seek to prevent the loss of output neurons. This information is crucial for the development of treatments that seeks to restore vision.
Defective Cell Migration As A Mechanism Of Dysregulated Asthmatic Airway Repair
Funder
National Health and Medical Research Council
Funding Amount
$616,712.00
Summary
Injury of the airway epithelium (cells lining the airways) is normally repaired by a process involving the deposition of specific proteins by the airway epithelial cells, promoting them to attach and migrate to cover the injury. These cells appear to be abnormal in asthmatics, in that they fail to repair. By studying specimens from healthy, allergic and asthmatic children we will determine the factors that influence the ability of these cells to repond to an injury in a normal manner specificall ....Injury of the airway epithelium (cells lining the airways) is normally repaired by a process involving the deposition of specific proteins by the airway epithelial cells, promoting them to attach and migrate to cover the injury. These cells appear to be abnormal in asthmatics, in that they fail to repair. By studying specimens from healthy, allergic and asthmatic children we will determine the factors that influence the ability of these cells to repond to an injury in a normal manner specifically through their ability to migrate.Read moreRead less
Bridging The Gap Between Cartilage Biology And Osteoarthritis Risk Prediction
Funder
National Health and Medical Research Council
Funding Amount
$512,256.00
Summary
Osteoarthritis is a painful and debilitating cartilage disease affecting just under 1 in 10 Australians and costs the Australian economy roughly $12 billion per year. This project will develop computational models of cartilage with the ability to incorporate genetic and environmental risk factors into a predictive model of cartilage disease.
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.
Evaluation Of Tissue Engineered Decellularised Biphasic Constructs For Periodontal Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$578,031.00
Summary
This project aims to regenerate the tissues lost as a result of gum disease. This will be done using scaffolds that replicate the complex structure of periodontal tissues.The scaffolds will be loaded with cells and allowed to mature before the cellular component is removed. The resultant construct is then inserted back into periodontal defects where it will be repopulated by host cells. This approach has the potential to be developed into an off-the-shelf clinical treatment.