New Projection Neurons Are Added To The Brain Throughout Life – Identifying Their Source And Function.
Funder
National Health and Medical Research Council
Funding Amount
$505,991.00
Summary
Scientists aim to use our body’s own stem cells to make new nerve cells for brain repair. There are two major types of nerve cell: long range and short range; and until now we did not know how to make new long range nerves. I recently discovered that a special type of brain stem cell, the OPC, makes new long range nerves throughout life. We are building on this discovery by trying to understand the signals that control this process in order to direct OPCs towards nerve regeneration.
Myelin Remodelling: A Novel Form Of Neural Plasticity
Funder
National Health and Medical Research Council
Funding Amount
$605,849.00
Summary
Myelin is the insulation of the central nervous system (CNS). We have demonstrated that CNS insulation is not fixed. It changes throughout life. This project aims to find out why this happens. In particular we will investigate the role of dynamic insulation in learning and memory, and examine the role of nervous system activity in promoting the addition of new insulation. This research will provide valuable insight into multiple sclerosis, Alzheimer's dementia and mental health disorders.
Mapping The Neural Circuits Involved In Appetite And Feeding Behaviour
Funder
National Health and Medical Research Council
Funding Amount
$404,892.00
Summary
My research project involves deconstructing the neural circuitry underlying feeding behaviour using innovative genetically-based methods. I aim to identify and characterise the major projections of the oxytocin-expressing neurons in the paraventricular hypothalamic nucleus, which have recently been identified as critical in the feeding neurocircuitry. This emerging field of research is predicted to transform our understanding and treatment of disorders such as obesity and anorexia nervosa.
Central Nervous System Dendritic Cells – Guilty Or Not Guilty?
Funder
National Health and Medical Research Council
Funding Amount
$481,594.00
Summary
The central nervous system although structurally and functionally unique, must be able to mount protective immunological responses. However, breakdown in local and central immunoregulatory processes can lead to clinically disabling inflammatory conditions such as uveitis and multiple sclerosis. This project will investigate the role of Dendritic cells in models of autoimmune diseases affecting the eye and brain. The data will greatly aid our ability to design new immunotherapies to treat these b ....The central nervous system although structurally and functionally unique, must be able to mount protective immunological responses. However, breakdown in local and central immunoregulatory processes can lead to clinically disabling inflammatory conditions such as uveitis and multiple sclerosis. This project will investigate the role of Dendritic cells in models of autoimmune diseases affecting the eye and brain. The data will greatly aid our ability to design new immunotherapies to treat these blinding and crippling diseases.Read moreRead less
Novel Pathomechanisms And Therapeutic Targets In Neurodegenerative Diseases
Funder
National Health and Medical Research Council
Funding Amount
$340,038.00
Summary
This fellowship will provide new insight into the molecular processes underlying onset and progression of common brain conditions, including Alzheimer’s disease, frontotemporal dementia and motor neuron disease. Furthermore, new therapeutic targets for these diseases will be developed and tested in model systems, to facilitate future translation into clinical application, and to overcome the lack of treatments.
Alzheimer’s disease is a progressive brain disease which is results in memory loss and brain cell death. All currently prescribed drugs treat the memory loss but are unable to stop the deterioration of brain cells. We have previously developed a class of drugs that reverse memory loss targeting – these drugs target a protein called IRAP. We recently found that these drugs also reduce the disease pathology. This research proposal aims to investigate the role of IRAP in the initiation or progressi ....Alzheimer’s disease is a progressive brain disease which is results in memory loss and brain cell death. All currently prescribed drugs treat the memory loss but are unable to stop the deterioration of brain cells. We have previously developed a class of drugs that reverse memory loss targeting – these drugs target a protein called IRAP. We recently found that these drugs also reduce the disease pathology. This research proposal aims to investigate the role of IRAP in the initiation or progression of Alzheimer’s disease pathology.Read moreRead less
Relaxin-3/RXFP3 Signalling And Regulation Of Affective Behaviour _ Studies In Normal/transgenic Mice
Funder
National Health and Medical Research Council
Funding Amount
$578,268.00
Summary
Mental illness is a significant social and economic burden worldwide and knowledge of the underlying causes and more effective therapies are required. Our research aims to use pre-clinical animal models to characterize a little studied brain neuronal network implicated in control of arousal and stress, which could lead to improved treatment of psychiatric disorders such as depression.
The majority of stroke results from focal brain infarction, followed by substantial secondary excitotoxic damage in the surrounding areas. Tau has been shown to contribute to excitotoxicity and neurodegeneration in mouse models of Alzheimer’s disease (AD). Preliminary data show that tau reduction also protects against excitotoxic damage after experimental stroke. We aim to dissect the molecular mechanisms of stroke using a tau-deficient mouse model.
Problems in learning, memory and other complex mental processes are common to many brain disorders. This project will study the impact of mutations on a family of genes reported in autism and schizophrenia, on complex cognitive behaviours using novel behavioural technologies. This will not only shed fundamental insights into the specific mental processes regulated by these genes and their role in disease, but importantly provide novel targets for the development of therapies.