The Role Of Neuronal Hyperactivity And Neurotrophic Factor Signalling In Synaptogenesis, Dendrogenesis And Neuron Death In Motor Neuron Disease
Funder
National Health and Medical Research Council
Funding Amount
$700,331.00
Summary
Using mice with mutant genes causing amyotrophic lateral sclerosis, we will test whether motor neuron hyper-excitability during early development causes excessive synapse and dendrite formation, ultimately leading to neuronal death. We will also test whether activity-dependent secretion of neurotrophic factors and activation of their receptors plays a role in this disease. This will show whether neuronal hyper-activity and neurotrophic factor signaling plays a causal role in this disease.
The Role Of BDNF In Central Nervous System Myelination
Funder
National Health and Medical Research Council
Funding Amount
$478,235.00
Summary
Multiple Sclerosis (MS) is the most common neurological cause of disability in young adult Australians. The cause of MS is unknown and therapies are limited to reducing inflammation, which does not address the major problem of the disease: loss of myelin. This project directly investigates how myelin is formed and will identify key mechanisms in this process, which may eventually be developed into treatments for diseases such as MS.
Release And Action Of Anterogradely Transported BDNF From Sensory Nerve Terminals In The Spinal Cord
Funder
National Health and Medical Research Council
Funding Amount
$204,674.00
Summary
Neurotrophic factors are powerful agents found in very low amounts throughout the nervous system. Their role is to keep nerves alive, to assist in connecting nerves together and to help maintain the health of nerves. Usually this is achieved by each factor being bound at the end of the long nerve processes and transported back to the nucleus to regulate the metabolism of the nerve. We have discovered one factor, the protein Brain Derived Neurotrophic Factor or BDNF, in one nerve type which is tr ....Neurotrophic factors are powerful agents found in very low amounts throughout the nervous system. Their role is to keep nerves alive, to assist in connecting nerves together and to help maintain the health of nerves. Usually this is achieved by each factor being bound at the end of the long nerve processes and transported back to the nucleus to regulate the metabolism of the nerve. We have discovered one factor, the protein Brain Derived Neurotrophic Factor or BDNF, in one nerve type which is transported in the opposite direction. The project outlined plans to demonstrate the function of this unique transport by showing how BDNF can be released from nerves to act on neighboring cells.Read moreRead less
Development Of National Protocols For The Detection Of SARS Human Coronavirus
Funder
National Health and Medical Research Council
Funding Amount
$99,650.00
Summary
This work aims to develop and to establish the accuracy of laboratory tests for Severe Acute Respiratory Syndrome (SARS) suitable for use and for production in Australia. Accurate and timely laboratory testing will be important in detecting imported SARS cases, and preventing establishment of the disease in Australia. SARS is a severe, readily transmissible chest infection that first appeared in Southern China in November 2002. It has subsequently spread to 29 countries causing a total of 7747 c ....This work aims to develop and to establish the accuracy of laboratory tests for Severe Acute Respiratory Syndrome (SARS) suitable for use and for production in Australia. Accurate and timely laboratory testing will be important in detecting imported SARS cases, and preventing establishment of the disease in Australia. SARS is a severe, readily transmissible chest infection that first appeared in Southern China in November 2002. It has subsequently spread to 29 countries causing a total of 7747 cases and 552 deaths by mid May 2003. The greatest impact has been in China, with Canada the most severely affected country outside Asia. Approximately 15 percent of cases are fatal overall, with death rates increasing with age up to 50 percent over 65 years. There is, as yet, no specific cure or vaccine. The cause is a previously unknown coronavirus, a close relative of human common cold viruses. It spreads readily via contact with respiratory secretions, coughing and sneezing, and possibly in faeces. The virus is able to persist in the environment for days. An international network of WHO laboratories has made rapid progress in developing laboratory tests. Although this expertise will assist Australia in developing its own laboratory capability, Australia's laboratory test needs cannot be met from overseas. SARS laboratory tests and protocols will be developed in Australia over a 3-month period by a consortium of expert Australian laboratories. These include the Victorian Infectious Disease Reference Laboratory, the Institute of Clinical Pathology and Medical Research at Westmead Hospital, CSIRO's Australian Animal Health Laboratory, the Cooperative Research Centre for Diagnostics, and the Western Australian Centre for Pathology and Medical Research. Tests will include methods for detection of the SARS virus in specimens, and detection of antibodies to SARS in the blood. Production of some key reagents by genetic engineering techniques is intended to improve their availability. Robustness of test methods in a diagnostic laboratory setting will be evaluated, and a quality assurance program will be implemented. An expert advisory group will assist in the development of test performance and interpretation protocols.Read moreRead less