Functional characterisation of neurons derived from embryonic stem cells and NS cells. The ability to obtain specific neurons from NS cells will revolutionise the study of nerve function, will allow the establishment of much-improved models for discovery of new drugs, and will define how enriched populations of neural cells can be obtained for applications in treatment of neurodegenerative diseases. The project will provide vital data for the emerging biotechnology industry associated will appl ....Functional characterisation of neurons derived from embryonic stem cells and NS cells. The ability to obtain specific neurons from NS cells will revolutionise the study of nerve function, will allow the establishment of much-improved models for discovery of new drugs, and will define how enriched populations of neural cells can be obtained for applications in treatment of neurodegenerative diseases. The project will provide vital data for the emerging biotechnology industry associated will applications of stem cell biology, and will stimulate clinical researchers to investigate the therapeutic potential of cell derived from NS cells.Read moreRead less
Regulation of Stress Hormone Receptors in the Brain. Our research will provide information on how the brain controls our response to stress and will allow the development of targeted strategies to reduce the possibility during chronic stress of the development of conditions such as anxiety and depression. This will improve mental health outcomes in Australia and add to Australia's economic and social stability.
A New Function For An Old Enzyme: Src Protein Kinase Directs Excitotoxic Neuronal Death In Stroke
Funder
National Health and Medical Research Council
Funding Amount
$513,975.00
Summary
In our previous investigation of how brain cells die in patients suffering from stroke, we found that stroke causes aberrant activation of an enzyme called Src in the affected brain cells. Furthermore, this aberrantly activated Src directs the brain cells to undergo cell death. Our proposal, which aims to decipher this neurotoxic mechanism of the aberrantly activated Src will benefit development of new therapeutic strategies to reduce brain damage in stroke patients.
The role of copper in the early ubiquitination pathway. This project aims to explore the role of copper in ageing and protein turnover. The removal of damaged or excess proteins is achieved by ubiquitin-tagging in all kingdoms of life. It has recently been observed that one of the earliest steps of this process appears to be driven by copper. This project aims to elaborate the precise biochemical mechanisms by which copper regulates this important tagging and protein turnover system. It proposes ....The role of copper in the early ubiquitination pathway. This project aims to explore the role of copper in ageing and protein turnover. The removal of damaged or excess proteins is achieved by ubiquitin-tagging in all kingdoms of life. It has recently been observed that one of the earliest steps of this process appears to be driven by copper. This project aims to elaborate the precise biochemical mechanisms by which copper regulates this important tagging and protein turnover system. It proposes to characterise the structure and function of a newly identified copper-dependent form of cell enzyme which could be involved in amplifying ubiquitin-tagged protein breakdown. Copper is essential for life in all domains. Identifying copper as a major regulator in protein clearance is important in understanding this fundamental biological machinery.Read moreRead less
Novel modes of signalling of serotonin 5-HT2c receptors. This project focuses on a special family of receptor proteins that mediate the actions of the neurochemical, serotonin (5HT), in the human brain. These serotonin receptors are major targets for antidepressant and antipsychotic medications, and also play a role in anxiety, migraine and control of appetite. Despite the important role of serotonin receptors in health and disease, the mechanism of action of many drugs acting on these receptors ....Novel modes of signalling of serotonin 5-HT2c receptors. This project focuses on a special family of receptor proteins that mediate the actions of the neurochemical, serotonin (5HT), in the human brain. These serotonin receptors are major targets for antidepressant and antipsychotic medications, and also play a role in anxiety, migraine and control of appetite. Despite the important role of serotonin receptors in health and disease, the mechanism of action of many drugs acting on these receptors remains unknown. Our project will specifically investigate novel molecular mechanisms associated with serotonin receptor activity that may prove vital in understanding mechanisms of psychiatric illnesses, and how many psychiatric medicines actually work.Read moreRead less
Functional studies on a novel, brain-specific, Golgi ATP-binding protein in membrane trafficking. In cells specialised for communication such as neurones, protein transport constitutes a large part of total cellular activity. A primary pathway in protein transport is trafficking from the Golgi apparatus to the cell membrane; materials destined for the cell membrane and secretion are sorted, packed and transported from the Golgi apparatus. However, the mechanisms underlying these processes at the ....Functional studies on a novel, brain-specific, Golgi ATP-binding protein in membrane trafficking. In cells specialised for communication such as neurones, protein transport constitutes a large part of total cellular activity. A primary pathway in protein transport is trafficking from the Golgi apparatus to the cell membrane; materials destined for the cell membrane and secretion are sorted, packed and transported from the Golgi apparatus. However, the mechanisms underlying these processes at the Golgi remain largely unknown. We have recently cloned a novel ATP-binding protein specifically expressed at the Golgi apparatus in human brain, and hypothesise that this protein regulates Golgi protein trafficking by interacting with two other molecules, dynamin and calcium, during cell secretion.Read moreRead less
Characterisation of a novel neural-specific ATPase in cholesterol transport. Ageing is determined by both genetic and metabolic factors. To a large part, the detailed mechanisms of ageing remain to be unexplored. Genetically, the timing of cell ageing entails the loss of telomeres (tips of chromosomes). However, the buildup of metabolic wastes resets the timing prematurely. Metabolic products accumulate from excess production or a shortfall of removal activity, which occurs in the various parts ....Characterisation of a novel neural-specific ATPase in cholesterol transport. Ageing is determined by both genetic and metabolic factors. To a large part, the detailed mechanisms of ageing remain to be unexplored. Genetically, the timing of cell ageing entails the loss of telomeres (tips of chromosomes). However, the buildup of metabolic wastes resets the timing prematurely. Metabolic products accumulate from excess production or a shortfall of removal activity, which occurs in the various parts of ageing cells in tissues such as brain. Traffic jams of cholesterol transport in the secretory pathway induce early ageing of the nerve cells. We investigate a novel mechanism controlling cholesterol transport in nerve cell ageing.Read moreRead less
A toxic cycle of inflammation and iron in the ageing brain. This project investigates why our brain cells gradually die as we grow older. We believe that infections and inflammation in other parts of the body cause iron to accumulate in the brain and become toxic. Iron supplements and ageing may make this situation worse. The results of this study could lead to new treatments for memory loss and dementia.
Detecting stress-induced changes to subcellular copper pools in brain cells. Copper (Cu) plays essential roles in the functioning of brain cells, but the regulation and activity of this metal is poorly understood. This project aims to map sub-cellular Cu pools in brain cells, with particular emphasis on the effects of cellular stresses on these pools. These studies are expected to contribute important new methods for the study of Cu biology, and could provide valuable information about how Cu ho ....Detecting stress-induced changes to subcellular copper pools in brain cells. Copper (Cu) plays essential roles in the functioning of brain cells, but the regulation and activity of this metal is poorly understood. This project aims to map sub-cellular Cu pools in brain cells, with particular emphasis on the effects of cellular stresses on these pools. These studies are expected to contribute important new methods for the study of Cu biology, and could provide valuable information about how Cu homeostasis is maintained or perturbed under various stresses. In the future, this work is expected to form the basis of studies of brain Cu pools in neurodegenerative diseases.Read moreRead less
Single cell imaging of trace elements by laser ablation - inductively coupled plasma - mass spectrometry. The precise mechanism of how many diseases function on the cellular level is not well understood. Trace elements are important to normal cellular function and have the potential to cause significant damage if delicate levels are disturbed. This project will introduce a new, cost-effective alternative to the synchrotron for mapping of trace elements in single cells. This breakthrough science ....Single cell imaging of trace elements by laser ablation - inductively coupled plasma - mass spectrometry. The precise mechanism of how many diseases function on the cellular level is not well understood. Trace elements are important to normal cellular function and have the potential to cause significant damage if delicate levels are disturbed. This project will introduce a new, cost-effective alternative to the synchrotron for mapping of trace elements in single cells. This breakthrough science will transform a common analytical instrument into a powerful new tool for probing the cellular mechanisms of chronic illness. This frontier technology will help determine the role of trace metals in the development of neurodegenerative disease.Read moreRead less