The Role Of A Presenilin 2 Truncation (PS2V) In Alzheimer's Disease
Funder
National Health and Medical Research Council
Funding Amount
$552,741.00
Summary
The Presenilin and APP proteins are centrally important in inherited, early onset Alzheimer's disease. We have discovered that a shortened form of Presenilin protein, "PS2V", appears to increase specifically the rate at which the APP protein is cleaved to produce the "Amyloid beta" protein fragment that is found in Alzheimer's disease brains. This occurs when brain cells are under oxidative stress. Understanding this process will facilitate development of appropriate therapeutic strategies for t ....The Presenilin and APP proteins are centrally important in inherited, early onset Alzheimer's disease. We have discovered that a shortened form of Presenilin protein, "PS2V", appears to increase specifically the rate at which the APP protein is cleaved to produce the "Amyloid beta" protein fragment that is found in Alzheimer's disease brains. This occurs when brain cells are under oxidative stress. Understanding this process will facilitate development of appropriate therapeutic strategies for the disease.Read moreRead less
Elucidating The Neuroprotective Region Of The Amyloid Precursor Protein (APP) Following Traumatic Brain Injury
Funder
National Health and Medical Research Council
Funding Amount
$467,556.00
Summary
Traumatic brain injury (TBI) is a leading cause of death and disability worldwide and to date there is no therapy to ameliorate this injury. There is increased production of the amyloid precursor protein (APP) following TBI and recent studies have found that APP possesses neuroprotective traits. It is the aim of the current studies to delineate the specific active neuroprotective region of APP and develop them as novel therapeutic interventions for use in TBI.
Understanding The Contribution Of Iron In Traumatic Brain Injury
Funder
National Health and Medical Research Council
Funding Amount
$601,263.00
Summary
Our group has discovered a novel role of amyloid precursor protein (APP) in cellular iron balance similar to another protein called ceruloplasmin (CP). Both, prevalently found in the brain, convert a damaging iron variety into the safer form. Disruption in either protein leads to cell death. We aim to establish how failure in APP and CP response may be detrimental to traumatic brain injury recovery. Understanding the iron role of APP and CP will lead to therapeutics to counter traumatic injury.
Delineating The Mechanism Of Amyloid Beta Toxicity
Funder
National Health and Medical Research Council
Funding Amount
$565,242.00
Summary
Alzheimer’s disease and beta amyloid toxicity: Alzheimer’s disease (AD) is the most common form of dementia and is characterized by progressive memory loss, confusion, and cognitive deficits. In 2011, an estimated 269,000 Australians are currently living with dementia and without a significant medical breakthrough soon, it is anticipated that this will rise to about 981,000 by 2050
I am a neuroscientist investigating the functional roles of neurotrophic factors in nervous diseases such as Alzheimer’s disease and spinal cord injury. I am also interested in the mechanisms of how these factors are involved in neural development.
LIM-homeodomain interactions in neuronal development. The loss of central nervous system function, through accident or disease, is devastating for affected individuals and their families. Our current inability to stimulate the regeneration of nervous tissue is a result of the lack of detailed knowledge of the complex processes that must take place, at the molecular and cellular levels, during neuronal development. We are determining how a group of cellular proteins that have key roles in motor n ....LIM-homeodomain interactions in neuronal development. The loss of central nervous system function, through accident or disease, is devastating for affected individuals and their families. Our current inability to stimulate the regeneration of nervous tissue is a result of the lack of detailed knowledge of the complex processes that must take place, at the molecular and cellular levels, during neuronal development. We are determining how a group of cellular proteins that have key roles in motor neuron development interact with each other and with DNA. With this information we are developing reagents that can be used to further probe central nervous system function and may ultimately be used to regenerate damaged nerves.Read moreRead less
Role Of Chemokines And Interferons In Neural Progenitor Cell Function
Funder
National Health and Medical Research Council
Funding Amount
$521,178.00
Summary
Regeneration of the central nervous system following disease or injury is extremely limited and frequently results in substantial impairment. A potential therapy to replace damaged or killed nervous system cells is the use of neural stem cells. Neural stem cells are present in the central nervous system and frequently attempt, but fail to repair nervous system damage. This project aims to examine factors that regulate neural stem cell function including factors that may regulate their ability to ....Regeneration of the central nervous system following disease or injury is extremely limited and frequently results in substantial impairment. A potential therapy to replace damaged or killed nervous system cells is the use of neural stem cells. Neural stem cells are present in the central nervous system and frequently attempt, but fail to repair nervous system damage. This project aims to examine factors that regulate neural stem cell function including factors that may regulate their ability to migrate or become appropriate neural cell types. Of particular interest are factors known as chemokines that regulate cell migration as well as have a variety of other effects. In addition, interferons, which are inflammatory molecules present in the damaged nervous system and that we have shown affect neural stem cell function, may interact with chemokines and will also be examined. In addition to examining the effects of these factors on neural stem cells, the signalling pathways they use in these cells will also be determined.Read moreRead less
Understanding how the multiple roles of olfactory ensheathing cells guide the growth and regeneration of olfactory axons. The outcomes of this project will increase the understanding of how nerve cells develop and regenerate after injury. The research outcomes and the development of new innovative methodologies as part of the project will be of high significance for the neuroscience research community both within Australia and overseas. The findings will also pave the way for the development of ....Understanding how the multiple roles of olfactory ensheathing cells guide the growth and regeneration of olfactory axons. The outcomes of this project will increase the understanding of how nerve cells develop and regenerate after injury. The research outcomes and the development of new innovative methodologies as part of the project will be of high significance for the neuroscience research community both within Australia and overseas. The findings will also pave the way for the development of novel therapies that promote neuronal regeneration relevant for disorders such as spinal cord injury and Alzheimer's disease, which constitute a large socio-economic burden in Australia. Currently, 400 people contract spinal cord injury every year, corresponding to an annual cost of $1 billion, and more than 500 000 aging people suffer from Alzheimer's disease.Read moreRead less
Cracking the LIM-code: Transcription factor networks in developmental biology. Our current inability to stimulate the regeneration of nervous tissue is frustrated by a lack of detailed knowledge of the complex processes that take place at the molecular and cellular levels during development. We are determining how a group of cellular proteins that have key roles in neural development interact with each other and with DNA. With this information we are developing reagents that can be used to probe ....Cracking the LIM-code: Transcription factor networks in developmental biology. Our current inability to stimulate the regeneration of nervous tissue is frustrated by a lack of detailed knowledge of the complex processes that take place at the molecular and cellular levels during development. We are determining how a group of cellular proteins that have key roles in neural development interact with each other and with DNA. With this information we are developing reagents that can be used to probe the fundamental process of cell differentiation in the central nervous system.Read moreRead less
Assessing The Role Of The N-terminus Of The Prion Protein, Emphasising Constitutive Cleavage, In Normal Function And Pathogenesis, As Well As Defining The Relationship Between Intensity Of Surveillance And Sporadic CJD Incidence.
Funder
National Health and Medical Research Council
Funding Amount
$387,469.00
Summary
As a neurologist undertaking research into prion diseases over an extended period, I have been able to lead and participate in many projects that have made significant contributions, such as validation of new diagnostic tests for Creutzfeldt-Jakob disease (CJD), assessment of potential therapeutics, provide insights into the normal function of the prion protein and the underlying pathways causing cellular damage and determine the real significance of apparent clusters of sporadic CJD.