Complement Activation As A Therapeutic Target And Clinical Biomarker For Parkinson's Disease
Funder
National Health and Medical Research Council
Funding Amount
$497,941.00
Summary
Parkinson’s disease is the second most common neurological disease in Australia, yet there is no treatment to slow disease progression. Our study is investigating inflammation within the brain as a major contributing factor in Parkinson’s disease. We will examine this inflammatory pathway in human patients suffering from Parkinson’s, and will test a novel anti-inflammatory drug in animal models of Parkinson’s disease, in order to identify a novel treatment to reduce disease pathology.
The Role Of Presynaptic Inhibition In Neuropathic Pain
Funder
National Health and Medical Research Council
Funding Amount
$466,045.00
Summary
Inhibitory nerve cells in the spinal cord are thought to play an important role in governing the interaction between painful and non-painful stimuli. Defects in this process underlie allodynia, an important symptom of neuropathic pain. We will use recent advances in genetic techniques (optogenetics) to manipulate and study how inhibitory nerve cells separate touch and pain signalling in the spinal cord of normal and neuropathic animals.
Preclinical Development Of Complement C5aR Antagonists For The Treatment Of Motor Neuron Disease
Funder
National Health and Medical Research Council
Funding Amount
$593,326.00
Summary
There is no cure for Motor Neuron Disease (MND) resulting in 2 Australian’s dying each day. Modification of the inflammation is one potential means of slowing MND. Our research team has identified a new series of potent anti-inflammatory compounds that may have potential to treat this disease. Our project will test these compounds in animal models of MND, and validate their usefulness in human MND samples. Ultimately, this work may contribute to the discovery of a new treatment for MND.
Therapeutic Targeting Of Neuroinflammation To Slow The Progression Of Neurodegenerative Disease
Funder
National Health and Medical Research Council
Funding Amount
$463,652.00
Summary
My research has identified key components of our immune system, that can worsen disease in conditions such as Parkinson’s disease and motor neuron disease. I hope that exploring these components in animal models, and patients suffering from these diseases, my group can identify new therapeutic drug candidates that can be progressed in clinical trials. Ultimately, this may lead to new treatments to reduce disease burden in patients suffering from these neurodegenerative conditions.
The implications of resistance training for the control of movement. Resistance training (or weight lifting) is an essential element of comprehensive rehabilitation programs in a wide range of clinical settings. However, because we know little about how the organization of the nervous system is affected by training with high loads, the consequences of resistance training for our ability to control functional movements are unclear. The ultimate goal of this research is to generate basic knowledge ....The implications of resistance training for the control of movement. Resistance training (or weight lifting) is an essential element of comprehensive rehabilitation programs in a wide range of clinical settings. However, because we know little about how the organization of the nervous system is affected by training with high loads, the consequences of resistance training for our ability to control functional movements are unclear. The ultimate goal of this research is to generate basic knowledge about the impact of resistance training on nervous system function. The research will lead to the design of injury prevention and rehabilitation programs that are maximally effective, and provide a genuine benefit to the community.Read moreRead less
Does IRAP Contribute To Alzheimer's Disease Pathology?
Funder
National Health and Medical Research Council
Funding Amount
$743,042.00
Summary
Alzheimer’s disease is a progressive brain disease which is results in memory loss and cell death. All currently prescribed drugs treat the memory loss but are unable to stop the deterioration of brain cells. We have developed a class of drugs that reverse memory loss. These drugs target a protein called insulin-regulated aminopeptidase, 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 pro ....Alzheimer’s disease is a progressive brain disease which is results in memory loss and cell death. All currently prescribed drugs treat the memory loss but are unable to stop the deterioration of brain cells. We have developed a class of drugs that reverse memory loss. These drugs target a protein called insulin-regulated aminopeptidase, 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
Standardisation Of Prepulse Inhibition Of The Startle Reflex For Pharmacological And Interspecies Comparisons
Funder
National Health and Medical Research Council
Funding Amount
$252,761.00
Summary
People and other animals startle when they here a sudden loud sound. How much one startles depends in part on how loud the sound is. The relationship between the loudness of the sound and the size of the startle resembles a ski slope. Each individual has a ski slope that differs from others; the beginning of the ski slope (threshold) occurs at a different loudness, the slope is a different steepness, and the height of the ski slope where the plateau occurs is different. There are genetic differe ....People and other animals startle when they here a sudden loud sound. How much one startles depends in part on how loud the sound is. The relationship between the loudness of the sound and the size of the startle resembles a ski slope. Each individual has a ski slope that differs from others; the beginning of the ski slope (threshold) occurs at a different loudness, the slope is a different steepness, and the height of the ski slope where the plateau occurs is different. There are genetic differences in ski slopes as well. The size of the startle reflex can also be reduced by preceding the startling sound with a quiet stimulus a few tens of milliseconds before the startling stimulus. This is known as prepulse inhibition of the startle reflex or PPI for short. There is much interest in PPI, because it differs in people with certain mental illnesses, such as schizophrenia or post-traumatic stress disorder, and certain neurological illnesses, such as Huntington's chorea. It is also affected by drugs, including stimulants, stress hormones, and cannabis. In almost all the hundreds of experiments on PPI the effect of the prepulse on the response to a startling stimulus is measured at only one startling stimulus loudness. This loudness can be at very different parts of the ski slope for different people or other animals: it may be in the steep slope for one person, well into the plateau for another, or even at the bottom of the ski slope below the threshold in others. The effect of PPI is very different depending on what part of the ski slope the loudness represents. A lack of consistent effects in the literature on PPI by drugs and genetics is explained by this difference. Experiments are planned that will investigate the effect of drugs that are similar to those that treat schizophrenia, stress hormones and cannabis on the effect of prepulses on the whole ski slope. This procedure will provide the consistency in results so far absent.Read moreRead less
Enzymes that generate or degrade peptides serve important roles - alterations in their activity can impact on a diverse range of physiological processes in healthy and diseased states. Angiotensin is a peptide that plays a critical role in regulating blood pressure and fluid balance - drugs that block the activity of its processing enzymes forms an important class of medication used to treat hypertension and heart disease. My research interest is in discovering novel roles for these enzymes.
Ultradian rhythms in basal metabolism; relationship to thermoregulation, cardiovascular function and behavioural arousal. Results from this project will be of basic theoretical biological importance, and may well provide a foundation for understanding basal metabolic regulation and its link with cardiovascular function. Our findings may provide a new foundation for discovering strategies that alter basal metabolic rate in a manner that improves health and reduces the incidence of obesity related ....Ultradian rhythms in basal metabolism; relationship to thermoregulation, cardiovascular function and behavioural arousal. Results from this project will be of basic theoretical biological importance, and may well provide a foundation for understanding basal metabolic regulation and its link with cardiovascular function. Our findings may provide a new foundation for discovering strategies that alter basal metabolic rate in a manner that improves health and reduces the incidence of obesity related disease such as heart attack and stroke. Thus this research proposal is of special relevance to National Research Priority 2: Promoting and Maintaining Good Health. Obesity and obesity-related medical conditions particularly affect older people, so that our research is also highly relevant to National Research Priority 2 sub-areas: Ageing well, Ageing productively.Read moreRead less
Understanding brain mechanisms that control autonomic function. This project aims to understand the how the brain regulates sympathetic nerve activity, thereby increasing our understanding of the biology and function of nascent neurons on the adult brain stem. This challenges the current notion that new neurons are only made during development. The project will also determine how brain inflammation impacts blood-brain barrier function and affects sympathetic nerve regulation. The basic fundament ....Understanding brain mechanisms that control autonomic function. This project aims to understand the how the brain regulates sympathetic nerve activity, thereby increasing our understanding of the biology and function of nascent neurons on the adult brain stem. This challenges the current notion that new neurons are only made during development. The project will also determine how brain inflammation impacts blood-brain barrier function and affects sympathetic nerve regulation. The basic fundamental insights and conceptual advances into how autonomic function is controlled by the brain will provide a better understanding of these fundamental processes and will contribute to Australia’s priority research areas to improve health and advance product development.Read moreRead less