Canine Adenovirus-mediated Gene Therapy For CNS Pathology In LSD
Funder
National Health and Medical Research Council
Funding Amount
$490,029.00
Summary
Lysosomal storage disorders (LSD) are inherited diseases that affect about 1 in 7700 Australian children; all share common physical symptoms include heart and breathing difficulties, stiff joints, skeletal deformities, enlarged head, and a characteristic facial appearance. Two-thirds of patients will also develop brain disease. The lysosome is a component of each cell in the human body; its role it is to break down and remove waste from the cell. This involves a series of proteins (enzymes) that ....Lysosomal storage disorders (LSD) are inherited diseases that affect about 1 in 7700 Australian children; all share common physical symptoms include heart and breathing difficulties, stiff joints, skeletal deformities, enlarged head, and a characteristic facial appearance. Two-thirds of patients will also develop brain disease. The lysosome is a component of each cell in the human body; its role it is to break down and remove waste from the cell. This involves a series of proteins (enzymes) that act in sequence. A LSD arises when the lysosome lacks the activity of one protein in this chain. This loss of protein activity means that the waste removal process is impaired. Waste begins to 'store' in the lysosome, clogging the cell and interfering with its usual functions. This gives rise to devastating symptoms that worsen over time as storage increases. Brain disease in LSD has profound effects on the child: mental capacity declines, they become hyperactive and aggressive and progressively lose learned skills (e.g. walking, talking) and control of bodily functions. Artifically made protein is being successfully used to treat some LSD via intravenous injection. However, it cannot access the brain because of a protective barrier that surrounds it. Gene therapy is a method by which we are attempting to overcome this problem. By using a virus called canine adenovirus (or CAV), we plan to produce and insert the missing protein into mice who are deficient in it. CAV will be the protein carrier. CAV is safe in humans and does not have many of the problems associated with some other viruses being tested in gene therapy. We have diagnosed mice who are naturally affected by a LSD with brain disease called MPS IIIA. Their symptoms are similar to that seen in humans, making them ideal for study. CAV vectors are being considered as a long-term treatment for patients who suffer from MPS IIIA and other degenerative brain diseases.Read moreRead less
How critical is the inflammatory response in senile plaque formation in a mutant APP transgenic mouse model? The aims of this project is to examine the brains of mice genetically engineered to produce a human mutant form of insoluble beta amyloid protein known to play a critical role in the development of Alzheimer's disease (AD). If the "trigger" for AD is an inflammatory reaction, then the relevant examination of the early stages of senile plaque formation in these animals could lead to pharma ....How critical is the inflammatory response in senile plaque formation in a mutant APP transgenic mouse model? The aims of this project is to examine the brains of mice genetically engineered to produce a human mutant form of insoluble beta amyloid protein known to play a critical role in the development of Alzheimer's disease (AD). If the "trigger" for AD is an inflammatory reaction, then the relevant examination of the early stages of senile plaque formation in these animals could lead to pharmaceutical intervention to delay the development of this debilitating disease. A 5 year delay would significantly reduce the number of people with AD, not only adding years of improved quality of life, but also saving hundreds of millions of Australian dollars in health costs.Read moreRead less
Microparticles as effectors of microvascular alterations in brain inflammation. Cerebral malaria (CM) kills many children worldwide, but we do not understand why their small blood vessels in the brain become obstructed. We found that tiny elements detached from cell membranes, called microparticles (MP), are dramatically elevated in the blood during CM. Our results strongly suggest that these MP are important in CM development. We have found that some drugs block the release of MP and the stick ....Microparticles as effectors of microvascular alterations in brain inflammation. Cerebral malaria (CM) kills many children worldwide, but we do not understand why their small blood vessels in the brain become obstructed. We found that tiny elements detached from cell membranes, called microparticles (MP), are dramatically elevated in the blood during CM. Our results strongly suggest that these MP are important in CM development. We have found that some drugs block the release of MP and the stickiness of malaria parasites to blood vessels. Our project will tackle the conditions of MP production and define new drugs to prevent it. It also will explain how the brain becomes affected by high numbers of MP. Our results will cast new light on why the brain functions abnormally when its blood vessels become modified.Read moreRead less
Cisterna Magna Delivery Of Therapeutic Lysosomal Enzyme To Correct CNS Pathology In Lysosomal Storage Disorders
Funder
National Health and Medical Research Council
Funding Amount
$760,282.00
Summary
Lysosomal storage disorders (LSD) are inherited diseases that affect about 1 in 7700 Australian children; all share common physical symptoms include heart and breathing difficulties, stiff joints, skeletal deformities, enlarged head, and a characteristic facial appearance. Two-thirds of patients will also develop brain disease. The lysosome is a component of each cell in the human body; its role it is to break down and remove waste from the cell. This involves a series of proteins (enzymes) that ....Lysosomal storage disorders (LSD) are inherited diseases that affect about 1 in 7700 Australian children; all share common physical symptoms include heart and breathing difficulties, stiff joints, skeletal deformities, enlarged head, and a characteristic facial appearance. Two-thirds of patients will also develop brain disease. The lysosome is a component of each cell in the human body; its role it is to break down and remove waste from the cell. This involves a series of proteins (enzymes) that act in sequence. A LSD arises when the lysosome lacks the activity of one protein in this chain. The loss of protein activity impairs the waste removal process. Waste begins to 'store', clogging the cell and interfering with its usual functions. This gives rise to devastating symptoms that worsen over time as storage increases. Brain disease in LSD has profound effects on the child: mental capacity declines, they become hyperactive and aggressive and progressively lose learned skills (e.g. walking, talking) and ability to control bodily functions. Artifically made protein is being successfully used to treat some LSD via intravenous injection. However, it is not able to access the brain because of a protective barrier that surrounds it. This project tests a method to deliver protein to the brain to reduce and stop waste build-up. It involves the injection of artificially made protein into the fluid surrounding the brain and spinal cord using techniques being used to treat other diseases. This method is likely to be the quickest way in which we can treat both the body AND the brain of an affected child. We have diagnosed animal models who were born with a LSD with brain disease, called MPS IIIA. Their symptoms are similar to that seen in humans over the course of the disease, making them ideal for study in this project. Success in this project will allow us to advance this treatment to human trials.Read moreRead less
Development Of A Safe And Effective Treatment For Neuropathology In MPS IIIA.
Funder
National Health and Medical Research Council
Funding Amount
$665,320.00
Summary
MPS IIIA is an inherited disorder that results in progressive brain disease in affected children. The disorder cannot be treated at present because it has not been possible to find an effective way to deliver treatment to the brain. This project seeks to evaluate a method to overcome this problem. Findings in this project can be applied to other, similar disorders that affect the brain.
Understanding multiday cycles underpinning human physiology. We recently discovered long-term rhythms modulating activities of our brains and hearts ranging in duration from 3-60 days. The cause of these longer, ‘multiday cycles’ remain unknown. This project aims to understand; causes of multiday cycles (measuring the nervous and autonomic nervous system), their effects (on cognition, sleep, and stress), and quantify the relationship between coupled cyclical systems. The research outcomes can pr ....Understanding multiday cycles underpinning human physiology. We recently discovered long-term rhythms modulating activities of our brains and hearts ranging in duration from 3-60 days. The cause of these longer, ‘multiday cycles’ remain unknown. This project aims to understand; causes of multiday cycles (measuring the nervous and autonomic nervous system), their effects (on cognition, sleep, and stress), and quantify the relationship between coupled cyclical systems. The research outcomes can provide fundamental new knowledge about cyclic dynamics governing human physiology, leading to improved rigour in life sciences research. Commercial outcomes include technology to optimise individual productivity, learning, health, and wellbeing based on physiological cycles, with diverse benefits to society.Read moreRead less
I am a neuropharmacologist and a neuroanatomist who is involved in utilising a multidisciplinary approach to investigate the functional role of metalloproteinases in the brain.
Forebrain Neuroadaptations To Chronic Morphine Treatment
Funder
National Health and Medical Research Council
Funding Amount
$435,956.00
Summary
Drug addiction is caused by long term changes in brain areas that normally produce the drives that sustain normal behaviours such as eating, drinking and sex. Addictive drugs effectively hijack these brain areas so that behaviours relating to drug taking become associated with feeling good. In some individuals, over time the pattern of drug taking becomes compulsive and no longer can be controlled. This transition is now known to be due to drugs causing physical changes to certain groups of nerv ....Drug addiction is caused by long term changes in brain areas that normally produce the drives that sustain normal behaviours such as eating, drinking and sex. Addictive drugs effectively hijack these brain areas so that behaviours relating to drug taking become associated with feeling good. In some individuals, over time the pattern of drug taking becomes compulsive and no longer can be controlled. This transition is now known to be due to drugs causing physical changes to certain groups of nerve cells in the brain. The affected nerve cells are responsible for causing new behaviours that appear once addiction is established. Addiction is not exclusive to humans. Animals will self-inject the same addictive drugs that humans use, and show many other kinds of addictive behaviours that parallel aspects of human addiction. Studying the effects of addictive drugs on rats and other animals has been very important in working out where and how drugs work. We now have a very good idea of which parts of the brain are affected by drugs, and it turns out that most addictive drugs act in the same places. We also now know for all of the major drugs, exactly which parts of nerve cells they affect. However, this turns out to be only the first step as the nerve cells that directly respond to drugs can affect other whole networks of nerve cells. This study is going to look at how morphine, a drug that is related to heroin, affects nerve cells in a part of the brain that helps cause addiction. It is going to work out which of the many pathways in this brain region are affected by morphine treatments that cause addiction in rats. It will then see what is happening to single nerve cells in the affected pathways. If we can understand more about these processes it may become possible to come up with new ways to treat addiction. We will also understand much more about the production of powerful emotional and behavioural drives so many of us find hard to control.Read moreRead less
Transcriptional control of neural stem cell differentiation during development and disease. Understanding the molecular mechanisms that control how neural stem cells differentiate is critical to provide potential therapeutic treatment for neurodegenerative diseases and for brain cancer. This project will aim to discover, using an animal model system, the genes and molecules regulating these key biological processes.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100074
Funder
Australian Research Council
Funding Amount
$520,000.00
Summary
Facilities for automated high-throughput slide scanning and stereology. The equipment requested will facilitate the work of the Australian Mouse Brain Mapping Consortium, a consortium of Australian research groups collaborating to provide the only mouse model brain mapping capability in the country. The consortium brings together laboratory, neuroimaging and computational expertise in a comprehensive framework for imaging the mouse brain. This will help researchers to study mouse models of genet ....Facilities for automated high-throughput slide scanning and stereology. The equipment requested will facilitate the work of the Australian Mouse Brain Mapping Consortium, a consortium of Australian research groups collaborating to provide the only mouse model brain mapping capability in the country. The consortium brings together laboratory, neuroimaging and computational expertise in a comprehensive framework for imaging the mouse brain. This will help researchers to study mouse models of genetic and acquired disorders across the life-span. Remote viewing and analysis capabilities will help overcome the 'tyranny of distance', increasing national access to the facility. Repositories of digitised images will increase the availability of valuable research material to other Australian and international researchers.Read moreRead less