Novel human tryptases: their potential role in inflammatory diseases of the young and old. We have discovered a number of novel human tryptases, and while other members of this enzyme family have been implicated in the development of inflammatory diseases (including rheumatoid arthritis), little is known about these new molecules. We aim to characterise these new enzymes by determining what part of the body they are produced in, whether they are associated with specific inflammatory diseases, an ....Novel human tryptases: their potential role in inflammatory diseases of the young and old. We have discovered a number of novel human tryptases, and while other members of this enzyme family have been implicated in the development of inflammatory diseases (including rheumatoid arthritis), little is known about these new molecules. We aim to characterise these new enzymes by determining what part of the body they are produced in, whether they are associated with specific inflammatory diseases, and what target molecules they act on. A better understanding of these factors will increase the chances of finding cures and developing better treatments for important inflammatory diseases of the ageing population.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668413
Funder
Australian Research Council
Funding Amount
$723,000.00
Summary
The Nanoscale Characterisation Centre WA Analytical Biological Transmission Electron Microscope Facility. A new regional analytical biological TEM (BioTEM) will provide critical support to acclaimed medical and biological groups researching nationally significant age-related health, agricultural and environmental questions. The BioTEM, for example, will allow a unique opportunity to detect metal uptake and accumulation in bone-forming cells. This research will provide insight into metal induce ....The Nanoscale Characterisation Centre WA Analytical Biological Transmission Electron Microscope Facility. A new regional analytical biological TEM (BioTEM) will provide critical support to acclaimed medical and biological groups researching nationally significant age-related health, agricultural and environmental questions. The BioTEM, for example, will allow a unique opportunity to detect metal uptake and accumulation in bone-forming cells. This research will provide insight into metal induced afflictions, such as nasal ulcer, lung cancer, contact dermatitis and hypersensitivity reactions like asthma. The BioTEM will also be used to study how plants take up nutrients and how they use these compounds for growth, development and reproduction. Successes in this research will transfer to the important development of salt-tolerant plant species.Read moreRead less
Proteomics Analysis of Interactions Between Chaperonin 10 and Cell Surface Proteins. Specific interactions at the cell surface may induce downstream biological responses. In the case of chaperonin 10, Cpn10, interaction at the cell surface results in immunomodulation of the inflammatory response. Cell surface proteins that interact with Cpn10 have not been identified. This project will use chemical crosslinking and proteomic techniques to identify cell surface proteins that interact with Cpn10 a ....Proteomics Analysis of Interactions Between Chaperonin 10 and Cell Surface Proteins. Specific interactions at the cell surface may induce downstream biological responses. In the case of chaperonin 10, Cpn10, interaction at the cell surface results in immunomodulation of the inflammatory response. Cell surface proteins that interact with Cpn10 have not been identified. This project will use chemical crosslinking and proteomic techniques to identify cell surface proteins that interact with Cpn10 and structural features of Cpn10 involved in these interactions. These findings will providde leads for the development of immunomodulatory therapeutics based on Cpn10 interactions. Analytical technologies will be developed that are applicable to other interacting protein systems.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882275
Funder
Australian Research Council
Funding Amount
$110,000.00
Summary
Facility for analysing behaviour, learning and motor skills in animal models. Mental disorders are one of the largest costs to the community today and account for more than 50% of the time lost from work. Moreover, these disorders are disabling conditions that relate to fundamental, basic questions of identity and individuality. This collaborative behavioural facility at The University of Queensland will underpin excellent research into how neurological changes affect behaviour and thinking, pro ....Facility for analysing behaviour, learning and motor skills in animal models. Mental disorders are one of the largest costs to the community today and account for more than 50% of the time lost from work. Moreover, these disorders are disabling conditions that relate to fundamental, basic questions of identity and individuality. This collaborative behavioural facility at The University of Queensland will underpin excellent research into how neurological changes affect behaviour and thinking, provide infrastructure to test current models on brain functions, and support the development of new compounds to treat these disorders, thus resulting in significant national and community benefits in improved health outcomes and increased work productivity.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
The Genetic Analysis of Neurological Diseases. Multiple sclerosis and Parkinson's are debilitating neurodegenerative diseases, which affect 16,000 and 80,000 Australians, respectively. Between them, these diseases cost the community $7.8 billion per annum, and there is no cure. This proposal will study the genes that influence a person's predisposition to developing these diseases, and what makes some people have particular characteristics. It will provide novel insights into the diseases themse ....The Genetic Analysis of Neurological Diseases. Multiple sclerosis and Parkinson's are debilitating neurodegenerative diseases, which affect 16,000 and 80,000 Australians, respectively. Between them, these diseases cost the community $7.8 billion per annum, and there is no cure. This proposal will study the genes that influence a person's predisposition to developing these diseases, and what makes some people have particular characteristics. It will provide novel insights into the diseases themselves and information that could help in the development of new and more effective drugs, and biomarkers to assist in the prediction of prognosis. Such advances would decrease the economic impact of these diseases and improve quality of life for those affected.Read moreRead less
Identifying the specific structural features of metallothionein that regulate its ability to modulate astrogliosis. This project contributes directly to the Designated National Research Priority 2 and could potentially have a significant impact upon the broader Australian Community by identifying a novel and powerful therapeutic agent based upon metallothionein proteins with the ultimate aim of helping patients who have a brain injury or a neurodegenerative disease. It is important to note that ....Identifying the specific structural features of metallothionein that regulate its ability to modulate astrogliosis. This project contributes directly to the Designated National Research Priority 2 and could potentially have a significant impact upon the broader Australian Community by identifying a novel and powerful therapeutic agent based upon metallothionein proteins with the ultimate aim of helping patients who have a brain injury or a neurodegenerative disease. It is important to note that the partnership between UTAS and Bestenbalt LLC is a critical step in the development of these exciting research discoveries into commercially viable outcomes for the Australian Biotechnology Industry and the broader Australian community.Read moreRead less
The Role of Amyloid Protein Precursor in Mammalian Copper Transport. The knowledge gained from this investigation will help us to develop new medicines for the treatment of debilitating and ever more prevalent age-related neurodegenerative diseases and will help us to illuminate the role of metals in the ageing process itself. Apart from the obvious economic and social benefits in extending the productive lifetime of its citizens, the outcomes of this project have clear commercial applications. ....The Role of Amyloid Protein Precursor in Mammalian Copper Transport. The knowledge gained from this investigation will help us to develop new medicines for the treatment of debilitating and ever more prevalent age-related neurodegenerative diseases and will help us to illuminate the role of metals in the ageing process itself. Apart from the obvious economic and social benefits in extending the productive lifetime of its citizens, the outcomes of this project have clear commercial applications. We anticipate that there will be patents that will ensue from the programme, which will be licensed to Australian interests, and contribute to the national revenue in the biotechnology and pharmaceutical sector.Read moreRead less
Neural Copper Homeostasis: the role of the Alzheimer Amyloid-beta Precursor Protein. Alzheimer's disease (AD) is creating a growing burden upon Australian medical resources. Copper plays an important role in the development of AD, and drugs designed to adjust brain copper levels are being tested for AD treatment and show therapeutic benefits. This project will determine how copper is involved in AD so that more effective drugs can be developed. Focus will primarily be on copper-binding proteins ....Neural Copper Homeostasis: the role of the Alzheimer Amyloid-beta Precursor Protein. Alzheimer's disease (AD) is creating a growing burden upon Australian medical resources. Copper plays an important role in the development of AD, and drugs designed to adjust brain copper levels are being tested for AD treatment and show therapeutic benefits. This project will determine how copper is involved in AD so that more effective drugs can be developed. Focus will primarily be on copper-binding proteins central to AD, including amyloid-beta, and their role in AD development. Upon completion of this project, we expect to better understand neural copper metabolism in health and in AD pathology, with outcomes directly applicable to therapeutic AD intervention.Read moreRead less
Transduction of neuronal signals by brain macroglial cells: implications for neuronal function. Study of mechanisms regulating brain cell (neuron and glial) communication is essential for understanding of normal brain function and transformations that occur in neurodegenerative states and age-related disorders. Mechanisms underlying neuron-glia communication are not well understood. By combining cell physiology, digital imaging technologies, and genetically designed and delivered molecules we w ....Transduction of neuronal signals by brain macroglial cells: implications for neuronal function. Study of mechanisms regulating brain cell (neuron and glial) communication is essential for understanding of normal brain function and transformations that occur in neurodegenerative states and age-related disorders. Mechanisms underlying neuron-glia communication are not well understood. By combining cell physiology, digital imaging technologies, and genetically designed and delivered molecules we will enhance our understanding of this brain cell communication and critical roles played by intracellular calcium. This will enhance international competitiveness of Australian biological research and provide novel insight of glial function in neurodegeneration and potential for specific therapeutic intervention in disease.Read moreRead less