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 new model for secreton in epithelial cells. This proposal sets out to test a new model for secretion that we have developed in the light of recent experimental data. The project outcomes will advance our understanding of normal processes of secretion and may be important in understanding disease. We will develop cutting-edge techniques of microscopy which will place Australia at the forefront of this exciting field. The project will bring benefit to the Australian scientific community through ....A new model for secreton in epithelial cells. This proposal sets out to test a new model for secretion that we have developed in the light of recent experimental data. The project outcomes will advance our understanding of normal processes of secretion and may be important in understanding disease. We will develop cutting-edge techniques of microscopy which will place Australia at the forefront of this exciting field. The project will bring benefit to the Australian scientific community through interactions and collaborations with other scientists in Australia and internationally and will benefit early-career scientists, training them in novel methods and allowing them to develop their research expertise and profile and enabling them to compete on the world science stage. Read moreRead less
Understanding lens aging: the molecular basis of presbyopia. Ageing has major consequences in the deterioration of vision, notably, the inability to focus on near objects. The understanding gained through this study of age-related lens changes may allow us to prescribe drugs or diets that alter lens properties and thus delay the need for glasses. This would have great benefits not just in decreased inconvenience of users, but also in cost to the middle-aged and elderly. In addition, data will b ....Understanding lens aging: the molecular basis of presbyopia. Ageing has major consequences in the deterioration of vision, notably, the inability to focus on near objects. The understanding gained through this study of age-related lens changes may allow us to prescribe drugs or diets that alter lens properties and thus delay the need for glasses. This would have great benefits not just in decreased inconvenience of users, but also in cost to the middle-aged and elderly. In addition, data will be used to underpin the development of a flexible intraocular lens (IOL). Hard IOLs are routinely inserted into human eyes following cataract surgery. In the future, flexible IOLs based on the properties of young lenses will be used, rather than reading glasses. This new industry could be based in Australia.Read moreRead less
Unravelling transthyretin amyloid, bounding ahead using wallabies. Each protein in our body has a unique shape that enables it to function correctly. For unknown reasons, some proteins can change their shape, aggregate with other proteins and stick to the outside of cells of major organs or nerves. This prevents those cells from working properly and results in disease. Transthyretin is a protein that changes shape and aggregates in the heart of most people over the age of 70. The disease is call ....Unravelling transthyretin amyloid, bounding ahead using wallabies. Each protein in our body has a unique shape that enables it to function correctly. For unknown reasons, some proteins can change their shape, aggregate with other proteins and stick to the outside of cells of major organs or nerves. This prevents those cells from working properly and results in disease. Transthyretin is a protein that changes shape and aggregates in the heart of most people over the age of 70. The disease is called Senile Systemic Amyloidosis (SSA). It is not known how or why this happens. There is no cure or therapy. This project will use transthyretins from human and wallaby to explore a possible cause of SSA. If our hypothesis is correct, we will propose preventative actions to reduce the incidence of SSA in the future.Read moreRead less
Surfactant Effects In Sonoprocessing. This project will provide the fundamental science required to further develop a range of ultrasonic applications within the Australian food industry, for wastewater treatment and in medical science. In particular, it will assist more applied research currently sponsored by both the Victorian government STI initiative and the CSIRO Food Futures Flagship, which considers the use of ultrasound to assist in bioactives separation, food emulsification and membrane ....Surfactant Effects In Sonoprocessing. This project will provide the fundamental science required to further develop a range of ultrasonic applications within the Australian food industry, for wastewater treatment and in medical science. In particular, it will assist more applied research currently sponsored by both the Victorian government STI initiative and the CSIRO Food Futures Flagship, which considers the use of ultrasound to assist in bioactives separation, food emulsification and membrane operations. The development of ultrasound contrast agents (surfactant coated microbubbles) also has the potential to increase both the length and quality of life for many Australians. The work addresses both National Research priorities and the CSIRO Food Futures Flagship goals. Read moreRead less
Biological probes for understanding mammalian cellular transport mechanisms. Cellular components are moved around within cells by molecular motors. This fundamental transport mechanism depends on a network of tracks. Blocks in this cellular transport can result in a number of mammalian diseases, particularly within nerve cells. This project will increase our understanding of the mechanisms of cellular transport and, in particular, how molecular motors engage their cargo. This is essential ground ....Biological probes for understanding mammalian cellular transport mechanisms. Cellular components are moved around within cells by molecular motors. This fundamental transport mechanism depends on a network of tracks. Blocks in this cellular transport can result in a number of mammalian diseases, particularly within nerve cells. This project will increase our understanding of the mechanisms of cellular transport and, in particular, how molecular motors engage their cargo. This is essential groundwork for the development of drugs that target this transport mechanism.Read moreRead less
The MIA mitochondrial import pathway: structure and function. Our aging population is increasingly susceptible to mitochondrial disease and Australia is vulnerable to the associated economic and social burden. This research will benefit Australia by contributing to a knowledge-based economy; identifying new pathways that can be targeted for therapeutic intervention; developing smarter and faster hybrid approaches that strengthen Australia's basic and strategic research capability; and forging ne ....The MIA mitochondrial import pathway: structure and function. Our aging population is increasingly susceptible to mitochondrial disease and Australia is vulnerable to the associated economic and social burden. This research will benefit Australia by contributing to a knowledge-based economy; identifying new pathways that can be targeted for therapeutic intervention; developing smarter and faster hybrid approaches that strengthen Australia's basic and strategic research capability; and forging new international links. In the future, this research will lead to new collaborations between academia and industry and the discovery of potential new drugs that would benefit the health of Australians, benefit the economy of our healthcare system and provide potential economic benefits through royalty streams.Read moreRead less
The effects of alpha-2-macroglobulin on amyloid formation and toxicity. The expected outcomes will provide major advances in understanding how the abundant human blood protein alpha-2-macroglobulin influences the formation of protein aggregates that underpin a number of serious diseases (e.g. Alzheimer's disease). The linkages involved are of the highest calibre and will give the Fellowship holder a unique opportunity for training in environments that are truly internationally leading-edge. Fur ....The effects of alpha-2-macroglobulin on amyloid formation and toxicity. The expected outcomes will provide major advances in understanding how the abundant human blood protein alpha-2-macroglobulin influences the formation of protein aggregates that underpin a number of serious diseases (e.g. Alzheimer's disease). The linkages involved are of the highest calibre and will give the Fellowship holder a unique opportunity for training in environments that are truly internationally leading-edge. Furthermore, the very high novelty and broad significance of this work indicate that it will produce high-impact publications which will tangibly assist Australia being recognized as a major contributor to international research outcomes of the highest quality.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
New insights into mammalian gene transcription - the role of parafibromin. Increasing our knowledge of fundamental gene and protein interactions is imperative as we move into an era of targetted molecular therapies to treat disease. Cancer is at the forefront of these diseases with hope of improved treatments firmly based in understanding the basic cell biology of tumours. This proposal describes research into a protein called parafibromin. We propose that parafibromin acts in major pathways res ....New insights into mammalian gene transcription - the role of parafibromin. Increasing our knowledge of fundamental gene and protein interactions is imperative as we move into an era of targetted molecular therapies to treat disease. Cancer is at the forefront of these diseases with hope of improved treatments firmly based in understanding the basic cell biology of tumours. This proposal describes research into a protein called parafibromin. We propose that parafibromin acts in major pathways responsible for how a cell manages stress by regulating levels of proteins involved in the cellular stress response. Discoveries made during the course of this research will provide knowledge of gene and protein interactions that will be important in the future to develop anti-cancer therapies. Read moreRead less