Defining the Regulatory Pool of Cholesterol in the Mammalian Cell. Heart disease remains the greatest killer of Australians and Alzheimer's disease represents a growing burden in our aging population. The information gained in this project will be invaluable in advancing our understanding of how cholesterol levels are controlled within the cell and will provide the groundwork for further research that can help to identify novel targets for new drugs to fight heart disease and Alzheimer's diseas ....Defining the Regulatory Pool of Cholesterol in the Mammalian Cell. Heart disease remains the greatest killer of Australians and Alzheimer's disease represents a growing burden in our aging population. The information gained in this project will be invaluable in advancing our understanding of how cholesterol levels are controlled within the cell and will provide the groundwork for further research that can help to identify novel targets for new drugs to fight heart disease and Alzheimer's disease.Read moreRead less
Cellular response to pro-oxidative myoglobin. The heart is vulnerable to oxidative damage as specialised muscle cells termed myocytes are unable to regenerate. Oxidative damage to myocytes decreases cell viability and in turn heart muscle function. Pro-oxidative forms of the protein myoglobin are present in the heart and may play a role in damaging myocytes. This study will determine whether a series of novel synthetic antioxidants inhibit myoglobin-mediated damage to heart muscle and preserve f ....Cellular response to pro-oxidative myoglobin. The heart is vulnerable to oxidative damage as specialised muscle cells termed myocytes are unable to regenerate. Oxidative damage to myocytes decreases cell viability and in turn heart muscle function. Pro-oxidative forms of the protein myoglobin are present in the heart and may play a role in damaging myocytes. This study will determine whether a series of novel synthetic antioxidants inhibit myoglobin-mediated damage to heart muscle and preserve function. This may lead to new therapies to combat cardiovascular disease and enable ageing Australians to maintain productive and independent lifestyles.Read moreRead less
Investigating the molecular function of alpha-Haemoglobin stabilising protein. The research described in this proposal will provide new insights into haemoglobin regulation and redox chemistry in erythrocytes. Deregulation of these processes gives rise to a number of debilitating diseases, including varieties of anaemia and thalassaemia-in Australia it is estimated that 3% of the population could be carriers of b-thalassaemia mutations. Given the contribution of free aHb to the pathology of b-th ....Investigating the molecular function of alpha-Haemoglobin stabilising protein. The research described in this proposal will provide new insights into haemoglobin regulation and redox chemistry in erythrocytes. Deregulation of these processes gives rise to a number of debilitating diseases, including varieties of anaemia and thalassaemia-in Australia it is estimated that 3% of the population could be carriers of b-thalassaemia mutations. Given the contribution of free aHb to the pathology of b-thalassaemia, understanding the specific aHb-binding factor, AHSP is a goal of national significance. In the long term, manipulation of AHSP function through gene therapy may have a direct role in the treatment of thalassaemia.Read moreRead less
Heparan sulfate complexes with VEGF for control of angiogenesis in tissue engineered constructs. The national/community benefits that will arise from this work include, the generation of knowledge related to the growth of blood vessels in the presence of a synthetic polymer that has been made to look like the natural polymers present in the body. This will lead to an understanding of the underlying mechanisms involved that may have down stream effects relevant to the replacement of many types o ....Heparan sulfate complexes with VEGF for control of angiogenesis in tissue engineered constructs. The national/community benefits that will arise from this work include, the generation of knowledge related to the growth of blood vessels in the presence of a synthetic polymer that has been made to look like the natural polymers present in the body. This will lead to an understanding of the underlying mechanisms involved that may have down stream effects relevant to the replacement of many types of tissues being generated for clinical applications, including possible applications in the treatment of heart disease, the largest killer of people in the Western world. Read moreRead less
Blood component interactions with polysaccharide biomaterials for vascular applications. Heart disease is the major killer of people in Australia and the Western world. It is due mainly to the blockage of vessels supplying the muscle of the heart with blood and nutrients, which can be replaced or by-passed but the supply of native vessels in the body is limited. Tissue engineering laboratories have been trying to develop blood vessels for this use for many years without significant success. T ....Blood component interactions with polysaccharide biomaterials for vascular applications. Heart disease is the major killer of people in Australia and the Western world. It is due mainly to the blockage of vessels supplying the muscle of the heart with blood and nutrients, which can be replaced or by-passed but the supply of native vessels in the body is limited. Tissue engineering laboratories have been trying to develop blood vessels for this use for many years without significant success. This application plans to understand the molecular signals contained within the sugar sequences used in a commonly used biomaterial chitosan that may be used in the construction of synthetic vascular grafts. If we can understand how blood cells interact with this biomaterial, we may be able to develop a blood vessel in the laboratory.Read moreRead less
Activation of Tissue Factor by a Disulphide-Bond Switch. This project will define the molecular mechanism of activation of tissue factor, the initiator of blood coagulation, and design and test novel antibody therapeutics that block this activation. The applicant suggests that tissue factor is activated by a disulphide-bond switch. Should this hypothesis prove correct it would be the first example of activation of a mammalian protein by this means and, moreover, would be very amenable to therape ....Activation of Tissue Factor by a Disulphide-Bond Switch. This project will define the molecular mechanism of activation of tissue factor, the initiator of blood coagulation, and design and test novel antibody therapeutics that block this activation. The applicant suggests that tissue factor is activated by a disulphide-bond switch. Should this hypothesis prove correct it would be the first example of activation of a mammalian protein by this means and, moreover, would be very amenable to therapeutic intervention because activation occurs on the membrane surface inside blood vessels. Tissue factor activation and thrombus formation is the precipitating event in acute myocardial infarction, unstable angina and ischemic stroke, which are responsible for the majority of deaths in Australia.Read moreRead less
YrdC translational control: physical and functional interactions, identification and influence of amino acid phosphorylation. This project will expand our basic understanding of the mechanisms with which a newly identified and highly conserved protein, YrdC203 regulates the process of protein synthesis from mRNA. This work will lead to basic insights into how gene expression is regulated at the level of translation, and generate valuable research tools, such as YrdC203 knockdown tools, peptide m ....YrdC translational control: physical and functional interactions, identification and influence of amino acid phosphorylation. This project will expand our basic understanding of the mechanisms with which a newly identified and highly conserved protein, YrdC203 regulates the process of protein synthesis from mRNA. This work will lead to basic insights into how gene expression is regulated at the level of translation, and generate valuable research tools, such as YrdC203 knockdown tools, peptide mimetics and decoys, phospho-specific and phospho-non specific antibodies. Exploitation of this breakthrough science will open up new avenues for therapeutic intervention in the future, while commercial exploitation of such reagents that recognise or interfere with YrdC203 will generate economic returns to Australia.Read moreRead less
Molecular mechanisms of stem cell self-renewal. Muscle growth and regeneration is critically dependent on its stem cell compartment. We have discovered that the p38 MAPK pathway is essential for stem cell self-renewal in the C2C12 myogenic cell line. This proposal seeks to understand the molecular basis of stem cell self-renewal in skeletal muscles, data that may be applicable to many stem cell systems, and to the enormous promise of stem cell therapies for injury and diseases of the aged. We wi ....Molecular mechanisms of stem cell self-renewal. Muscle growth and regeneration is critically dependent on its stem cell compartment. We have discovered that the p38 MAPK pathway is essential for stem cell self-renewal in the C2C12 myogenic cell line. This proposal seeks to understand the molecular basis of stem cell self-renewal in skeletal muscles, data that may be applicable to many stem cell systems, and to the enormous promise of stem cell therapies for injury and diseases of the aged. We will attempt to alter the balance of stem cell production by enforced p38 expression, and take microarray and proteomics approaches to define stem cell pathways.Read moreRead less
Regulation of mammalian heart development by transcription factors FHL2, GATA-4 & FOG-2. FHL2 is involved in many biological processes including intracellular signaling and gene transcription. GATA and FOG proteins are critical for the development of diverse tissues, including the heart. Knowledge gained in this project will advance our understanding of many cellular processes, including heart development, and will contribute to our knowledge in Biology, Zoology and Veterinary Science. More spe ....Regulation of mammalian heart development by transcription factors FHL2, GATA-4 & FOG-2. FHL2 is involved in many biological processes including intracellular signaling and gene transcription. GATA and FOG proteins are critical for the development of diverse tissues, including the heart. Knowledge gained in this project will advance our understanding of many cellular processes, including heart development, and will contribute to our knowledge in Biology, Zoology and Veterinary Science. More specifically, it will contribute to Stem Cell research, a 'hot' area in the biotechnology industry, particularly towards building a strong base of expertise, skills and technological capability in this new field, and may even lead to the development of a commercial product e.g. a heart muscle cell-coated biomaterial to aid failing heart.Read moreRead less
Heparan sulfate proteoglycan from smooth muscle cell basal lamina: It's role in cell signalling. Heart disease is the major killer of people in the Western world. central to this disease is the killing of heart muscle tissue to it being starved of oxygen via a "heart attack". One of the common treatments is coronary artery bypass surgery, however, the supply of vessels that can be used is limited. In order to provide an alternative supply of vessels, we are aiming to engineer blood vessels i ....Heparan sulfate proteoglycan from smooth muscle cell basal lamina: It's role in cell signalling. Heart disease is the major killer of people in the Western world. central to this disease is the killing of heart muscle tissue to it being starved of oxygen via a "heart attack". One of the common treatments is coronary artery bypass surgery, however, the supply of vessels that can be used is limited. In order to provide an alternative supply of vessels, we are aiming to engineer blood vessels in the laboratory. The major cell of the wall of arteries, the smooth muscle cell, is critical to normal functioning and integration of these transplanted arteries. To do this we will need to understand the cell signalling responses of these cells in relation to molecules in their surrounding environment.Read moreRead less