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Effect of modification of structural and cellular properties of the arterial wall on functional stiffness of large arteries. The Australian population is ageing, becoming more obese and showing earlier onset of age-related conditions such as high blood pressure, heart failure and inflammatory disorders. All these conditions are associated with possible increase arterial stiffness. Inflammatory disorders in Australia affect one in six people, increasing to one in five in the next decade. An equa ....Effect of modification of structural and cellular properties of the arterial wall on functional stiffness of large arteries. The Australian population is ageing, becoming more obese and showing earlier onset of age-related conditions such as high blood pressure, heart failure and inflammatory disorders. All these conditions are associated with possible increase arterial stiffness. Inflammatory disorders in Australia affect one in six people, increasing to one in five in the next decade. An equal proportion is affected by cardiovascular disease. This combined effect poses a massive burden on the national health budget. This project aims to investigate basic mechanism leading to degeneration of function of larger arteries and therapies to reverse the process and reduce cardiovascular risk in the community.Read moreRead less
Structure-activity relationships in the development of new bioactive isoflavonoids. This project aims to develop new chemical substances based on the structure of a group of naturally occuring compounds called isoflavones. Biological activity related to chronic inflammatory (eg arthritis) and heart disease will be examined in cells and animal models. This information will be used to design compounds with enhanced activity. The eventual aim is to develop potential therapeutic agents to treat chr ....Structure-activity relationships in the development of new bioactive isoflavonoids. This project aims to develop new chemical substances based on the structure of a group of naturally occuring compounds called isoflavones. Biological activity related to chronic inflammatory (eg arthritis) and heart disease will be examined in cells and animal models. This information will be used to design compounds with enhanced activity. The eventual aim is to develop potential therapeutic agents to treat chronic inflammatory and cardiovascular disease.Read moreRead less
Refinement And Delivery Of Synthetic Compounds That Specifically Alter Muscle Contraction. The project has broad benefits for the nation and the community. Cutting edge research at the molecular level, done within Australia, will benefit Australian scientists and research in general. The discovery of drugs that will be developed by the Australian Pharmaceutical Industry will benefit the Australian Industry sector and will have spin-offs for the racing industry, livestock industry (lean meat) an ....Refinement And Delivery Of Synthetic Compounds That Specifically Alter Muscle Contraction. The project has broad benefits for the nation and the community. Cutting edge research at the molecular level, done within Australia, will benefit Australian scientists and research in general. The discovery of drugs that will be developed by the Australian Pharmaceutical Industry will benefit the Australian Industry sector and will have spin-offs for the racing industry, livestock industry (lean meat) and for rural industry (insecticides). In addition, expansion of the outcomes of the project into preclinical development will strengthen the Australian bioscience sector. Thus the project will eventually benefit the Australian industry sector. The project will have further benefits for education and training. 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