Versatile elastin based hybrid hydrogels for chondrocyte transplantation and repair. Cartilage repair is often limited after significant trauma, sports injury and disease. This project will generate a new family of hybrid biomaterials constructed by precisely blending natural and synthetic components. These novel biomaterials will establish the foundation for manufactured prefabrication and in situ injection to promote healing.
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
Single-session Introduction of Mutations in Parallel Lines (SIMPL). This project aims to develop a novel method for markedly accelerating production of genetically modified mice, which are a key 'tool' for studying biological processes and diseases. The work plans to take CRISPR, the latest gene-editing technique, to the next level by developing a novel CRISPR-based method to generate different mouse strains with distinct variations of the same gene sequences, at a fraction of the present cost a ....Single-session Introduction of Mutations in Parallel Lines (SIMPL). This project aims to develop a novel method for markedly accelerating production of genetically modified mice, which are a key 'tool' for studying biological processes and diseases. The work plans to take CRISPR, the latest gene-editing technique, to the next level by developing a novel CRISPR-based method to generate different mouse strains with distinct variations of the same gene sequences, at a fraction of the present cost and time. This project should overcome a major barrier to studying gene function with unprecedented detail, thereby opening new avenues for future research into biological processes. Thus, the outcomes from this project should impact on the entire field of biomedical research, and advance Australia's biotech industry.Read moreRead less
Indoleamine 2,3-dioxygenase-2: a newly discovered enzyme with a key role in kidney function. We have discovered an enzyme, IDO2, that metabolises the amino acid tryptophan. The enzyme is found in kidney tubule cells and we propose that IDO2 activity regulates sodium reabsorption by the renal tubular cells. Regulation of sodium balance is important for determining blood pressure in health and disease.
Characterization of erythroid differentiation related factor (EDRF): a novel a-globin binding protein. Hemoglobin, a four-subunit protein comprising two alpha and two beta polypeptide chains, is the essential oxygen transporter found in all mammals. Problems with the synthesis of hemoglobin can give rise to a range of common and serious human disorders, including thalassaemia and anemia. We have discovered a protein, EDRF, that appears to interact directly with alpha-globin (but not beta-globin) ....Characterization of erythroid differentiation related factor (EDRF): a novel a-globin binding protein. Hemoglobin, a four-subunit protein comprising two alpha and two beta polypeptide chains, is the essential oxygen transporter found in all mammals. Problems with the synthesis of hemoglobin can give rise to a range of common and serious human disorders, including thalassaemia and anemia. We have discovered a protein, EDRF, that appears to interact directly with alpha-globin (but not beta-globin) and to play a role in the regulation of hemoglobin production. We now seek to understand the nature of this interaction at a molecular level and mechanistic level.Read moreRead less
The macrophage nucleus - its form and function during migration in vivo. As cells migrate through tissues, they encounter complex, 3-dimensional environments that provide cues to guide them and present obstacles in their path. This project focuses on macrophages, a large immune cell capable of both amoeboid and mesenchymal modes of migration. The nucleus is the largest organelle and its bulk and stiffness must be managed as migrating cells travel through constrictions. The project uses specialis ....The macrophage nucleus - its form and function during migration in vivo. As cells migrate through tissues, they encounter complex, 3-dimensional environments that provide cues to guide them and present obstacles in their path. This project focuses on macrophages, a large immune cell capable of both amoeboid and mesenchymal modes of migration. The nucleus is the largest organelle and its bulk and stiffness must be managed as migrating cells travel through constrictions. The project uses specialised high-end microscopy and genetic methods to examine how the nucleus of migrating zebrafish macrophages deforms, repositions and is restructured during migration in living tissues, and how this influences macrophage locomotion. The goal is to provide fundamental insights into the cell biology of macrophage migration.Read moreRead less
Nuclear plasticity during neutrophil migration and function. This project aims to discover how nuclear shape affects neutrophil function. Cell migration needs overall cellular plasticity and plasticity of internal structures such as the nucleus. The neutrophil, one of the most peripatetic cell types, has a specialised lobulated nucleus, thought to facilitate its mobility and function. Using zebrafish reporter lines that concurrently display the nucleus and cytoplasm, this project will display th ....Nuclear plasticity during neutrophil migration and function. This project aims to discover how nuclear shape affects neutrophil function. Cell migration needs overall cellular plasticity and plasticity of internal structures such as the nucleus. The neutrophil, one of the most peripatetic cell types, has a specialised lobulated nucleus, thought to facilitate its mobility and function. Using zebrafish reporter lines that concurrently display the nucleus and cytoplasm, this project will display the dynamic plasticity of neutrophil nuclei during neutrophil migration and function in vivo. This project seeks to use the spatiotemporal resolution of a lattice light sheet microscope to examine this further, and explore its effect on neutrophil function. The project seeks to establish morphological and mechanical principles applying not just to neutrophils, but to all migratory cell types.Read moreRead less
Smart bio-mimetic self-assembled gels for biomedical applications. Advanced materials that can be used to deliver drugs, repair scars and damaged tissue are the holy grail of regenerative medicine. Recently, a class of materials called self-assembled gels have shown enormous potential in this regard. Self-assembled gels have already demonstrated their use in drug delivery and are showing great promise in the treatment of spinal injuries. This project will create an even smarter version of these ....Smart bio-mimetic self-assembled gels for biomedical applications. Advanced materials that can be used to deliver drugs, repair scars and damaged tissue are the holy grail of regenerative medicine. Recently, a class of materials called self-assembled gels have shown enormous potential in this regard. Self-assembled gels have already demonstrated their use in drug delivery and are showing great promise in the treatment of spinal injuries. This project will create an even smarter version of these gels with biological activity, especially targeting cancer and suppressing tumour growth after surgery. Our approach will help to ensure that Australians can take a leading role in this highly exciting new area of biomedical research.Read moreRead less
Biomimetic Insights from Enamel: A Nano-mechanical and Nano-structural Investigation of a Natural Ceramic-like Biocomposite. Enamel is a naturally developed example of an optimised material structure that constitutes the hardest tissue in the human body. In addition it is exposed to severe mechanical and environmental challenges and must last the lifetime of the individual and unlike other tissue is unable to heal or repair itself. Understanding the factors controlling the amazing mechanical pr ....Biomimetic Insights from Enamel: A Nano-mechanical and Nano-structural Investigation of a Natural Ceramic-like Biocomposite. Enamel is a naturally developed example of an optimised material structure that constitutes the hardest tissue in the human body. In addition it is exposed to severe mechanical and environmental challenges and must last the lifetime of the individual and unlike other tissue is unable to heal or repair itself. Understanding the factors controlling the amazing mechanical properties of this tissue will be of great benefit for the design of bio-inspired materials and be important for the development of advanced materials for which Australia already has an enviable reputation.Read moreRead less
Solid-phase synthesis of sulfopeptides for evaluation of chemokine-receptor recognition. This research program will develop new chemical methods for preparing biologically active molecules that contain sulphate. These molecules have important functions in controlling blood clotting, hormone activity, immune responses, and AIDS or malarial infection. The new chemical methods will be used to study the interactions of two groups of proteins that control the movement of white blood cells in inflamma ....Solid-phase synthesis of sulfopeptides for evaluation of chemokine-receptor recognition. This research program will develop new chemical methods for preparing biologically active molecules that contain sulphate. These molecules have important functions in controlling blood clotting, hormone activity, immune responses, and AIDS or malarial infection. The new chemical methods will be used to study the interactions of two groups of proteins that control the movement of white blood cells in inflammatory responses. The research will provide insights into the biochemistry of inflammation and will contribute to the development of new therapies for diseases affecting young Australians (allergy, asthma, and viral infections) as well as the elderly (atherosclerosis and arthritis).Read moreRead less