Controlling the adhesome to regulate cell fate on biomaterials. Mesenchymal stem cell-based tissue engineering practices are hampered worldwide by the lack of appreciation and understanding of the matrix-mediated cues that must be provided during adhesion and spreading to drive cells to definitive tissue end points. This project will address these knowledge deficiencies by combining high throughput array technologies, a set of tailorable self-assembling biomaterials and real-time biosensors to r ....Controlling the adhesome to regulate cell fate on biomaterials. Mesenchymal stem cell-based tissue engineering practices are hampered worldwide by the lack of appreciation and understanding of the matrix-mediated cues that must be provided during adhesion and spreading to drive cells to definitive tissue end points. This project will address these knowledge deficiencies by combining high throughput array technologies, a set of tailorable self-assembling biomaterials and real-time biosensors to rapidly, at high resolution, elucidate how mechanotransductive cues determine the fate choice of mesenchymal stem cells, and furthermore, how to manipulate them with smart biomaterial design to achieve desired outcomes for tissue engineering. Read moreRead less
Functional Nano-cement Scaffolds For The Treatment Of Osteoporotic Bone Defects
Funder
National Health and Medical Research Council
Funding Amount
$408,768.00
Summary
Osteoporosis affects 1.2 million Australians and will cost $33.6 billion by 2022. This study aims to develop a novel nano-cement platform for custom-designed bone repair in osteoporosis, by using purpose-designed nanomaterials and advanced 3D printing technique. The research findings will lead to the development of a new bone repair strategy, expand knowledge on both biomaterials engineering and osteoporosis treatment, and improve the quality of life of Australians.
Discovery Early Career Researcher Award - Grant ID: DE130100986
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
An innovative platform using non-coding ribonucleic acids (RNAs) to control stem cell differentiation outcomes. It is difficult to control the tissue type that stem cells will form when combined with biomaterials, as the outcome is influenced by the 'stiffness' of the surface to which the stem cells attach. This project will determine how non-coding ribonucleic acids (RNAs) control stem cell behaviours and use this information to direct stem cell differentiation outcomes.
Glycointeractions. This project aims to characterise two new classes of structural interactions with carbohydrates: carbohydrate-carbohydrate interactions and short alpha helical domains which can bind carbohydrates. Carbohydrate structures are found on the surface of cells in all forms of life. The intended outcome is to understand the molecular basis for these carbohydrate interactions. This information should provide an intellectual framework for understanding and manipulating these carbohydr ....Glycointeractions. This project aims to characterise two new classes of structural interactions with carbohydrates: carbohydrate-carbohydrate interactions and short alpha helical domains which can bind carbohydrates. Carbohydrate structures are found on the surface of cells in all forms of life. The intended outcome is to understand the molecular basis for these carbohydrate interactions. This information should provide an intellectual framework for understanding and manipulating these carbohydrate interactions, which underpin many processes in biological systems. The findings will inform the design of future drugs to block these interactions and will generate new tools for glycoscience.Read moreRead less
What is killing the honeybees? The role of RNA viruses. This project aims to determine if the Varroa mite, the most important parasite of honeybees, selects for virulent strains of RNA viruses. Before Varroa’s inevitable arrival in Australia, this project will disentangle the effect of Varroa and the bees’ immune system on the evolution of virulence of bee viruses. Australia’s honeybees are Varroa-naïve and don’t carry virulent viruses. There is a known association between Varroa and colonies dy ....What is killing the honeybees? The role of RNA viruses. This project aims to determine if the Varroa mite, the most important parasite of honeybees, selects for virulent strains of RNA viruses. Before Varroa’s inevitable arrival in Australia, this project will disentangle the effect of Varroa and the bees’ immune system on the evolution of virulence of bee viruses. Australia’s honeybees are Varroa-naïve and don’t carry virulent viruses. There is a known association between Varroa and colonies dying from viruses; however, it is not known what is cause and effect. This project will clarify Varroa’s exact role in the evolution of virulence in RNA viruses. The intended outcome is increased knowledge allowing the design of an effective treatment to prevent the death of honeybee colonies.Read moreRead less
Role Of Hepatic Stellate Cell And Liver Progenitor Cell Interactions In The Regulation Of Wound Healing And Liver Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$620,716.00
Summary
The liver has a remarkable capacity for regeneration following acute and chronic liver injury, however, the mechanisms which facilitate this wound healing are not understood. This project will examine the interactions between different liver cell populations, including hepatic stellate cells (liver fibroblasts) and liver progenitor cells (stem cells of the liver) and will determine which factors regulate inflammation, liver scarring and restitution of liver mass following chronic liver injury.
Control of actin assembly by cell-cell adhesion: molecular effectors and higher order function. Functional cooperation between the actin cytoskeleton and cadherin cell-cell adhesion molecules plays critical roles during development and morphogenesis. This proposal builds on my lab's recent discovery that E-cadherin interacts with and regulates the Arp2/3 actin nucleator complex, a central determinant of actin assembly in cells. We will explore key implications of this finding, concentrating on d ....Control of actin assembly by cell-cell adhesion: molecular effectors and higher order function. Functional cooperation between the actin cytoskeleton and cadherin cell-cell adhesion molecules plays critical roles during development and morphogenesis. This proposal builds on my lab's recent discovery that E-cadherin interacts with and regulates the Arp2/3 actin nucleator complex, a central determinant of actin assembly in cells. We will explore key implications of this finding, concentrating on defining the molecular mechanisms that regulate Arp2/3 and actin assembly in cadherin-based adhesion. Our work combines molecular characterization of regulatory mechanisms and proteomic searches for new regulators, with tests of the higher-order function of this novel process in cell adhesion and recognition.Read moreRead less
Evolution And Function Of A Novel Lateral Flagellar Locus, Flag-2, In Pathogenic Escherichia Coli
Funder
National Health and Medical Research Council
Funding Amount
$465,158.00
Summary
This project will study how the bacteria that cause infant diarrhoea colonize the intestine and induce disease. We have identified a novel genetic region that allows E. coli to survive and persist in the intestine. Similar genes are also present in closely related organisms. This project will help us to undestand how new diseases evolve and emerge and may lead to the development of new vaccines to protect against infant diarrhoea.
Balancing cadherin-actin cooperation: the key regulatory role of Ena/VASP proteins. This project analyses a fundamental mechanism of how cells work together in tissues. Understanding the fundamental mechanisms of how cells work will provide important basic scientific information to enrich the scientific expertise in Australia and its part in the international community, generate insights relevant for understanding human disease and physical degeneration, and support the training of young scienti ....Balancing cadherin-actin cooperation: the key regulatory role of Ena/VASP proteins. This project analyses a fundamental mechanism of how cells work together in tissues. Understanding the fundamental mechanisms of how cells work will provide important basic scientific information to enrich the scientific expertise in Australia and its part in the international community, generate insights relevant for understanding human disease and physical degeneration, and support the training of young scientists in Australia.Read moreRead less