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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989436
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Multiphoton microscopy of living animals as a tool for immunology and cell biology studies. The multiphoton microscope will enable us to watch the growth, migration and interactions of cells in a living animal in response to changes in the cells' environment will give us better understanding of how we work as living machines, and what can go wrong with that process to make us unwell.
Development of an orally delivered genital herpes vaccine: targeting the reproductive tract using Liporale, a novel lipid-based adjuvant. This project will evaluate the potential of a novel lipid-based adjuvant platform, LiporaleTM, to induce protection against a model sexually transmitted infection, genital herpes, using an orally delivered vaccination approach. Currently 16 per cent of the world's population has been exposed to herpes and there is currently no effective vaccine available.
The Role of RNA interference in the induction of immune responses. Our work will allow us to understand a new means by which to alert the immune system to the presence of cancer cells using a new technology called RNA interference. This will hopefully lead to new investment in biotechnology products based on RNA interference, improved treatments for cancers and better health for Australians
Histone deacetylase functions in immune cells. This project aims to define how an enzyme (a histone deacetylase) enables innate immune cells (macrophages) to respond to specific danger signals, such as those activating Toll-like Receptors. To identify processes that provide specificity to signal transduction pathways, this project will characterise protein targets and biological functions of a specific class IIa histone deacetylase in macrophages. This project expects to result in an understandi ....Histone deacetylase functions in immune cells. This project aims to define how an enzyme (a histone deacetylase) enables innate immune cells (macrophages) to respond to specific danger signals, such as those activating Toll-like Receptors. To identify processes that provide specificity to signal transduction pathways, this project will characterise protein targets and biological functions of a specific class IIa histone deacetylase in macrophages. This project expects to result in an understanding of histone deacetylases and protein deacetylation in immune cell responses which can be harnessed to manipulate cell functions for basic science and biotechnology uses.Read moreRead less
Development of chaperonin 10-based second generation biopharmaceuticals for treatment of inflammatory diseases. Diseases caused by malfunctioning of the body's immune system (inflammatory diseases) such as rheumatoid arthritis, psoriasis and Crohn's disease cause illness in all cultures and societies, and impose financial strain on health care providers. Current treatment relies on biopharmaceuticals that block inflammatory mediators in the body or with pharmaceuticals such as anti-inflammatory ....Development of chaperonin 10-based second generation biopharmaceuticals for treatment of inflammatory diseases. Diseases caused by malfunctioning of the body's immune system (inflammatory diseases) such as rheumatoid arthritis, psoriasis and Crohn's disease cause illness in all cultures and societies, and impose financial strain on health care providers. Current treatment relies on biopharmaceuticals that block inflammatory mediators in the body or with pharmaceuticals such as anti-inflammatory drugs; both these treatments may have serious side effects. Cpn10 suppresses the body's inflammatory response while maintaining immune function to combat infections. The project seeks to develop new, safe and effective biopharmaceuticals based on Cpn10 for the treatment of a variety of chronic inflammatory diseases and autoimmune disorders.Read moreRead less
Characterisation of the anti-inflammatory pathway targeted by chaperonin 10 (Cpn10). Diseases associated with excessive or inappropriate inflammation represent an enormous socioeconomic burden, and there is currently an urgent need to identify new targets for the development of more efficacious and safe treatments. This research seeks to provide such targets. The research may also lead to improvements in chaperonin 10 (Cpn10) treatment, which has already showing marked success in chronic inflamm ....Characterisation of the anti-inflammatory pathway targeted by chaperonin 10 (Cpn10). Diseases associated with excessive or inappropriate inflammation represent an enormous socioeconomic burden, and there is currently an urgent need to identify new targets for the development of more efficacious and safe treatments. This research seeks to provide such targets. The research may also lead to improvements in chaperonin 10 (Cpn10) treatment, which has already showing marked success in chronic inflammatory disease trials. Importantly, Cpn10 appears to be anti-inflammatory rather than immunosuppressive; a critical advantage over many current anti-inflammatory interventions. Immunosuppression can lead to increased infections, which can have serious consequences, especially in elderly patients.Read moreRead less
Development of an effective vaccine for chlamydial infection: optimisation of a non-toxic cholera toxin-based adjuvant to generate a protective mucosal response. Chlamydial genital infections are the most common sexually transmitted infection in Australia and the world and impose a major health burden on the community. Chlamydial infections are also associated with cardiovascular disease, Australia's biggest killer and asthma, another condition that has increased significantly in prevalence in t ....Development of an effective vaccine for chlamydial infection: optimisation of a non-toxic cholera toxin-based adjuvant to generate a protective mucosal response. Chlamydial genital infections are the most common sexually transmitted infection in Australia and the world and impose a major health burden on the community. Chlamydial infections are also associated with cardiovascular disease, Australia's biggest killer and asthma, another condition that has increased significantly in prevalence in the past 10 years. This project will evaluate the effectiveness of a new adjuvant as a first step towards the development of a vaccine to target these important infections.Read moreRead less
Foreign DNA is a danger signal for mammalian cells. This project investigates how cells normally respond to foreign DNA, and is relevant to understanding how the body fights infections, particularly by viruses. The results will help us to design more effective treatments for infectious disease. Studying responses to DNA will also promote the design of new treatments for the autoimmune disease lupus, and help improve technologies or treatments where DNA is introduced into cells or tissues. This ....Foreign DNA is a danger signal for mammalian cells. This project investigates how cells normally respond to foreign DNA, and is relevant to understanding how the body fights infections, particularly by viruses. The results will help us to design more effective treatments for infectious disease. Studying responses to DNA will also promote the design of new treatments for the autoimmune disease lupus, and help improve technologies or treatments where DNA is introduced into cells or tissues. This includes gene therapy, new strategies for vaccination, and the production of proteins as drugs by biotechnology. The project will promote National Research Priorities in the areas of preventative healthcare, ageing well ageing productively, breakthrough science and new technologies.Read moreRead less
Toll-like receptors in infectious and inflammatory diseases: the double-edged sword of innate immunity. The innate immune system is the first line of defence against invading microorganisms. This project will explore the role of specific innate immune genes in the control of infections and the development of inflammatory diseases.
Inflammasomes: molecular drivers of anti-microbial defence. The innate immune system is the body’s first line of defence against infection, but also drives unhealthy inflammation. Families of innate immune receptors, such as nucleotide-binding oligomerisation domain (NOD-like Receptors), were recently discovered to control both anti-microbial defence and unhealthy inflammation. This project will characterise the basic biology of NOD-like Receptors at the molecular, cellular and organismal levels ....Inflammasomes: molecular drivers of anti-microbial defence. The innate immune system is the body’s first line of defence against infection, but also drives unhealthy inflammation. Families of innate immune receptors, such as nucleotide-binding oligomerisation domain (NOD-like Receptors), were recently discovered to control both anti-microbial defence and unhealthy inflammation. This project will characterise the basic biology of NOD-like Receptors at the molecular, cellular and organismal levels, and will thereby lead to a greater understanding of the fundamental biological pathways controlling inflammation and defence against infection. This may ultimately lead to commercial opportunities for treating infection and chronic inflammation.Read moreRead less