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Development of a prime-boost anti-cancer vaccine. New vaccination strategies are urgently needed for a variety of diseases, including cancer. The problem with cancer vaccines is that it is difficult to trigger a response to a self protein. We propose that a prime-boost vaccination, using yellow fever virus and modified vaccinia virus ankara, could create very strong responses against tumor antigens. This approach can be patented and can revive that field of tumor vaccination, which is currently ....Development of a prime-boost anti-cancer vaccine. New vaccination strategies are urgently needed for a variety of diseases, including cancer. The problem with cancer vaccines is that it is difficult to trigger a response to a self protein. We propose that a prime-boost vaccination, using yellow fever virus and modified vaccinia virus ankara, could create very strong responses against tumor antigens. This approach can be patented and can revive that field of tumor vaccination, which is currently restrained by the difficulty of breaking immunological tolerance. We envisage the construction of a anti-cancer vaccine vector with obvious market potential. An exciting prospect is that this approach could be used as a prophylactic vaccine and possibly also as a therapeutic vaccine.Read moreRead less
Development and Evaluation of Well-Defined Polymer-RNA Conjugates as Improved Therapeutics. Gene-based drugs offer an enormous potential to treat a wide range of diseases including, but not limited to, AIDS, hepatitis, and cancer. However, effective delivery of these drugs in body is needed to convert their therapeutic potential to clinically applicable treatments. Our multidisciplinary team will aim to develop novel, polymer-gene hybrid materials for efficient delivery of gene based therapeuti ....Development and Evaluation of Well-Defined Polymer-RNA Conjugates as Improved Therapeutics. Gene-based drugs offer an enormous potential to treat a wide range of diseases including, but not limited to, AIDS, hepatitis, and cancer. However, effective delivery of these drugs in body is needed to convert their therapeutic potential to clinically applicable treatments. Our multidisciplinary team will aim to develop novel, polymer-gene hybrid materials for efficient delivery of gene based therapeutics. Development of such advanced drug delivery systems will significantly enhance Australia`s power in biotechnology. Development and/or formation of new materials and strategies to improve the health quality of Australians, is an important anticipated outcome of this innovative project. Read moreRead less
Development of therapeutic agents that target carbonic anhydrase enzymes. This research will discover new chemical entities (compounds) that may lead to therapies for the treatment of cancer, glaucoma and malaria. The research underpins a mechanism to add value to our compounds before partnering with industry to transform the discoveries made here to deliverable therapies that could benefit the health of millions, thus offering a potentially high value contribution to the Australian economy. The ....Development of therapeutic agents that target carbonic anhydrase enzymes. This research will discover new chemical entities (compounds) that may lead to therapies for the treatment of cancer, glaucoma and malaria. The research underpins a mechanism to add value to our compounds before partnering with industry to transform the discoveries made here to deliverable therapies that could benefit the health of millions, thus offering a potentially high value contribution to the Australian economy. The experience and commitment of the multi-disciplinary network of researchers offers exceptional training and employment opportunities for tomorrow's scientists in techniques for discovery and characterisation of novel chemicals, and their interaction with disease targets.Read moreRead less
Structure and dynamics of a multiprotein-mRNA complex involved in the regulation of gene expression. RNA/protein interactions are now recognised as a major control point in the regulation of gene-expression. Proteins such as HuR and the poly(C)-binding proteins (PCBPs) act to stabilise and transport specific messenger (m)RNAs, and thus determine their translation levels. In contrast to such an important function, very little is known about these protein/mRNA interactions at an atomic level. The ....Structure and dynamics of a multiprotein-mRNA complex involved in the regulation of gene expression. RNA/protein interactions are now recognised as a major control point in the regulation of gene-expression. Proteins such as HuR and the poly(C)-binding proteins (PCBPs) act to stabilise and transport specific messenger (m)RNAs, and thus determine their translation levels. In contrast to such an important function, very little is known about these protein/mRNA interactions at an atomic level. The current study will investigate the structural and biophysical properties of a recently discovered HuR/PCBP/mRNA complex implicated in the regulation of androgen receptor expression. This information has the potential to assist in the development of drugs to reduce AR expression in prostate cancer.Read moreRead less
Development of Acid Degradable Polymeric Nanoparticles for Intracellular and Tumour Site Selective Delivery of Drugs. There is an enormous need to develop effective anticancer drug delivery systems to reduce the social and economic impact of cancer. One of the most critical problems in tumour treatment is the lack of selective toxicity of anticancer drugs against tumour tissues. Our multidisciplinary team will aim to develop a novel polymer based system for tumour site-selective delivery of anti ....Development of Acid Degradable Polymeric Nanoparticles for Intracellular and Tumour Site Selective Delivery of Drugs. There is an enormous need to develop effective anticancer drug delivery systems to reduce the social and economic impact of cancer. One of the most critical problems in tumour treatment is the lack of selective toxicity of anticancer drugs against tumour tissues. Our multidisciplinary team will aim to develop a novel polymer based system for tumour site-selective delivery of anticancer drugs. Development of such advanced drug delivery systems will significantly enhance Australia`s power in biotechnology. Development and/or formation of strategies to improve the health quality of Australians, is an important anticipated outcome of this innovative project.Read moreRead less
Nanoparticles to combat cellular dysfunction. This project aims to design, synthesise and characterise nanoparticles that can mediate the adverse effects of reactive oxygen species. The project expects to develop nanoparticles with tailored chemical functionality to modulate the concentration of reactive oxygen species and develop a platform technology for addressing conditions where reactive species are overproduced. The project will research how nanoparticles’ physicochemical properties affect ....Nanoparticles to combat cellular dysfunction. This project aims to design, synthesise and characterise nanoparticles that can mediate the adverse effects of reactive oxygen species. The project expects to develop nanoparticles with tailored chemical functionality to modulate the concentration of reactive oxygen species and develop a platform technology for addressing conditions where reactive species are overproduced. The project will research how nanoparticles’ physicochemical properties affect their activity, and how they affect cellular function, tissue morphology and particle transport in a biological milieu. The project is expected to benefit the advanced manufacturing, veterinary and medical sectors and could lead to new chemotherapeutics.Read moreRead less
Work life after a diagnosis of breast, prostate and colorectal cancer: Major disruption or work as usual. Each year, over 40,000 working-age individuals (as well as their families and workplaces) are affected by a diagnosis of cancer. This novel and important study will, for the first time in Australia, identify the extent and effects of loss of skilled workers from the workforce because of a diagnosis of breast, prostate or colorectal cancer and will lead to the development of new interventions ....Work life after a diagnosis of breast, prostate and colorectal cancer: Major disruption or work as usual. Each year, over 40,000 working-age individuals (as well as their families and workplaces) are affected by a diagnosis of cancer. This novel and important study will, for the first time in Australia, identify the extent and effects of loss of skilled workers from the workforce because of a diagnosis of breast, prostate or colorectal cancer and will lead to the development of new interventions that help people to recover from cancer. This project is critical to help advance health and labour policies in Australia which currently faces an ageing population, global economic unrest and rising unemployment.Read moreRead less
Triggering the release of polymer bound platinum drugs. Platinum drugs are found to be highly efficient as anti-cancer drugs. Their side-effects however, limit their application. Nanoparticles are developed that bind the platinum drug tightly as long as the drug circulates in the blood stream, but releases the drug as soon as it reaches the tumour. To treat prostate cancer, the nanoparticle will be attached to a targeting moiety - a monoclonal antibody - that facilitates the effective delivery t ....Triggering the release of polymer bound platinum drugs. Platinum drugs are found to be highly efficient as anti-cancer drugs. Their side-effects however, limit their application. Nanoparticles are developed that bind the platinum drug tightly as long as the drug circulates in the blood stream, but releases the drug as soon as it reaches the tumour. To treat prostate cancer, the nanoparticle will be attached to a targeting moiety - a monoclonal antibody - that facilitates the effective delivery to the prostate cancer cells, but leaves healthy cells unaffected. This proposal aims to develop suitable synthetic pathway to enhance the treatment of cancer by using appropriate delivery vehicles. Read moreRead less
Guarding and evolving the genome: interactions between DNA-repair enzymes and damaged DNA. The application of structural biology techniques to the area of DNA repair allows us to understand the full implications linking genes and proteins to the molecular mechanisms of diseases such as cancer and hereditory conditions. Studies in this highly internationally competitive area are already established in the Bond laboratory, which has recently relocated to Australia. The use of forward-thinking stru ....Guarding and evolving the genome: interactions between DNA-repair enzymes and damaged DNA. The application of structural biology techniques to the area of DNA repair allows us to understand the full implications linking genes and proteins to the molecular mechanisms of diseases such as cancer and hereditory conditions. Studies in this highly internationally competitive area are already established in the Bond laboratory, which has recently relocated to Australia. The use of forward-thinking structural biology approaches to solve difficult technical problems will foster collaborations within Australia and with leading laboratories abroad, providing excellent up-to-date research training for students and postdoctoral researchers.
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Multivalent drug delivery carrier for the targeted delivery of platinum anticancer agents to hepatocytes. Hepatocellular carcinoma (HCC) is often treated with chemotherapy using cytotoxic drugs. This systemic treatment results in the distribution of the drug throughout the body. Employing a polymer particle as a drug carrier for these drugs ensures a temporal control of the release and therefore supply of the drug within the body. By attaching carbohydrate moieties onto the surface of the polyme ....Multivalent drug delivery carrier for the targeted delivery of platinum anticancer agents to hepatocytes. Hepatocellular carcinoma (HCC) is often treated with chemotherapy using cytotoxic drugs. This systemic treatment results in the distribution of the drug throughout the body. Employing a polymer particle as a drug carrier for these drugs ensures a temporal control of the release and therefore supply of the drug within the body. By attaching carbohydrate moieties onto the surface of the polymer particle the drug carrier can specifically be recognized by cell receptors, thus allowing a targeted delivery of the drug to the desired area in the body. A range of carbohydrate-based drug carriers will be synthesized and tested towards their interaction with hepatocytes to allow optimisation of this drug carrier system.
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