Drug Companies, their Patenting Strategies and High-Cost Pharmaceuticals: An Empirical Investigation. Pharmaceuticals are a vital part of clinical services that maintain and improve Australia's health; they are also costly, absorbing a substantial proportion of the national health expenditures. By conferring market protections, the patent system helps the manufacturers of pharmaceuticals to recoup the high costs of research associated with developing new products. Abuses of the patent system by ....Drug Companies, their Patenting Strategies and High-Cost Pharmaceuticals: An Empirical Investigation. Pharmaceuticals are a vital part of clinical services that maintain and improve Australia's health; they are also costly, absorbing a substantial proportion of the national health expenditures. By conferring market protections, the patent system helps the manufacturers of pharmaceuticals to recoup the high costs of research associated with developing new products. Abuses of the patent system by pharmaceutical manufacturers have the potential to stifle competition and inappropriately raise the costs of pharmaceuticals to society. This innovative, cross-disciplinary, research will investigate the existence of abusive patents and, if necessary, propose reforms that will prevent further abuse and reduce the size of the health budget. Read moreRead less
Tumour localisation and enhancement of anthracycline anticancer activity. The anthracyclines are one of the most widely used anticancer agents today. If the cytotoxicity of these agents can be localised to tumour cells, or their activity improved, then this will result in improved response rates, less side-effects and an improved quality of life for many patients for whom anthracycline treatment is an important part of their therapy. This will result in enormous national/community benefit to an ....Tumour localisation and enhancement of anthracycline anticancer activity. The anthracyclines are one of the most widely used anticancer agents today. If the cytotoxicity of these agents can be localised to tumour cells, or their activity improved, then this will result in improved response rates, less side-effects and an improved quality of life for many patients for whom anthracycline treatment is an important part of their therapy. This will result in enormous national/community benefit to an aging Australian population that is becoming increasingly more prone to cancer. Read moreRead less
Anticancer drug development: Enhancing the anticancer activity of mitoxantrone. Many cancer sufferers may benefit from this work if we are able to develop more active derivatives of mitoxantrone, or develop procedures to inhibit the repair of DNA lesions induced by mitoxantrone. This may result in therapies with improved response, reduced drug dosage and/or reduced side-effects. Because this work may result in one or more patents, and possibly commercialisation with Australian (and overseas) pha ....Anticancer drug development: Enhancing the anticancer activity of mitoxantrone. Many cancer sufferers may benefit from this work if we are able to develop more active derivatives of mitoxantrone, or develop procedures to inhibit the repair of DNA lesions induced by mitoxantrone. This may result in therapies with improved response, reduced drug dosage and/or reduced side-effects. Because this work may result in one or more patents, and possibly commercialisation with Australian (and overseas) pharmaceutical companies, there are potential commercial benefits to Australia. The "discovery" aspect of this work may also identify other cellular responses to mitoxantrone (ie specific genes which are re-expressed) and this may also reveal new targets to further enhance the activity of this drug.Read moreRead less
Molecular basis for the synergistic potentiation of anthracycline anticancer agents by formaldehyde-releasing prodrugs. AIMS: The overall aim is to develop a full understanding of the molecular basis for the synergistic activation of Adriamycin (and other anthracycline anticancer agents) by formaldehyde-releasing prodrugs such as AN-9.
SIGNIFICANCE: Because Adriamycin is currently one of the most widely used anticancer agents, and this activity has the potential to be dramatically enhanced by t ....Molecular basis for the synergistic potentiation of anthracycline anticancer agents by formaldehyde-releasing prodrugs. AIMS: The overall aim is to develop a full understanding of the molecular basis for the synergistic activation of Adriamycin (and other anthracycline anticancer agents) by formaldehyde-releasing prodrugs such as AN-9.
SIGNIFICANCE: Because Adriamycin is currently one of the most widely used anticancer agents, and this activity has the potential to be dramatically enhanced by the concurrent use of formaldehyde-releasing prodrugs, a biochemical understanding of these processes will provide the basis to exploit this synergy to provide improved treatment outcomes (eg, lower drug doses,reduced side-effects, improved activity against drug-resistanct tumours etc).
EXPECTED OUTCOMES: The long-term outcome of this project is commercialisation to develop products for clinical use based on this synergy (eg, drug/prodrug combinations) and ultimately the development of tumour-directed therapy to yield a tumour-localised anticancer response.Read moreRead less
Understanding the cardioprotective effects of flavonols. Heart attack and stroke are a major cause of death and disablement in Australia. Current therapies do not treat the underlying causes of these diseases. In this project we will investigate a promising new drug treatment for these diseases and will determine how this poorly understood drug acts to reduce damage to the heart. This project will lead to new treatments for cardiovascular diseases and will enhance our understanding of the causes ....Understanding the cardioprotective effects of flavonols. Heart attack and stroke are a major cause of death and disablement in Australia. Current therapies do not treat the underlying causes of these diseases. In this project we will investigate a promising new drug treatment for these diseases and will determine how this poorly understood drug acts to reduce damage to the heart. This project will lead to new treatments for cardiovascular diseases and will enhance our understanding of the causes of these disease states.Read moreRead less
Towards safe care and consumer engagement: addressing the complexities of communication processes for managing medications in hospitals. Ineffective communication is the most common cause of medication problems in Australia. This study focuses on how health professionals of various disciplines including medicine, pharmacy and nursing communicate with each other about medications. Integral involvement of consumers and family members will ensure that health and social outcomes are considered from ....Towards safe care and consumer engagement: addressing the complexities of communication processes for managing medications in hospitals. Ineffective communication is the most common cause of medication problems in Australia. This study focuses on how health professionals of various disciplines including medicine, pharmacy and nursing communicate with each other about medications. Integral involvement of consumers and family members will ensure that health and social outcomes are considered from different perspectives, which are therefore likely to be successful. Examination of communication processes will help lead to safe care and consumer involvement. The unique knowledge obtained will inform policies in various clinical settings and identify strategies for better communication. Health professionals and consumers can adopt these strategies to improve medication safety. Read moreRead less
Structural studies on the mitochondrial protein import machinery. Proteins transported across biological membranes are generally synthesized as precursors with signal sequences. These signal sequences are decoded by one of a number of membrane-specific protein transport machinery, but how this decoding occurs is largely unknown. This proposal aims to understand the structural basis of protein import into the mitochondrion, a poorly understood biological process. This study will enhance signif ....Structural studies on the mitochondrial protein import machinery. Proteins transported across biological membranes are generally synthesized as precursors with signal sequences. These signal sequences are decoded by one of a number of membrane-specific protein transport machinery, but how this decoding occurs is largely unknown. This proposal aims to understand the structural basis of protein import into the mitochondrion, a poorly understood biological process. This study will enhance significantly our understanding of mitochondrial biology, and will also have ramifications for other areas of protein transport.Read moreRead less
Guanylate cyclases - an expanding family critical in plant growth and development. The enzyme guanylate cyclase (GC) forms an important signalling molecule. We have identified unique GC molecules from higher plants. We shall use strategic basic research to determine the biological importance of these novel molecules in plant growth and development. We have formed an international team to achieve these goals and also to develop strong scientific links between Australia and other countries such as ....Guanylate cyclases - an expanding family critical in plant growth and development. The enzyme guanylate cyclase (GC) forms an important signalling molecule. We have identified unique GC molecules from higher plants. We shall use strategic basic research to determine the biological importance of these novel molecules in plant growth and development. We have formed an international team to achieve these goals and also to develop strong scientific links between Australia and other countries such as South Africa. The outcomes will provide new insight into the biological function of the novel GCs. Consequently, the new knowledge is critical to the development of novel biotechnological approaches to benefit sustainable agriculture in Australia.Read moreRead less
Regulation of the actin cytoskeleton by LIM kinase 2. Because the regulation of actin cytoskeleton is essential for many cellular processes including cell motility and the normal function of neurons, it is of great importance to understand its regulation. Elucidation of the molecular and biological mechanisms underlying the actin cytoskeleton including cell motility may enable the identification of novel therapeutic targets for the treatment of diseases such as cancer metastasis, Alzheimer disea ....Regulation of the actin cytoskeleton by LIM kinase 2. Because the regulation of actin cytoskeleton is essential for many cellular processes including cell motility and the normal function of neurons, it is of great importance to understand its regulation. Elucidation of the molecular and biological mechanisms underlying the actin cytoskeleton including cell motility may enable the identification of novel therapeutic targets for the treatment of diseases such as cancer metastasis, Alzheimer disease (AD) and/or Multiple Sclerosis (MS) in which the regulation of the actin cytoskeleton is affected.
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Analysis of the Role of Snapin in the Regulation of SNARE Complex Assembly. The aims of the proposed studies are to investigate the role played by a protein, snapin in the trafficking of membranes and cargo proteins between different compartments inside mammalian cells. Membrane trafficking is a fundamental cellular process that requires a family of related molecules termed SNARES. We have recently discovered that snapin interacts with certain members of the SNARE family, implying a critical rol ....Analysis of the Role of Snapin in the Regulation of SNARE Complex Assembly. The aims of the proposed studies are to investigate the role played by a protein, snapin in the trafficking of membranes and cargo proteins between different compartments inside mammalian cells. Membrane trafficking is a fundamental cellular process that requires a family of related molecules termed SNARES. We have recently discovered that snapin interacts with certain members of the SNARE family, implying a critical role in membrane trafficking. The proposed studies will provide important new insights into the molecular mechanisms underlying the function of both snapin and SNAREs, and membrane trafficking in general.Read moreRead less