Control Of Cell Proliferation And Differentiation In Breast And Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$5,043,011.00
Summary
Breast and prostate cancer are the most commonly diagnosed cancers in women and men respectively, together accounting for >25% of all newly diagnosed cancers in Australia and other developed countries. Although significant improvements in the management of these cancers have occurred in the past 20 years further research is needed to better understand the molecular mechanisms of disease development and progression. Such research is critical to the better management and ultimate control of the ....Breast and prostate cancer are the most commonly diagnosed cancers in women and men respectively, together accounting for >25% of all newly diagnosed cancers in Australia and other developed countries. Although significant improvements in the management of these cancers have occurred in the past 20 years further research is needed to better understand the molecular mechanisms of disease development and progression. Such research is critical to the better management and ultimate control of these diseases through better treatments and prevention. A multidisciplinary team of cancer researchers at the Garvan Institute of Medical Research, with a 10 year track record of discovery and application of their research into breast and prostate cancer, will employ state-of-the-art research tools to identify new molecules and molecular pathways involved in these diseases. This new information will facilitate the improved management of these cancers through improved assessment of disease progression at the time of diagnosis and the development of new drugs and strategies for treatment and prevention.Read moreRead less
Proteases, Their Inhibitors And Receptors In Degenerative Disease
Funder
National Health and Medical Research Council
Funding Amount
$5,843,388.00
Summary
Many of the themes of this program are aimed at understanding the molecular basis of several important degenerative diseases that in particular affect the ageing population. These include osteoporosis, arthritis, periodontal disease, wasting diseases of muscle and inherited disorders such as antitrypsin deficiency. The five CI’s on this application have formed a collaborative network since 1996. Dr Whisstock is a bioinformatician and structural biologist with a research focus on the serpin super ....Many of the themes of this program are aimed at understanding the molecular basis of several important degenerative diseases that in particular affect the ageing population. These include osteoporosis, arthritis, periodontal disease, wasting diseases of muscle and inherited disorders such as antitrypsin deficiency. The five CI’s on this application have formed a collaborative network since 1996. Dr Whisstock is a bioinformatician and structural biologist with a research focus on the serpin superfamily of protease inhibitors and their protease partners. He is currently the scientific director of the Victorian Bioinformatics Consortium and an NHMRC Senior Research Fellow. Dr Bird is an NHMRC Senior Research Fellow who discovered the intracellular branch of the serpin superfamily and formulated the hypothesis that describes their function. A-Prof Mackie is a world expert in the field of musculoskeletal biology and pathology. Dr Bottomley is a Senior Logan Fellow and RD Wright Fellow whose research focuses upon how proteins misfold and lead to disease. Dr Pike is an enzymologist whose research area encompasses a wide range of bacterial and mammalian proteases involved in the pathology of human disease. Each individual in this team brings different skills which makes this a very important and powerful collaboration. The research is extensive and involves protein folding, enzyme kinetics, molecular modelling, structural biology, bioinformatics, cell biology and pathology, enzyme kinetics and drug design. Collectively the CI’s have a total of 154 papers since 1998, of which a third include two or more of the CI’s as co-authors. Currently the team holds over >$5 million in grant funding. The team is augmented by four P.I.s: Dr Buckle is a talented structural biologist; Dr Scott is a molecular cell biologist who holds an NHMRC CJ Martin Fellow; Dr Garcia de la Banda is a computer scientist based at Monash and Dr Grigoryev is a world expert in chromatin condensation based at Penn State University (USA).Read moreRead less
This established team of investigators will research into the molecular control of white blood cell formation and function, using a multidisciplinary, team approach to fundamental biological questions with a focus on potential clinical and commercial outcomes. The team will also attempt to identify new validated targets for therapeutic intervention by using both forward and reverse genetic approaches in mice coupled with complete phenotypic analyses of the blood cell system.
A major obstacle to the development of safer and more effective pain treatments is the poorly defined nature of the different pathways involved in chronic pain. The applicant team bring together a unique set of research expertise in using neurotoxins to define, at the molecular level, how the nervous system functions. The applicants also share a common interest in understanding and improving treatments for pain, especially chronic pain which continues to remain poorly managed Through a focus on ....A major obstacle to the development of safer and more effective pain treatments is the poorly defined nature of the different pathways involved in chronic pain. The applicant team bring together a unique set of research expertise in using neurotoxins to define, at the molecular level, how the nervous system functions. The applicants also share a common interest in understanding and improving treatments for pain, especially chronic pain which continues to remain poorly managed Through a focus on pain research, the Program will significantly enhance the scope of existing multidisciplinary collaborations between the Cis Lewis Alewood, Adams and Christie, which have already made a considerable impact in the fields of pharmacology and neuroscience. The CIs also have considerable experience in the development of pain therapeutics, having discovered two conopeptides now under commercial development with AMRAD (AM336) and Xenome Ltd (Xen2174). This Program will discover and use highly selective conopeptides such as these to dissect the pharmacology of peripheral pain pathways and their projections into the central nervous system, and to identify and characterise new targets amenable to drug intervention. The long-term goal of the Program is to discover new targets in pain pathways and develop conopeptides that act on these targets in animal models of chronic pain. These molecules will be optimised within the Program to the point where they can be considered for pre-clinical development in collaboration with commercial partners.Read moreRead less