How Does Fra-1 Regulate The Invasive Properties Of Tumour Cells?
Funder
National Health and Medical Research Council
Funding Amount
$468,119.00
Summary
Most cancer deaths occur when tumours spread and destroy vital body functions. The invasion of tumour cells into surrounding tissue is a critical step during the spread of cancer. This project aims to unravel the molecular mechanisms that control the ability of tumour cells to invade into surrounding tissue and subsequently spread to other sites in the body. We expect to identify potential targets to better diagnose and treat the spread of cancer.
Statistical Methods For Identifying Structural Variation In Tumour Genomes Using Next Generation Sequencing
Funder
National Health and Medical Research Council
Funding Amount
$243,458.00
Summary
New DNA sequencing technology can sequence a tumour genome affordably in 2 weeks. This re-sequencing data can be used to find small mutations and large-scale chromosomal rearrangements that together are the drivers of cancer. These may one day be used to guide cancer therapy. This project will develop new algorithms for finding mutations and apply these to discover the genetic basis of drug resistance in a model lymphoma system.
Regulation Of Actin Polymerization During Malaria Parasite Invasion Of The Human Erythrocyte
Funder
National Health and Medical Research Council
Funding Amount
$318,147.00
Summary
Malaria parasites depend on successful invasion of red blood cells for their survival. Invasion is powered by a molecular motor based on two key proteins: actin and myosin. Non-specific drugs that inhibit parasite actin block invasion, demonstrating how important its regulation is to parasite success. This project will study several newly identified malaria actin-regulators, aiming to identify new drug targets that will block malaria actin function, stop motility and as such prevent disease.
Investigating Cytoskeletal Dynamics Across The Lifecycle Of The Malaria Parasite
Funder
National Health and Medical Research Council
Funding Amount
$387,741.00
Summary
During its lifecycle the malaria parasite must cross tissues and invade cells in two very different hosts - humans and mosquitos. Although the molecules that drive this process are known, we know nothing about their dynamics in live parasites. Here, we will use state-of-the art microscopy and genetics to dissect parasite motility, tracking proteins in the parasite cell on their journey from human host through to the mosquito - utilising the first Australian malaria-dedicated insectary.
Dissecting The Pseudoexfoliation Syndrome With Complementary Genetic, Proteomic And Biophysical Strategies
Funder
National Health and Medical Research Council
Funding Amount
$490,352.00
Summary
Pseudoexfoliation syndrome (PEX) is an eye condition in which flaky material deposits in the eye, greatly increasing the risk of cataract and glaucoma which can lead to blindness. PEX is also associated with heart disease, strokes and aneurysms. Cataract surgery in PEX patients has a higher rate of complications. In this project we will determine the nature of PEX material and why it forms. This knowlege will facilitate better diagnosis and treatment of PEX preventing associated blindness.
Understanding Virulence In Staphylococcus Aureus And Impacts On Host Response
Funder
National Health and Medical Research Council
Funding Amount
$574,890.00
Summary
Golden Staph remains an important cause of serious infections in Australian patients. New strategies to combat this disease require a better understanding of how Golden Staph causes disease and escapes the natural human response to infection. This study will provide new insights into how Golden Staph causes disease, and provide a platform for developing new strategies to prevent and treat Golden Staph infections.
One of the current challenges in public health is to translate the progress from the Human Genome Project into reduced morbidity and mortality from disease. Once genetic defects are characterised, knowledge about the variability in severity of disease in mutation carriers, is important from a public health perspective. Hereditary Haemochromatosis (HH) is a common genetic disorder of iron overload that results in a wide spectrum of disease, varying from non-specific symptoms to severe damage to l ....One of the current challenges in public health is to translate the progress from the Human Genome Project into reduced morbidity and mortality from disease. Once genetic defects are characterised, knowledge about the variability in severity of disease in mutation carriers, is important from a public health perspective. Hereditary Haemochromatosis (HH) is a common genetic disorder of iron overload that results in a wide spectrum of disease, varying from non-specific symptoms to severe damage to liver, heart, pancreas and joints from iron deposition. It is easily treatable by regular blood donation, and population-based screening for HH has therefore been advocated. In this study we aim to address gaps in the existing data on HH regarding dietary and lifestyle factors that contribute to the variable clinical picture of HH. The study will be based on the Melbourne Collaborative Cohort Study, a cohort of 31,500 men and women who have been followed for approximately 10 years. Information on dietary and lifestyle factors was collected at initial enrollment, along with a blood specimen. We will test all non-Southern European participants (31,176) for the common HH mutations in the HFE gene and then select a subgroup of 1150 people, including all people with the main genetic defect as well as a comparison group, for further clinical followup. Participants will have genetic counselling and informed consent will be obtained. Participants will complete a short questionnaire and give a blood sample for measurement of iron overload, liver function, and other relevant blood tests, then undergo a brief clinical examination. Results of all tests will be given at a followup visit by genetic counsellor or physician. This study will provide important data on natural history of HH risk factors that influence variability in clinical presentation and the association of HFE mutations with chronic diseases and all cause mortality.Read moreRead less
A Study Of The Molecular Epidemiology And Virulence Determinants Of Enterovirus 71 Strains From The Asia-Pacific Region
Funder
National Health and Medical Research Council
Funding Amount
$286,325.00
Summary
In this study, we aim to understand the reasons for the emergence of epidemics of severe neurological disease due to enterovirus 71 (EV71) in young children of the Asia-Pacific region since 1997, and to develop strategies for disease prevention. EV71 is a human enterovirus closely related to the polioviruses. Most infections with EV71 are trivial, however, they may occasionally result in severe disease, including brainstem encephalitis with a high mortality and acute flaccid paralysis similar to ....In this study, we aim to understand the reasons for the emergence of epidemics of severe neurological disease due to enterovirus 71 (EV71) in young children of the Asia-Pacific region since 1997, and to develop strategies for disease prevention. EV71 is a human enterovirus closely related to the polioviruses. Most infections with EV71 are trivial, however, they may occasionally result in severe disease, including brainstem encephalitis with a high mortality and acute flaccid paralysis similar to poliomyelitis. There has been a large increase in EV71 epidemic activity throughout the Asia-Pacific region since 1997, including a large epidemic in Perth, Western Australia in 1999. These epidemics have resulted in many deaths and cases of severe neurological disability. In view of the severity of EV71 neurological disease and the lack of effective treatments, our research effort needs to focus on prevention through public health surveillance and vaccine development. The major aims of our study are two-fold: 1. To study the origin and evolution of EV71 in the Asia-Pacific region using molecular techniques and to use this information to implement surveillance in Australia and Southeast Asia. It is anticipated that improved surveillance will provide early warning of impending epidemics. 2. To understand the molecular basis of virulence of EV71, with emphasis on the ability of virus to cause severe disease of the central nervous system. This study will have two goals: a. To identify the human cellular receptor of EV71. The ultimate goal of this research will be the development of a small animal model of EV71 encephalitis by constructing a transgenic mouse expressing the human cellular receptor for EV71. b. To construct an infectious cDNA clone of EV71 and to develop genetically defined attenuated strains by mutagenesis of the infectious clone. Mutant strains of EV71 will be tested for replication and virulence in newborn mice and in human neuroblastoma cells.Read moreRead less
Dissemination And Virulence Properties Of The She Pathogenicity Island Of Shigella Flexneri.
Funder
National Health and Medical Research Council
Funding Amount
$110,625.00
Summary
Bacterial species belonging to the genus Shigella are responsible for intestinal diseases ranging from mild diarrhoea to life threatening bacillary dysentery. Such diseases kill over a million people, mainly infants in developing countries, every year and lead to serious morbidity and mortality even in industrialised countries with well developed health care systems. In many cases the virulence of Shigella species is augmented by large fragments of DNA, called pathogenicity islands, that carry g ....Bacterial species belonging to the genus Shigella are responsible for intestinal diseases ranging from mild diarrhoea to life threatening bacillary dysentery. Such diseases kill over a million people, mainly infants in developing countries, every year and lead to serious morbidity and mortality even in industrialised countries with well developed health care systems. In many cases the virulence of Shigella species is augmented by large fragments of DNA, called pathogenicity islands, that carry genes which contribute to the development of disease (pathogenesis) in humans. Pathogenicity islands are important genetic elements which appear to spread independantly throughout bacterial populations and therefore contribute to the emergence of new virulence traits in bacteria. Recently, we identified two related pathogenicity islands carried by both Shigella flexneri and other species of the genus Shigella. The two pathogenicity islands belong to a unique class of genetic elements found in Shigella species and virulent strains of the intestinal bacterium E. coli. Our current study is aimed at (1) understanding the mechanisms by which one of these islands, the she pathogenicity island, spreads from one bacterial strain to another to introduce disease-producing or virulence genes to new bacteria and (2) to study how the sigA virulence gene, carried on the she pathogenicity island, contributes to disease development in humans. We know that sigA encodes a protein toxin which contributes to the loss of fluid from the intestines of rabbits that have been experimentally infected with Shigella flexneri. We propose to study the structure and function of the SigA protein to determine how it interacts with tissues to produce a pathological state. Such studies will enhance our understanding of the process of disease development and contribute to the investigation and assessment of new strategies for therapeutic intervention.Read moreRead less
Antagonist Of Corticotrophin Releasing Hormone As Therapeutic Agents For The Prevention Of Premature Birth In Humans
Funder
National Health and Medical Research Council
Funding Amount
$376,650.00
Summary
In developed countries the most common cause of the death of a newborn baby is premature delivery. Pre-term delivery remains the greatest cause of neonatal mortality in the western world and a major consumer of health dollars (approx. $5-7B per year in the US alone). However, a delay in the onset of labour from 20 to 25 weeks has been shown to result in a 55% greater probability of infant survival (550 fewer deaths per 1000). This project will allow: The development of new drugs that will allow ....In developed countries the most common cause of the death of a newborn baby is premature delivery. Pre-term delivery remains the greatest cause of neonatal mortality in the western world and a major consumer of health dollars (approx. $5-7B per year in the US alone). However, a delay in the onset of labour from 20 to 25 weeks has been shown to result in a 55% greater probability of infant survival (550 fewer deaths per 1000). This project will allow: The development of new drugs that will allow the extension of pregnancy term The development of protocols that will in turn reduce neonatal mortality. Additionally we believe that these new agents will be useful in preventing the onset of labour after fetal surgery. Currently there are no effective treatments capable of substantially changing delivery dates. Available therapeutics delay the onset of labour, at best, 24 hours. However, recent exciting results from our laboratories show that rising concentrations of the placental peptide Corticotrophin Releasing Hormone (CRH) are associated with the onset of labour. Further, we have also delayed the onset of labour in pregnant sheep by infusing a relatively insoluble CRH antagonist into the sheep fetus. Labour commenced ONLY AFTER the drug was withdrawn from the mother. This project builds upon an interdisciplinary team: medicinal chemists, molecular modellers, pharmacologists and endocrinologists, to further develop an exciting Australian discovery. Successful completeion of this research will, for the first time, allow the control of pregnancy duration MAXIMISING the benefits to mother and child, reducing mortality and later life morbidities typically associated with premature birth.Read moreRead less