While current influenza vaccines blunt winter epidemics, they must be updated frequently to keep up with virus mutation and they do not protect against pandemics caused by new flu viruses (such as bird flu). This program will define how flu virus interacts with the immune system to generate immunity mediated particularly by “killer” T cells. We will use this knowledge to develop and evaluate vaccines that induce long-lasting T-cell immunity that can protect against both seasonal and pandemic flu ....While current influenza vaccines blunt winter epidemics, they must be updated frequently to keep up with virus mutation and they do not protect against pandemics caused by new flu viruses (such as bird flu). This program will define how flu virus interacts with the immune system to generate immunity mediated particularly by “killer” T cells. We will use this knowledge to develop and evaluate vaccines that induce long-lasting T-cell immunity that can protect against both seasonal and pandemic flu.Read moreRead less
Developmental Aspects Of Respiratory Inflammation, Allergy And Asthma
Funder
National Health and Medical Research Council
Funding Amount
$7,169,609.00
Summary
Asthma develops as a complex series of interactions between genetic susceptibility and environmental exposures occurring in early life. While many children grow out of asthma others do not and develop the chronic form of the disease that persists into adult life. Our research involves understanding why some susceptible children develop asthma and why this becomes chronic in some. We will undertake studies in children to find out how and why this occurs. A major part of our studies involve longit ....Asthma develops as a complex series of interactions between genetic susceptibility and environmental exposures occurring in early life. While many children grow out of asthma others do not and develop the chronic form of the disease that persists into adult life. Our research involves understanding why some susceptible children develop asthma and why this becomes chronic in some. We will undertake studies in children to find out how and why this occurs. A major part of our studies involve longitudinal studies in cohorts of children recruited before birth. Having the ability to study children as they grow and develop conditions such as allergies and asthma allows us to understand why these conditions occur and allow us to predict which children are likely to develop them. Our research Program also has a solid focus on Translational Research, in which we will use the findings from our basic science studies to develop and test new methods of preventing and of treating asthma. These studies will include new methods for preventing the development of allergies, preventing the damage done to the lungs by severe viral respiratory infections in early life and better methods of treating established allergic asthma by improving immunotherapy techniques. By its very nature, primary prevention of disease in young children is controversial and raises some interesting questions. As part of this Program we intend to initiate consultation and debate in public, academic, regulatory and industry circles. An important role for our Program is shifting the current emphasis away from treatment of established disease towards preventing disease occurring. This is the best way to decrease the health, social and economic burden of chronic diseases such as asthma.Read moreRead less
The immune system plays an important role in protecting the host from viral and bacterial infections, and inhibits cancer onset and progression. Unfortunately the immune system can sometimes lose specificity and attack the host resulting in autoimmune diseases such as diabetes. This research team has played a vital role in characterising the specific activities of immune cells and the associated factors. By understanding these complex processes the team aims to harness the unique therapeutic pro ....The immune system plays an important role in protecting the host from viral and bacterial infections, and inhibits cancer onset and progression. Unfortunately the immune system can sometimes lose specificity and attack the host resulting in autoimmune diseases such as diabetes. This research team has played a vital role in characterising the specific activities of immune cells and the associated factors. By understanding these complex processes the team aims to harness the unique therapeutic properties of our own immune system and translate their findings into the clinic.Read moreRead less
Regulation Of Neural Cell Production In The Normal And Diseased Brain
Funder
National Health and Medical Research Council
Funding Amount
$6,888,658.00
Summary
Members of this team are at the forefront of research into the molecular control of nerve cell production and function in the developing and adult brain. They were responsible, often through collaboration, for many of the major discoveries demonstrating that stem cells in the brain of adult animals can generate new nerve cells; this revolutionised our concept of the brain and opened-up the possibility of therapeutic repair of neural damage through stimulation of a patient?s own stem cells. Disco ....Members of this team are at the forefront of research into the molecular control of nerve cell production and function in the developing and adult brain. They were responsible, often through collaboration, for many of the major discoveries demonstrating that stem cells in the brain of adult animals can generate new nerve cells; this revolutionised our concept of the brain and opened-up the possibility of therapeutic repair of neural damage through stimulation of a patient?s own stem cells. Discovering the molecular mechanisms controlling this process is the goal of the present program. In order to achieve this aim we have formed a team on the basis of considerable past success, as well as future requirements. The team members have the complementary skills to assess all aspects of the problem, including crucial functional and clinical expertise. By combining resources we will position ourselves at the very forefront of the international competition to discover and to evaluate clinically the molecular mechanisms underlying neural repair and regeneration. This is of enormous significance in determining how we best treat stroke, injury and other neurodegenerative diseases in the next 10 years, and will lead to the development of new therapeutics of immense value. The team will use innovative approaches such as cell-sorting to obtain pure populations of stem cells and their progeny in order to identify new therapeutic targets; these will then be validated in animal models of neurological disease. Since team members have previously been involved in progressing molecular discovery to clinical trials, we are also in a good position to exploit these discoveries in partnership with the biopharmaceutical industry.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.
Interactions Between Adaptable Pathogens, Drugs And The Human Host
Funder
National Health and Medical Research Council
Funding Amount
$5,727,327.00
Summary
The Centre for Clinical Immunology and Biomedical Statistics (CCIBS) represents a collaboration between Royal Perth Hospital and Murdoch University that has brought together internationally recognised expertise in clinical immunology, experimental biology and innovation in biostatistics and computing. These resources have been applied to a broad range of research issues within the broad framework of HIV and hepatitis C disease and treatment. CCIBS has become a leading centre of research excellen ....The Centre for Clinical Immunology and Biomedical Statistics (CCIBS) represents a collaboration between Royal Perth Hospital and Murdoch University that has brought together internationally recognised expertise in clinical immunology, experimental biology and innovation in biostatistics and computing. These resources have been applied to a broad range of research issues within the broad framework of HIV and hepatitis C disease and treatment. CCIBS has become a leading centre of research excellence internationally, establishing a reputation for innovative approaches to host-viral interactions that are built on a long tradition of research into the population genetics of both human and viral genomes, combined with a willingness to negotiate complex computation and statistical challenges in order to faithfully reflect dynamic biological processes at a population level. An early recognition that large and integrated repositories of genetic and clinical data are fundamental to the research success in the genomic era has also led to the creation of the single most comprehensive repository of HIV genetic sequencing data in the world. The contributions that CCIBS has made to several distinct areas of research, including understanding viral adaptation to host immune responses, the development of genetic testing to predict drug hypersensitivity reactions, and causes of antiretroviral drug-associated toxicities, have been published in prestigious journals including Science, Nature, Nature Immunology, The Lancet, Proceedings of National Academy of Sciences, and The American Journal of Human Genetics, and have also resulted in numerous international collaborations that recognise the unique attributes that CCIBS has been able to bring to the global research effort aimed at understanding fundamental aspects of HIV and hepatitis C biology and treatment.Read moreRead less
This program application seeks to draw on the skills of a world leading group of Australian researchers to bring novel HIV vaccine designs to clinical trials, improve vaccine design and create new opportunities for commercialisation. The Chief Investigators, Prof David Cooper, Prof Peter Doherty (Nobel Prize winner), A-Prof Stephen Kent and Prof Ian Ramshaw, have achieved major scientific developments including: innovative collaborative clinical trials, cutting edge research in T cell immunology ....This program application seeks to draw on the skills of a world leading group of Australian researchers to bring novel HIV vaccine designs to clinical trials, improve vaccine design and create new opportunities for commercialisation. The Chief Investigators, Prof David Cooper, Prof Peter Doherty (Nobel Prize winner), A-Prof Stephen Kent and Prof Ian Ramshaw, have achieved major scientific developments including: innovative collaborative clinical trials, cutting edge research in T cell immunology, the establishment of the only PC3-level nonhuman primate facility in the Southern hemisphere, T cell immunogenicity of the DNA-viral vector prime-boost vaccine regimens and ground-breaking research on cytokine co-expressing viral vector vaccines. The Principle Investigators also have a record of substantial achievement in relation to HIV and T cell biology as well as novel vaccination technologies. There is a strong history of successful collaboration among this group leading to the award of major NIH funding.Read moreRead less
Regulation Of Bone Resorption And Formation In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$5,596,183.00
Summary
Bone is continually being formed and broken down, and these two processes are critical forthe maintenance of a normal skeleton. These processes are dependent upon communication between the bone building and degrading cells, and the hormones growth factors and cytokines that are present in the circulation or produced in bone. The tightly regulated processes of bone formation and degradation need to remain equal, and are essential for the achievement and maintenance of skeletal strength and form. ....Bone is continually being formed and broken down, and these two processes are critical forthe maintenance of a normal skeleton. These processes are dependent upon communication between the bone building and degrading cells, and the hormones growth factors and cytokines that are present in the circulation or produced in bone. The tightly regulated processes of bone formation and degradation need to remain equal, and are essential for the achievement and maintenance of skeletal strength and form. Osteoporosis results from an excess of bone breakdown over formation, and our Program aims to identify the factors that regulate these processes, and develop new therapies that can modify them. We will also determine what it is about bone cell properties that make some cancers, especially those of breast and prostate, particularly prone to spread to bone.Read moreRead less