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
The development of vaccines and better treatments for HIV-AIDS and Hepatitis C are urgent global health priorities. This Program will undertake studies to better understand effective immunity against HIV and hepatitis C, allowing the rational design and testing of novel vaccines and treatments. The Program brings together a team of researchers with skills in basic virology and immunology with those providing expertise in translating findings in the laboratory into human clinical trials.
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
The Molecular Basis Of Bacterial Infectious Diseases
Funder
National Health and Medical Research Council
Funding Amount
$16,230,996.00
Summary
Bacterial infectious diseases are a serious threat to human health, accounting for over 10 million deaths each year. This multidisciplinary collaborative team is investigating the complex interactions between major disease-causing bacteria and their human hosts, in order to determine how they cause disease. These studies will make a major contribution to fundamental knowledge in this field. This information is also essential for the development of cheaper and more effective vaccines, as well as ....Bacterial infectious diseases are a serious threat to human health, accounting for over 10 million deaths each year. This multidisciplinary collaborative team is investigating the complex interactions between major disease-causing bacteria and their human hosts, in order to determine how they cause disease. These studies will make a major contribution to fundamental knowledge in this field. This information is also essential for the development of cheaper and more effective vaccines, as well as novel drugs. These are urgently needed to reduce death and illness due to bacterial infectious diseases in the 21st century. 11Read moreRead less
Pathogenesis Of Persistent Human Virus Infections Of Global Significance
Funder
National Health and Medical Research Council
Funding Amount
$6,571,328.00
Summary
The study will investigate why humans cannot eradicate particular viruses (HIV-AIDS, cytomegalovirus and herpes simplex virus), the long term effects of these viruses and ways to improve control. Current treatments can only partly suppress the levels of these viruses, because they persist in certain parts of the body called reservoirs, only to resurge later causing disease. Thus, the overall aim of the research program is to discover the mechanisms by which these viruses are able to successfully ....The study will investigate why humans cannot eradicate particular viruses (HIV-AIDS, cytomegalovirus and herpes simplex virus), the long term effects of these viruses and ways to improve control. Current treatments can only partly suppress the levels of these viruses, because they persist in certain parts of the body called reservoirs, only to resurge later causing disease. Thus, the overall aim of the research program is to discover the mechanisms by which these viruses are able to successfully persist within reservoirs in the human body. The research program brings together a group of 6 leading scientists and clinicians located at 3 sites in 2 Australian cities. The team is comprised of experts in the study of HIV-AIDS, cytomegalovirus and herpes simplex virus who will combine their knowledge and expertise to speed up the process of research on these viruses that are of major health importance. Studies will also utilise a number of cutting edge technologies that now make it possible to much more rapidly and precisely determine how viruses cause disease. Advances in our understanding of how viruses persist may form the basis for treatments aimed at controlling persistent infections and the serious diseases caused by these viruses.Read moreRead less
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
Determinants Of Child Health And Development: Populations, Partnerships, Pathways And Prevention
Funder
National Health and Medical Research Council
Funding Amount
$8,214,333.00
Summary
There are considerable challenges to the study of complex health and developmental problems in children and young people. Despite increasing prosperity in Australia, many of these problems are not abating and some appear to be increasing. These include low birthweight, behavioural and mental health problems, autism, obesity and, in Indigenous children, infections. This Program proposes investigating these problems with a view to prevention, thus meeting the national research priority of Promotin ....There are considerable challenges to the study of complex health and developmental problems in children and young people. Despite increasing prosperity in Australia, many of these problems are not abating and some appear to be increasing. These include low birthweight, behavioural and mental health problems, autism, obesity and, in Indigenous children, infections. This Program proposes investigating these problems with a view to prevention, thus meeting the national research priority of Promoting and Maintaining Good Health, particularly _a healthy start to life� and _preventive health care�. The Program is unique in that it brings together a multi-disciplinary team of researchers of international repute to investigate these complex issues. The research team comprises epidemiologists, clinicians, developmental psychologists, biostatisticians, sociologists and other social scientists. This team has a proven track record in producing research outcomes that have translated into innovative health policy and practice in areas as diverse as: - the use of folic acid in spina bifida prevention - understanding cerebral palsies - suicide prevention and mental health in children and young people - Aboriginal child health and development - intellectual disabilities including Rett syndrome and autism - in vitro fertilisation and birth defects. The factors influencing how children develop into young adults include genetic inheritance, nutrition and growth, and family, socioeconomic and environmental conditions. This work demands new ways of measuring and analysing these factors in populations of children and their families. Western Australia is one of only three sites in the world to have comprehensive linked health data on the whole of its population of children and their families. This Program comprises five overlapping themes of research planned around these unique population databases. The five themes are: - social, economic and psychological influences on child health and development - many paths to poor health are linked to social disadvantage. Examining these issues may explain why some childhood conditions are worsening or not improving - pathways to wellbeing, resilience and developmental disorders, including intellectual disability, autism, birth defects and cerebral palsy - nutrition and growth, particularly as it relates to low birthweight, childhood obesity and mental health - infectious disease, its causes and its influence on lifelong health problems and disabilities - Aboriginal health _ whilst spanning each of the research themes above, it presents its own unique challenges and requires it�s own unique solutions. This Program will investigate how children develop into young adults and will examine the influence of their families, nutrition and growth and socioeconomic and environmental conditions. It will develop new ways of measuring and analysRead moreRead less
Antigen Presentation, Recognition And The Immune Response
Funder
National Health and Medical Research Council
Funding Amount
$15,738,750.00
Summary
The early events in immunity require various molecular interactions. We will examine the structural and biophysical basis for some of these interactions, including those associated with transplant rejection and autoimmunity. We will explore the impact of variation in immune response genes on immune evasion and disease susceptibility. Our basic research will determine the mechanisms by which the immune system discriminates between different self and micro-organism associated determinants. We will ....The early events in immunity require various molecular interactions. We will examine the structural and biophysical basis for some of these interactions, including those associated with transplant rejection and autoimmunity. We will explore the impact of variation in immune response genes on immune evasion and disease susceptibility. Our basic research will determine the mechanisms by which the immune system discriminates between different self and micro-organism associated determinants. We will address the structural and biochemical basis for operation of an immune molecule called tapasin and unravel the basis for how some viruses escape the function of this molecule, thus allowing their immune evasion. We will also explore the use of modified small proteins called peptides in a humanized model of gluten hypersensitivity resembling that of Celiac disease. The molecular basis of the natural human immune system's capacity to recognise and reject grafts will be examined. This complements work aimed at improving the prediction of clinical graft rejection in transplantation. Dendritic cells play a central role in immunity, responsible for capturing material, whether from micro-organisms or self tissues, and presenting it to cells of the immune system. Our program will study the development and immunological function of the different dendritic cell subtypes. We will determine the relative contribution of each to the maintenance of immune tolerance and to the induction of immunity to several pathogens, including herpes simplex virus and malaria. Novel dendritic cell surface molecules that we have discovered will be tested for their ability to enhance the effectiveness of vaccines. Overall, this program utilises a broad array of immunological techniques designed to dissect the development and function of various immune system cell types and determine the structure-function relationships between important cell surface molecules involved in immunity.Read moreRead less