Self Adjuvanting CTL-Based Influenza Vaccines For Human Use
Funder
National Health and Medical Research Council
Funding Amount
$214,842.00
Summary
This project will generate novel vaccines that elicit cell-mediated immunity against influenza infection. The vaccines are totally synthetic and therefore not constrained by the limitations in manufacturing which currently confront egg-grown vaccines. These vaccines induce very strong immune responses because they target dendritic cells which are pivotal for induction of all immune responses. This targeting capability is due to a simple lipid molecule incorporated into the vaccine which is recog ....This project will generate novel vaccines that elicit cell-mediated immunity against influenza infection. The vaccines are totally synthetic and therefore not constrained by the limitations in manufacturing which currently confront egg-grown vaccines. These vaccines induce very strong immune responses because they target dendritic cells which are pivotal for induction of all immune responses. This targeting capability is due to a simple lipid molecule incorporated into the vaccine which is recognised by specific receptors on the surface of dendritic cells and also causes their maturation, a step which is essential for recognition by the immune system of potential pathogens. The technology to design and assemble these new vaccines is already.Read moreRead less
Loss of insulin-producing beta cells leads to type 1 diabetes and rejection of allogeneic islet transplants. The aim of this program is to discover ways of protecting beta cells from damage. We will do this by investigating whether blocking crucial regulators of cell death can protect mouse and human beta cells from destruction in vitro and in vivo. In doing so, we aim to prevent diabetes in mice and potentially improve the survival of islet grafts after transplantation.
They aim to create insulin-secreting B cells by identifying their progenitor cells and the moleculaes normally required for their development, in order to restore B-cell function in the people with type 1 diabetes. Mouse and human multipotent embryonic stem (ES) cells and fetal mouse panceas and adult pancreas duct cells will be used as sources of progenitor B cells. Comparative studies will provide a more complete picture of human B-cell ontogeny. Culture systems developed for ES cells-embryoid ....They aim to create insulin-secreting B cells by identifying their progenitor cells and the moleculaes normally required for their development, in order to restore B-cell function in the people with type 1 diabetes. Mouse and human multipotent embryonic stem (ES) cells and fetal mouse panceas and adult pancreas duct cells will be used as sources of progenitor B cells. Comparative studies will provide a more complete picture of human B-cell ontogeny. Culture systems developed for ES cells-embryoid bodies (EB) - EB-derived cells, fetal pancreas and adult pancreas duct cells, will be employed to screen for and identify novel growth-differentiation factors and to optimise parameters for creating B cells in vitro or (re) generating B cells in vivo. Genetic constructs allowing regulated expression of fluorescently-tagged marker genes and growth-transcription factors will be introduced into cultured cells or transgenic mice to enable progenitor B cells to be tracked and isolated. Progenitor B cells will be typed with panels of known novel markers molecules at the gene and protein level, and gene expression profiles of tissue yielding B cells will be analysed across time to reveal further candidate markers. Molecules and methods effective in mouse systems will be applied to human ES cell-derived or pancreatic duct cells. The capacity to progenitor cells or insulin-secreting cells to ameliorate diabetes when transplanted into the testis, under the kidney capsule or into the pancreas of mouse models would represent proof-of-concept. Functional B cells derived from human ERS cells or pancreas duct cells, or growth factors that regenerate B cells in vivo, could together with appropriate immunotherapy restore B-cell function in people with type 1 diabetes.Read moreRead less
Gamma-ray Inactivated Influenza A Virus Vaccine For Cross-protective T Cell Immunity
Funder
National Health and Medical Research Council
Funding Amount
$239,963.00
Summary
Although there are new antiviral drugs that appear to be effective against influenza virus, the far more costeffective and efficient means to combat an influenza pandemic would be by vaccination. Current influenza vaccines employ virus preparations that are inactivated by chemical treatment. The inactivated vaccines, which function mostly by inducing antibody against the virus, have to be reformulated almost every year to take account of the changing virus because the antibodies recognize the vi ....Although there are new antiviral drugs that appear to be effective against influenza virus, the far more costeffective and efficient means to combat an influenza pandemic would be by vaccination. Current influenza vaccines employ virus preparations that are inactivated by chemical treatment. The inactivated vaccines, which function mostly by inducing antibody against the virus, have to be reformulated almost every year to take account of the changing virus because the antibodies recognize the viral surface which is prone to mutation. Accordingly, in terms of the threatening H5N1 avian influenza pandemic, it is not known if an inactivated vaccine based on the circulating H5N1 strain will be effective if the virus mutates to adapt to efficient growth and spread in the human population. In contrast to the antibody response against influenza virus, the cytotoxic T cell response is broadly crossreactive between heterologous influenza virus strains. Live virus infection efficiently induces cytotoxic T cell immunity which plays an important role in reducing disease severity and mortality following infection with a second, heterologous influenza virus, although infection per se is not prevented. Accordingly, vaccination strategies that elicit cytotoxic T cell memory should be given urgent consideration in the preparation against an influenza pandemic. We have found that the use of gamma-irradiation (in contrast to chemical treatment) for the preparation of inactivated experimental vaccines against influenza and other viruses does not destroy the ability of the vaccines to elicit cytotoxic T cell immunity. The gamma-ray inactivated vaccines conferred protection against lethal challenge with heterologous influenza virus strains in mice. This proposal is aimed at extending this novel finding to avian influenza viruses and to uncover the mechanisms involved in the cytotoxic T cell immunogenicity of gamma-ray inactivated vaccines.Read moreRead less
In type 1 diabetes the body becomes deficient in insulin production from pancreatic b cells because the immune system mistakenly attacks and destroys b cells as if they were an invading infection. Recurrence of autoimmune destruction of b cells also occurs following transplantation of whole pancreas or islet cells and may occur in the future when other engineered insulin producing cells are transplanted. The focus of this program is to better understand how b cells are killed by the immune syste ....In type 1 diabetes the body becomes deficient in insulin production from pancreatic b cells because the immune system mistakenly attacks and destroys b cells as if they were an invading infection. Recurrence of autoimmune destruction of b cells also occurs following transplantation of whole pancreas or islet cells and may occur in the future when other engineered insulin producing cells are transplanted. The focus of this program is to better understand how b cells are killed by the immune system and to test ways of protecting beta cells from these mechanisms. Because of the inaccessibility of the pancreas to study (particularly biopsy) in humans with diabetes, much of the proposed work will be carried out in b cells derived from non-obese diabetic (NOD) mice, the best available mouse model of type 1 diabetes. It is clear from the literature that a molecule called perforin found in cytoxic T lymphocytes (CTL) is a major, if not the major, mechanism the immune system uses against b cells. For this reason we will try to better understand the interaction between b cells and perforin and ultimately design ways of them from perforin-mediated cell death. It is equally clear that there are other mechanisms besides perforin that can cause b cell death and the program will also address discovery of these mechanisms and new ways to block them. Beta cells in NOD mice will be protected from perforin or other mechanisms by the addition of protective genes or removal of harmful genes using transgenic knockout technology. Addition or removal of genes involved in cell death can be done systematically and each protocol tested using NOD mouse model. The process of cell death that b cell undergo in type 1 diabetes is called apoptosis. Apoptosis is a general mechanism by which cells of all types die. Experts in the biology of apoptosis and perforin are important members of the program, providing the opportunity to translate the latest advances in cell death research to diabetes. This research addresses several of the specific research areas of interest to JDRF. It focuses on the prevention of b cell death in individuals with type 1 diabetes receiving islet transplants. It may be applicable in the future to protection of stem or precursor cells that have been differentiated into b cells or even to devising strategies to prevent the development of diabetes.Read moreRead less
Early Intervention To Prevent Childhood Obesity Among A Disadvantaged Population: A Home-based Randomised Controlled Tri
Funder
National Health and Medical Research Council
Funding Amount
$675,082.00
Summary
This intervention research will conduct a randomised controlled trial, of a community-based early childhood home visiting intervention designed to improve family and behavioural risk factors for childhood obesity and overweight. This intervention which will be developed in collaboration with the Health Promotion Unit, Child and Family Health Nurses, university academic experts and mothers in the community promises to deliver significant health and social benefits, in particular, preventing early ....This intervention research will conduct a randomised controlled trial, of a community-based early childhood home visiting intervention designed to improve family and behavioural risk factors for childhood obesity and overweight. This intervention which will be developed in collaboration with the Health Promotion Unit, Child and Family Health Nurses, university academic experts and mothers in the community promises to deliver significant health and social benefits, in particular, preventing early onset of childhood obesity. It will result in a series of recommendations for policies and practical methods for promoting healthy feeding and physical activity of infants under two years of age with particular application to families who are socially and economically disadvantaged. These policies and practical methods for preventing childhood obesity could be used across Australia.Read moreRead less
Chimeric Virus-like Particles (VLPs) Displaying H1, H3 And H5 Haemagglutinins - Construction And Immunogenicity
Funder
National Health and Medical Research Council
Funding Amount
$207,543.00
Summary
Virus-like particles (VLPs) provoke strong immune responses in the body. We have developed a novel VLP system that allows the production of VLPs containing foreign vaccine antigens of much larger size than previously possible, and have shown that these VLPs provoke strong immune responses in mice without the use of adjuvants. The capacity of these VLPs is large enough to accommodate the most important vaccine antigen of influenza, the haemagglutinin (HA) molecule. We will test whether VLPs can b ....Virus-like particles (VLPs) provoke strong immune responses in the body. We have developed a novel VLP system that allows the production of VLPs containing foreign vaccine antigens of much larger size than previously possible, and have shown that these VLPs provoke strong immune responses in mice without the use of adjuvants. The capacity of these VLPs is large enough to accommodate the most important vaccine antigen of influenza, the haemagglutinin (HA) molecule. We will test whether VLPs can be produced containing each of the three most important HA types _ H1 and H3 that are currently circulating in man, and H5 (avian) that is considered a pandemic threat. VLPs will be tested for their ability to induce neutralizing antibody and cellular immune responses in mice, and for their ability to protect ferrets from influenza infection. If successful, the HA-VLP system would provide a method for the rapid production of new influenza vaccines using large-scale fermentation technology as for hepatitis B and many other vaccines, rather than eggs or cell culture as used for current influenza vaccines.Read moreRead less
Assessment Of Alpha-galactosylceramide As A Novel Adjuvant For Pandemic Influenza: A Virua Vaccine
Funder
National Health and Medical Research Council
Funding Amount
$220,042.00
Summary
The occurrence of human infections with pathogenic avian H5N1 Influenza A viruses was the first documentation of these viruses demonstrating an ability to directly transmit from birds to humans. The virulent nature of these infections, and the fact that there is no pre-existing immunity to these viruses in the human population has raised the concern that these viruses may emerge to cause the next influenza pandemic. Vaccination is our most effective way of protecting against influenza infection, ....The occurrence of human infections with pathogenic avian H5N1 Influenza A viruses was the first documentation of these viruses demonstrating an ability to directly transmit from birds to humans. The virulent nature of these infections, and the fact that there is no pre-existing immunity to these viruses in the human population has raised the concern that these viruses may emerge to cause the next influenza pandemic. Vaccination is our most effective way of protecting against influenza infection, however there are no commercially available avian influenza vaccines available. Moreover, recent evidence suggests current vaccines strategies may be less than effective. This proposal aims to evaluate the efficacy of a novel vaccine strategy that promotes immune protection against a potential pandemic influenza strain.Read moreRead less
Enhancing Australia's Pandemic Influenza Vaccine Output By Increasing The Yeild Of Vaccine From Eggs
Funder
National Health and Medical Research Council
Funding Amount
$251,517.00
Summary
Influenza epidemics cause significant morbidity and mortality, particularly amongst the young and elderly. Unlike other vaccines, a new flu vaccine formulation needs to be prepared each year from the currently circulating strain. This involves a long process of preparing new seed vaccine stock, which is then tested, manufactured and distributed. The situation is even more complicated by the ability of different influenza strains to reassort with others. An example of current major concern is the ....Influenza epidemics cause significant morbidity and mortality, particularly amongst the young and elderly. Unlike other vaccines, a new flu vaccine formulation needs to be prepared each year from the currently circulating strain. This involves a long process of preparing new seed vaccine stock, which is then tested, manufactured and distributed. The situation is even more complicated by the ability of different influenza strains to reassort with others. An example of current major concern is the possibility of deadly avian flu viruses, such as H5N1, to gain the capacity to directly infect humans by recombining with a human strain and thereby starting a new global pandemic. When the next influenza pandemic occurs, the availability of a vaccine will be of the highest priority and early supply of vaccines will save millions of lives. Since vaccination is the only sustainable defense, we face an urgent need to have the capacity to supply large numbers of vaccine doses of influenza vaccines within a short period of time. Currently, the only way of producing flu vaccines is in eggs. The speed of vaccine supply is totally dependant on the yield of vaccine from eggs and the number of eggs that can be processed at any one time. Since there are severe constraints on the number of eggs that can be simultaneously processed, the limiting factor that can be addressed is the actual yield of vaccine per egg. The aim of this project is the develop methods that allow higher levels of vaccine virus to grow in eggs. We will take a multi-pronged approach to enhancing influenza vaccine production that are directed toward increasing the capacity of eggs to promote virus replication, as well as towards the vaccine strain to boost its ability to replicate in the egg. The outcome will be an enhanced capacity for vaccine manufacturers to quickly and effectively expand vaccine supplies which will directly impact on global morbidity and mortality during a flu pandemic.Read moreRead less