Understanding immune mechanisms induced by pulmonary vaccination. This project aims to better understand the mechanisms of immune induction of a novel lung vaccination strategy. The ability to deliver vaccines that induce potent lung and body wide immune responses in a safe and efficient manner has wide implications for both human and animal health. Ultimately, the vaccine will be delivered to the lung as stable dry powders in an attempt to negate the need for a transport cold chain and therefor ....Understanding immune mechanisms induced by pulmonary vaccination. This project aims to better understand the mechanisms of immune induction of a novel lung vaccination strategy. The ability to deliver vaccines that induce potent lung and body wide immune responses in a safe and efficient manner has wide implications for both human and animal health. Ultimately, the vaccine will be delivered to the lung as stable dry powders in an attempt to negate the need for a transport cold chain and therefore facilitate the distribution of the vaccines to remote areas. The project will not only benefit the Australian biotechnology industry but also the community at large and in particular those in remote areas without access to modern medical facilities.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100484
Funder
Australian Research Council
Funding Amount
$365,058.00
Summary
Tipping the balance from tolerance to immunity for the devil facial tumour. This project aims to develop a single-shot vaccine for the Tasmanian devil facial tumour disease. The disease is an enigma because the transmissible tumours are simultaneously cancer, infections, and genetically mismatched tissue grafts. This project will focus on immune molecules that are revolutionising human oncology, and will develop techniques to understand and systematically test the function of these key molecules ....Tipping the balance from tolerance to immunity for the devil facial tumour. This project aims to develop a single-shot vaccine for the Tasmanian devil facial tumour disease. The disease is an enigma because the transmissible tumours are simultaneously cancer, infections, and genetically mismatched tissue grafts. This project will focus on immune molecules that are revolutionising human oncology, and will develop techniques to understand and systematically test the function of these key molecules in Tasmanian devils. Understanding the role of these immune molecules will accelerate development of a vaccine to help save the devil and has the potential to shed light on general principles relating to how the immune system balances tolerance and immunity.Read moreRead less
Immunisation to protect against transmissible cancers in Tasmanian devils. This project aims to identify the immune escape mechanisms that the transmissible cancers, Devil Facial Tumour Disease (DFTD) use to avoid being killed by the immune system. Since the discovery of the second transmissible cancer (DFT2) mystery surrounds whether the devils immune system can respond to this cancer, hence this project will investigate the immune response to DFT2. The final aims are to develop a vaccine with ....Immunisation to protect against transmissible cancers in Tasmanian devils. This project aims to identify the immune escape mechanisms that the transmissible cancers, Devil Facial Tumour Disease (DFTD) use to avoid being killed by the immune system. Since the discovery of the second transmissible cancer (DFT2) mystery surrounds whether the devils immune system can respond to this cancer, hence this project will investigate the immune response to DFT2. The final aims are to develop a vaccine with the potential to protect healthy devils and cure devils with DFTD.Read moreRead less
From the pouch to the grave: age and sex related changes in immunity in the Tasmanian devil. Tasmanian devils face extinction in the wild due to the emergence of a contagious cancer: Devil Facial Tumour Disease (DFTD). A comprehensive understanding of the devil immune system is necessary to better understand the disease and develop a vaccine against it. This project will characterise immune responses of healthy devils throughout life, from the pouch, to onset of puberty, to old age. This project ....From the pouch to the grave: age and sex related changes in immunity in the Tasmanian devil. Tasmanian devils face extinction in the wild due to the emergence of a contagious cancer: Devil Facial Tumour Disease (DFTD). A comprehensive understanding of the devil immune system is necessary to better understand the disease and develop a vaccine against it. This project will characterise immune responses of healthy devils throughout life, from the pouch, to onset of puberty, to old age. This project will then compare these responses in DFTD-affected devils to determine why DFTD affects older animals first and does not affect sexually-immature devils. Additional outcomes will include the development of novel antibiotics against human and animal diseases and an atlas of devil development using the latest imaging technologies.Read moreRead less
Mitigating ecosystem impacts by improving the way we breed and manage devils. The Tasmanian ecosystem faces irreversible change due to the decline of the apex predator. An insurance population of Tasmanian devils has been established to prevent extinction of the species. Using the latest sequencing technologies the project aims to determine whether the Tasmanian ecosystem can be restored with Tasmanian devils that are more resilient to a changing environment by improving the way that devils are ....Mitigating ecosystem impacts by improving the way we breed and manage devils. The Tasmanian ecosystem faces irreversible change due to the decline of the apex predator. An insurance population of Tasmanian devils has been established to prevent extinction of the species. Using the latest sequencing technologies the project aims to determine whether the Tasmanian ecosystem can be restored with Tasmanian devils that are more resilient to a changing environment by improving the way that devils are bred and managed in captivity.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100020
Funder
Australian Research Council
Funding Amount
$520,000.00
Summary
Collaborative high bio-containment immunological research facility. Emerging infectious diseases are a serious threat to animals and humans, with most new human infections originating in animals. Our capacity to study these infections and their effects on the immune system is limited. This Facility will provide core equipment for analysis of immune responses to infection at the highest levels of bio-containment.
Integrating nutritional immunology. What an organism eats affects both its susceptibility to disease and the community of beneficial microorganisms living within its gut. This project will study how nutrition, immunity and the flora of the gut interact, and whether hosts are able to select a diet that optimises their immune response and gut flora in the face of disease challenges.
Development of an immune enhancing vaccine to protect Tasmanian devils against a contagious cancer. The iconic Tasmanian devil is threatened with extinction from a uniformly fatal transmissible facial cancer. Our team has shown in proof of concept that the cancer cells can be recognised by the devil immune system. This project will develop and test a vaccine against the tumour, which will ultimately protect devils in the wild.
Ecological immunity in the Lepidoptera: unravelling the relationship between immune function, sperm quality, and reproductive success. The effect of juvenile immune challenge and an individual's population ecology on subsequent adult immune function, physiology and reproductive success is poorly understood, despite its ability to explain fundamental processes in sexual selection. This project will unravel the relationship between immune function, sperm quality, and reproductive success.
Marine sponge–microbe interactions and the origin of animal innate immunity. This project aims to address how the animal innate immune system evolved to discriminate between potential pathogens versus beneficial symbionts by studying a marine sponge holobiont. Using advanced genomic and cellular approaches, the project will uncover deeply conserved regulatory pathways used by the cells of sponges, humans and other animals, and thereby identify cardinal rules governing animal innate immunity and ....Marine sponge–microbe interactions and the origin of animal innate immunity. This project aims to address how the animal innate immune system evolved to discriminate between potential pathogens versus beneficial symbionts by studying a marine sponge holobiont. Using advanced genomic and cellular approaches, the project will uncover deeply conserved regulatory pathways used by the cells of sponges, humans and other animals, and thereby identify cardinal rules governing animal innate immunity and its evolutionary origin. The project will provide an understanding of how beneficial microbial symbionts are recruited and maintained by animals, and are instrumental to the health of our environment and all its inhabitants.Read moreRead less