Development of an immunology toolbox to combat emerging marsupial diseases. Disease is increasingly a driver of wildlife population declines in Australia. However, basic immunology tools for >99% of vertebrate species are scarce, limiting our ability to prevent and respond to emerging and endemic diseases, such as devil facial tumour disease and wobbly possum disease. The overarching goal of this project is to improve wildlife health and fill the marsupial immunology gap by developing a long-ove ....Development of an immunology toolbox to combat emerging marsupial diseases. Disease is increasingly a driver of wildlife population declines in Australia. However, basic immunology tools for >99% of vertebrate species are scarce, limiting our ability to prevent and respond to emerging and endemic diseases, such as devil facial tumour disease and wobbly possum disease. The overarching goal of this project is to improve wildlife health and fill the marsupial immunology gap by developing a long-overdue multispecies marsupial immunology toolbox. The toolbox is needed to accelerate devil facial tumour disease vaccine progress and conservation immunology research. It will expand our knowledge of wobbly possum disease virus that is increasingly reported in Tasmania and the risk posed by the virus to other possum species.Read moreRead less
Herpesvirus entry into mammalian hosts. Herpesviruses infect most mammals and cause much chronic disease. Our poor understanding of their host entry pathways limits infection control. The olfactory neuroepithelium has been identified as a key entry portal for both a murid herpesvirus and a human pathogen, Herpes simplex virus, suggesting that many herpesviruses use this route. Virions cross the olfactory mucus on neuronal cilia, then either infect neurons or transfer to glial cells for local spr ....Herpesvirus entry into mammalian hosts. Herpesviruses infect most mammals and cause much chronic disease. Our poor understanding of their host entry pathways limits infection control. The olfactory neuroepithelium has been identified as a key entry portal for both a murid herpesvirus and a human pathogen, Herpes simplex virus, suggesting that many herpesviruses use this route. Virions cross the olfactory mucus on neuronal cilia, then either infect neurons or transfer to glial cells for local spread. This project will identify key receptor interactions and map the extent of invasion. By advancing our basic understanding of these important viruses and their uptake at an abundantly exposed but little explored anatomical site, the project can establish a basis for vaccinating against chronic disease.Read moreRead less