Viral Factors Involved In Flavivirus Replication And Virus-host Interactions
Funder
National Health and Medical Research Council
Funding Amount
$743,696.00
Summary
With our increased understanding of virus-host interactions it has become apparent that small, non-structural proteins and small RNAs of most viruses are vital for numerous, often multiple, functions in the viral life cycle. In the proposed project, we seek to gain a detailed understanding of the functions of small nonstructural protein NS2A and small abundant viral RNAs of medicaly important encephalitic flaviviruses, which have remained so far elusive and are at the cutting-edge in the researc ....With our increased understanding of virus-host interactions it has become apparent that small, non-structural proteins and small RNAs of most viruses are vital for numerous, often multiple, functions in the viral life cycle. In the proposed project, we seek to gain a detailed understanding of the functions of small nonstructural protein NS2A and small abundant viral RNAs of medicaly important encephalitic flaviviruses, which have remained so far elusive and are at the cutting-edge in the research field. We anticipate that with a better understanding of the roles of these factors in flaviviral replication and pathogenesis, novel targets for antiviral therapies and-or molecular determinants for inclusion in candidate vaccines will be identified.Read moreRead less
Comparative Expression Studies To Identify Cellular Factors Promoting Hendra Virus Replication For A Comprehensive Understanding Of Hendra Virus Pathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$374,619.00
Summary
Hendra virus (HeV) is an emerging pathogen indigenous to fruit bats. HeV is associated with limited outbreaks with high mortality in domesticated animals and humans. To advance the understanding of HeV-related pathogenesis, we will perform comparative studies in bat and human cell lines to recognise differences in virus-host cell interactions leading to a comprehensive understanding of the HeV life cycle and pathogenesis.
Exploration Of The Role Of Microbes In Gastrointestinal Diseases
Funder
National Health and Medical Research Council
Funding Amount
$687,974.00
Summary
This fellowship will investigate diseases of the gastrointestinal tract of children. The research program will undertake a range of is a highly innovative projects including; development of an effective rotavirus vaccine to be administered to newborns; genetic characterisation of rotavirus strains able to escape vaccine protection; and how alterations in the human gut microbiome (bacteria and viruses) influence the development/relapse of CrohnÍs disease.
Norovirus Infection At The Stress Granule-PKR-p-elF2α Axis
Funder
National Health and Medical Research Council
Funding Amount
$505,967.00
Summary
This project application will aim to investigate and understand how viruses that cause vomiting and diarrhoea are able to infect, proliferate and spread within the human body. It aims to address how viruses are able to avoid and replicate in the presence of an effective immune response. We have evidence showing that Noroviruses are able to exploit certain antiviral proteins to paradoxically aid in virus replication and survival.
Defining The Contribution Of Skin Gamma Delta T Cells To Cutaneous Immunosurveillance, Immunity And Disease After HSV Infection.
Funder
National Health and Medical Research Council
Funding Amount
$601,386.00
Summary
Herpes simplex virus (HSV) causes genital herpes and encephalitis. Disease is severe in the immunocompromised and the newborn. HSV enters through breaks in the skin or mucosa, where it first encounters gamma delta T cells. We have recently made the key finding that HSV can infect gamma delta T-cells shortly after inoculation. Here we will study how they contribute to the immune response when a virus enters the skin in mice and human tissues. This may lead development of new topical antiviral vac ....Herpes simplex virus (HSV) causes genital herpes and encephalitis. Disease is severe in the immunocompromised and the newborn. HSV enters through breaks in the skin or mucosa, where it first encounters gamma delta T cells. We have recently made the key finding that HSV can infect gamma delta T-cells shortly after inoculation. Here we will study how they contribute to the immune response when a virus enters the skin in mice and human tissues. This may lead development of new topical antiviral vaccines.Read moreRead less
Immune Modulatory Effects Of Vaginal Microbiota Metabolites And HIV Susceptibility
Funder
National Health and Medical Research Council
Funding Amount
$795,110.00
Summary
This study will advance knowledge on how acid molecules produced by beneficial and harmful bacteria are able to promote or impede HIV infection of the female genital mucosa through their effects on the barrier and immune function of cells that line the vagina and cervix. The results of this study are anticipated to augment the efficacy of topical HIV prevention strategies and lead to the development of safe vaginal hygiene products that help protect against other sexually transmitted infections.
HIV/AIDS remains a major global threat with ?37 million individuals living with HIV in 2014. Antiretroviral drugs have transformed HIV from a death sentence into a chronic disease. Public health organisations recommend dramatic scale up of drugs for HIV treatment and prevention. However, a major threat is that drug options will be exhausted in the long-term due to drug resistance and toxicity. The major aim of this study is to advance the development of an entirely new drug class for HIV.
Elucidating The Mechanism Of Action Of Dendrimer Nanoparticles Against HIV
Funder
National Health and Medical Research Council
Funding Amount
$559,354.00
Summary
Dendrimers are nanoparticles with highly branched structures and they are being developed as topical microbicides to prevent the sexual transmission of HIV. This study will determine how dendrimers block HIV entry into host cells so that we can design more effective inhibitors and microbicides.
Topical microbicides are urgently required to protect women from the sexual transmission of HIV. Lactic acid is produced by bacteria that are normally present in the healthy female vaginal tract and is more potent in the inactivation of HIV compared to low pH alone. This study seeks to determine how lactic acid inactivates HIV and to undertake laboratory studies to determine its suitability for development as a topical microbicide to prevent HIV transmission.
CHARACTERISATION OF NOVEL PICORNAVIRUS-LIKE VIRUSES IDENTIFIED FROM PATIENTS WITH ACUTE RESPIRATORY INFECTIONS.
Funder
National Health and Medical Research Council
Funding Amount
$366,998.00
Summary
The common cold and serious chest colds are usually due to viral infections, and mostly occur in children. Unfortunately we can only be certain of the virus causing this illness in as little as 15% of cases. We intend to address this lack of research by examining, in detail, a new virus we recently identified in a child with serious respiratory illness that required admission to hospital. Testing by our laboratory suggests that the new virus is related to picornaviruses (which cause some common ....The common cold and serious chest colds are usually due to viral infections, and mostly occur in children. Unfortunately we can only be certain of the virus causing this illness in as little as 15% of cases. We intend to address this lack of research by examining, in detail, a new virus we recently identified in a child with serious respiratory illness that required admission to hospital. Testing by our laboratory suggests that the new virus is related to picornaviruses (which cause some common colds) but seems to be present in children with far more serious illness. Our study plans to more completely identify the new picornavirus-like virus (PLV) using the tools of molecular biology and the expertise of a senior team of Australian scientists and clinicians who have recently made several virus discoveries in Australia, demonstrating that Australian virus research is capable of achieving highly competitive results that benefit our hospitals and especially their young patients. Our studies will develop extremely sensitive tests which rely on the detection of very small amounts of the viral genome. We can use these tests to determine what the whole virus looks like, when it might occur during the year and whether the PLV are found worldwide. Our studies will also produce viral proteins in the laboratory and use these to make new tests for stored blood samples. If a blood sample comes from a patient who has previously been infected by PLV, their blood will contain specific antibodies which we will then be able to detect. We also intend to determine whether some strains of PLV are more or less likely to cause serious illness than others. Improved understanding of these and other viruses minimises the chance of illness spreading within a hospital, helps scientists to decide against which viruses to design vaccines and drugs and aids medical doctors to better identify what once went undiagnosed.Read moreRead less