Molecular Mechanism And Therapeutic Implications Of Prion Disease Strain Types In Sporadic Creutzfeldt Jakob Disease.
Funder
National Health and Medical Research Council
Funding Amount
$345,634.00
Summary
The prion diseases are a group of transmissible, neurodegenerative disorders affecting both humans and animals. The most common form in humans is sporadic Creutzfeldt-Jakob disease (CJD), although acquired (variant CJD) and inherited (familial CJD) forms also exist. Prion diseases are transmissible by inoculation with, or dietary exposure to, infected tissues. The infectious agent, referred to as a prion , has not been conclusively identified. However, a major component of purified prions is an ....The prion diseases are a group of transmissible, neurodegenerative disorders affecting both humans and animals. The most common form in humans is sporadic Creutzfeldt-Jakob disease (CJD), although acquired (variant CJD) and inherited (familial CJD) forms also exist. Prion diseases are transmissible by inoculation with, or dietary exposure to, infected tissues. The infectious agent, referred to as a prion , has not been conclusively identified. However, a major component of purified prions is an abnormal disease associated form of the host prion protein. Differences in the duration of illness and pathology of sporadic CJD suggests that the disease may be caused by different prion strains. The existence of different prion strains may explain the limited clinical success of anti-prion therapeutics modeled in rodent models of prion diseases. In this study a cell-free model of prion propagation will be used to investigate the basis of human prion strains. This assay will also be used to identify and determine whether the therapeutic efficacy of anti-prion compounds is influenced by human prion strain type. This study will represent the first host species and prion strain specific screen of anti-prion therapeutics aimed at developing the best possible model for the identification and development of therapeutics for human prion diseases.Read moreRead less
Ross River virus - identification of virulence determinants in clinical isolates from across Australia. In Australia, Ross River virus (RRV) is the most common insect borne virus that affects human health. There were more than 60,000 confirmed cases of RRV between 1993 and 2008. While not fatal, the disease is responsible for significant morbidity that has both social and economic costs for the individual, their family and the community. The project has several national benefits. It will elucida ....Ross River virus - identification of virulence determinants in clinical isolates from across Australia. In Australia, Ross River virus (RRV) is the most common insect borne virus that affects human health. There were more than 60,000 confirmed cases of RRV between 1993 and 2008. While not fatal, the disease is responsible for significant morbidity that has both social and economic costs for the individual, their family and the community. The project has several national benefits. It will elucidate whether there is any association between RRV strain and the severity of human disease. It will also identify viral markers that could assist public health officials in determining likely disease outcomes of outbreaks and could provide new avenues for the design of antiviral strategies.Read moreRead less
Mosquito-borne viruses - how they cause disease and novel approaches to prevention. In Australia, Ross River virus (RRV) is the most common insect borne virus that affects human health. There were more than 60,000 confirmed cases of RRV between 1993 and 2008. While not fatal, the disease is responsible for significant morbidity that has both social and economic costs for the individual, their family and the community. This project has several national benefits. It will elucidate whether there is ....Mosquito-borne viruses - how they cause disease and novel approaches to prevention. In Australia, Ross River virus (RRV) is the most common insect borne virus that affects human health. There were more than 60,000 confirmed cases of RRV between 1993 and 2008. While not fatal, the disease is responsible for significant morbidity that has both social and economic costs for the individual, their family and the community. This project has several national benefits. It will elucidate whether there is an association between RRV strain and the severity of disease and if there are human factors that affect the seriousness of symptoms. Knowledge of both of these could provide new avenues for the design of prevention and treatment strategies.Read moreRead less
Improving The Management Of An Emerging Viral Disease In Australia: Determination Of The Mechanisms Of Neuroinvasion By Hendra Virus And Their Control, Leading To Optimisation Of Post-exposure Therapy Following Contact With Hendra Virus
Funder
National Health and Medical Research Council
Funding Amount
$675,742.00
Summary
Hendra virus causes severe disease in people with >50% mortality; human infection is acquired following contact with affected horses. In nature, Hendra virus is carried by flying foxes and the cause of spill-over events to horses is unknown. The impact of Hendra virus on human health may rapidly increase in response to continued urban expansion; the outcome of this project will be improved decision support for those charged with the medical management of people exposed to this deadly virus.
The Role Of Paramyxovirus P Protein Subcellular Trafficking In Virus Pathogenicity And Antagonism Of Host Interferon Responses
Funder
National Health and Medical Research Council
Funding Amount
$78,491.00
Summary
Emerging zoonotic viruses pose a major health threat worldwide, highlighted by recent outbreaks of viruses such as Nipah and Hendra via interspecies invasion to infect humans. A major barrier to interspecies infection is the innate immune response, which viruses must evolve to combat before successful infection can occur. We aim to examine in detail the mechanisms underlying immune evasion of such viruses, with the ultimate goal of discovering novel targets for therapeutics to viral infection.
UNDERSTANDING HEPATITIS C VIRUS-SPECIFIC T CELL TOLERANCE
Funder
National Health and Medical Research Council
Funding Amount
$429,710.00
Summary
Most individuals who are infected with hepatitis C virus (HCV) develop a persistent infection that is lifelong and are at risk of developing serious liver disease, including liver cancer. The evidence suggests that an inadequate immune response is responsible for the inability of the patient to resolve the infection, but it is not clear which stage of the immunological cascade might be targeted. In this project, we will test the hypothesis that HCV antigen induce supressor T cells This will have ....Most individuals who are infected with hepatitis C virus (HCV) develop a persistent infection that is lifelong and are at risk of developing serious liver disease, including liver cancer. The evidence suggests that an inadequate immune response is responsible for the inability of the patient to resolve the infection, but it is not clear which stage of the immunological cascade might be targeted. In this project, we will test the hypothesis that HCV antigen induce supressor T cells This will have the effect of inhibiting the immune response and result in the outcome that we currently recognise as persistent HCV infection.Read moreRead less
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
Molecular Characterisation Of Host Cell Targets Of Human Pathogenic Viruses And Evaluating Their Potential As Novel Therapeutic Targets.
Funder
National Health and Medical Research Council
Funding Amount
$307,946.00
Summary
There are currently no therapeutics to treat victims of Hendra, Nipah or Rabies virus infections, which account for > 50,000 deaths/yr worldwide. Through not fully understood mechanisms, these viruses affect the functions of specific cellular proteins in order to inhibit the host immune system, a process essential to their pathogenicity. We aim to characterise the mechanisms underlying viral inhibition of host immunity and evaluate their potential as novel targets to develop urgently needed t ....There are currently no therapeutics to treat victims of Hendra, Nipah or Rabies virus infections, which account for > 50,000 deaths/yr worldwide. Through not fully understood mechanisms, these viruses affect the functions of specific cellular proteins in order to inhibit the host immune system, a process essential to their pathogenicity. We aim to characterise the mechanisms underlying viral inhibition of host immunity and evaluate their potential as novel targets to develop urgently needed therapeutics against these deadly pathogens.Read moreRead less
Human immunodeficiency virus type 1 (HIV-1) causes AIDS and, to date, has infected approximately 20 thousand people in Australia and more than 40 million worldwide. People infected with HIV-1 first experience a period of 5-7 years where they remain healthy, ofter assisted by the use of anti-HIV-1 drugs, and this period is referred to as the asymptomatic period. After this period, infected individuals become sick due to their immune system being destroyed, and this is referred to as AIDS. Researc ....Human immunodeficiency virus type 1 (HIV-1) causes AIDS and, to date, has infected approximately 20 thousand people in Australia and more than 40 million worldwide. People infected with HIV-1 first experience a period of 5-7 years where they remain healthy, ofter assisted by the use of anti-HIV-1 drugs, and this period is referred to as the asymptomatic period. After this period, infected individuals become sick due to their immune system being destroyed, and this is referred to as AIDS. Research into how HIV-1 causes AIDS has shown us that the virus changes over time to make itself better able to kill cells of the immune system, by at least 2 mechanisms. The first mechanism, which is the best characterised one, is where the virus changes the way it infects cells, whereby it can infect many more cells in the body by taking advantage of an alternate receptor molecule on the cell called CXCR4. This molecule is very widely expressed on immune cells, and thus the virus can now infect and kill many more cells. However, in about 50% of infected people who eventually get AIDS, the virus does not change this way. The virus instead uses it's original receptor to infect cells, called CCR5. Our preliminary studies, as well as other published reports, suggest that the virus changes itself another way to make it kill immune cells better, without using CXCR4. However, the mechanism by which HIV-1 does this is poorly understood. This proposal aims to better understand this mechanism. We expect to find that, in this group of patients, the Env proteins on the virus change to be able to bind CCR5 more tightly, and thus be able to use fewer molecules of CCR5 to infect cells. We believe that these forms of the virus are now better able to kill immune cells, leading to AIDS. This study will contribute to a greater understanding of how HIV-1 causes AIDS, which is necessary for the development of new drugs to treat HIV-1 infection.Read moreRead less