The Role Of Noncoding Viral RNAs In Flavivirus Infection And Exosomal Signalling
Funder
National Health and Medical Research Council
Funding Amount
$683,447.00
Summary
The application is aimed at investigating the novel role for viral noncoding RNAs in exosomal antiviral signalling and associated outcome of infection with West Nile virus. We will identify host enzymes involved in generation of viral noncoding RNAs, determine which host proteins they interact with and how these interactions determine their incorporation into secreted exosomes to influence outcome of infection.
Influenza A Virus PB1-F2 Protein: A Putative Virulence Factor And Initiator Of Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$474,718.00
Summary
Influenza virus produces a protein of undefined function called PB1-F2. Infection of mice with virus expressing PB1-F2 from virulent strains causes severe lung inflammation, while PB1-F2 from milder seasonal viruses does not. We will examine how PB1-F2 influences virulence of human influenza in the ferret, which exhibits the same illness as humans. This work will help understand the disease severity of newly evolved influenza viruses of humans and the role of PB1-F2 in mediating this.
Identification Of Novel HCV-specific B Cell Epitopes Which Induce Broad Neutralising Antibodies
Funder
National Health and Medical Research Council
Funding Amount
$482,480.00
Summary
This research project will study humans who have been exposed to multiple Hepatitis C virus infections. We will be examining their immune response with the aim to identify subjects with antibodies that are able to neutralise a diverse range of hepatitis C virus variants. These antibodies will be used to identify novel targets for a vaccine directed against Hepatitis C virus.
Dengue Host-cell Signalling Interactions: Novel Insights And Interventions
Funder
National Health and Medical Research Council
Funding Amount
$124,676.00
Summary
Dengue is a virus transmitted by mosquitoes that occurs in many tropical and subtropical regions. Approximately 40% of the world's population is at risk of this infection. Sometimes it can be mild but it can lead to severe illness and death especially with second infections. The body produces a response that over-reacts to the virus in these severe infections. The project aims to understand why the body does this and what parts of the immune system are affected using a model in mice.
The Role Of Dendritic Cells In Sexual Transmission Of HIV And Viral Reservoir Formation
Funder
National Health and Medical Research Council
Funding Amount
$654,296.00
Summary
This grant aims to determine the subsets of dendritic cells found in the different tissue of the anogenital tracts and to determine which ones play the key roles in HIV transmission. The relative ability of these cells to transfer the virus to activated T cells leading to productive infection and resting memory T cells leading to latent infection will be investigated. Finally the key receptors which mediate this process will be determined and strategies to block this transfer developed.
Viral And Host Factors Determining Outcome Of Zika Virus Infection
Funder
National Health and Medical Research Council
Funding Amount
$910,780.00
Summary
The proposal aims at identifying viral and host factors determining outcomes of infection with Zika virus, a significant mosquito-transmitted pathogen associated with debilitating neurological pathology in new-borne babies from mothers infected during pregnancy. We will use cutting edge methodologies and infections models to bring our understanding of Zika virus infection to unprecedented level. The results could also facilitate identification of targets for effective anti-viral therapy.
Multiple Cytomegalovirus Infections: Biological And Evolutionary Significance.
Funder
National Health and Medical Research Council
Funding Amount
$555,776.00
Summary
This project involves the study of cytomegalovirus (CMV) a common viral infection of humans which normally cause little disease. However in individuals whose immune system is suppressed (such as AIDS patients or transplant recipients), or in infection of pregnant women, CMV can cause serious or life-threatening disease in the patient or foetus. An interesting feature of CMV diseases in such patients is that enhanced viral growth and more severe disease is frequently associated with the presence ....This project involves the study of cytomegalovirus (CMV) a common viral infection of humans which normally cause little disease. However in individuals whose immune system is suppressed (such as AIDS patients or transplant recipients), or in infection of pregnant women, CMV can cause serious or life-threatening disease in the patient or foetus. An interesting feature of CMV diseases in such patients is that enhanced viral growth and more severe disease is frequently associated with the presence of multiple strains of CMV in the patient. We suggest that mixed CMV infections provide a survival advantage to the virus, with different strains within the mixed infection assisting the growth of other strains. This would result in increased virus growth overall, and enhanced disease. To study the mechanisms by which multiple infections with different CMV strains may affect both the virus and the host, experiments will be performed using an animal model of CMV, murine cytomegalovirus (MCMV). We will examine the effect of the presence of multiple strains of virus on virus growth and distribution within the infected host. We will also determine if functional MCMV strains are capable of assisting non-functional strains to survive within the host. These studies are relevant to the design of a CMV vaccine, and will be valuable in revealing the ways in which viruses can co-operate within an infection.Read moreRead less
Characterization Of Neutralizing Antibody Responses In HCV Infected Individuals.
Funder
National Health and Medical Research Council
Funding Amount
$478,076.00
Summary
Hepatitis C virus is a major human pathogen infecting 200 million people world-wide. Currently, there is no vaccine to prevent infection and treatment regimes are only partially effective. IInitial HCV infection is frequently asymptomatic and 30% of people spontaneously clear the virus. The remaining 70% of people develop a life-long chronic infection that causes progressive liver disease, cirrhosis and in some cases liver cancer. The reason why some people are able to clear virus has been attri ....Hepatitis C virus is a major human pathogen infecting 200 million people world-wide. Currently, there is no vaccine to prevent infection and treatment regimes are only partially effective. IInitial HCV infection is frequently asymptomatic and 30% of people spontaneously clear the virus. The remaining 70% of people develop a life-long chronic infection that causes progressive liver disease, cirrhosis and in some cases liver cancer. The reason why some people are able to clear virus has been attributed to the development of a strong cellular immune response and antibody is belived to play a monir role in achieving viral clearance. However, measurememnt of antibody responses in HCV infected pateints is routinely performed using conventional diagnostic tests that do not measure antibody that can help neutralize and clear virus. We have developed an assay that accurately measures the level of NAb in patient sera. We have found that chronically infected patients have broadly reactive neutralizing antibodies but that patients who clear virus, naturally or through treatment do not have broadly reactive neutralizing antibodies. Possibly explaining this phenomenon is that early during infection, antibody is frequently specific only to the infecting virus therefore to detect neutralizing antibodies, homologous viral sequences must be examined. In addition, we have found evidence that HCV can evade neutralzing antibodies through masking of sites to which antibodies bind. We propose to explore whether acutely infected patients develop NAb to autologous viral sequences, and how do these viral sequences and the antibody titre change throughout the course of infection and treatment. We also plan to determine the mechanism of neutralization resistance through the use of mutagenesis of resistant HCV glycoproteins. These studies are aimed at gaining a thorough understanding of the true role of antibody in HCV infection and its influence on viral evolution.Read moreRead less
The Human Eukaryotic Translation Elongation Factor 1A Is A Paramyxovirus Virus Dependency Factor
Funder
National Health and Medical Research Council
Funding Amount
$585,497.00
Summary
Several paramyxoviruses cause respiratory disease in infants, young children and the elderly worldwide. Another paramyxovirus that can be contracted by people from infected horses, Hendra virus, is often fatal. There are currently no vaccines against these viruses, and treatment is generally limited to relief of symptoms. In this project we will uncover how these viruses use human proteins for their growth inside cells, with an aim to develop novel therapeutic strategies.
This proposal investigates processes that regulate the cell cytoskeleton to control shape and the dynamics membranes, with a view to developing a generic antiviral therapy. As viruses rely upon the cell cytoskeleton to initiate an infection, we posit that enzymes that control the cytoskeleton can be targeted to block infection.