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.
Herpesviruses infect most Australians and cause recurrent ulcers, birth defects and cancer. Infection lasts lifelong, and spreads to close contacts without obvious clinical signs. Thus disease is hard to prevent. However we can learn much from related animal infections. We have shown that both mouse and human herpesviruses enter mice via cells in the nose. Thus human infections might follow the same route. We will define what body defences work here and whether vaccines can prevent infection.
Human ?-herpesviruses persist for life, cause cancers and emerge with particular virulence when the immune system is weak. Vaccination against them is therefore an important health priority. We have shown for a related ?-herpesvirus of mice that live vaccines protect. Antibody seems to play a major role. We will test whether safer, recombinant vaccines are also sufficient to elicit protective antibody. Thus we can establish a viable strategy for preventing virus-induced human cancers.
Regulation Of Viral Latency In Gamma-herpesvirus Infection
Funder
National Health and Medical Research Council
Funding Amount
$258,000.00
Summary
The cost to public health from herpesvirus infection is enormous. The gamma-herpesviruses chronically infect more than 95% of the world's population. This group of viruses induce a state of immunosuppression that cause down-regulation of immune responses. This allows the virus the opportunity to evade the immune system and thus survive within the host. The gamma-herpesviruses do not generally cause serious disease in normal individuals but reactivation of gamma-herpesviruses can cause severe dis ....The cost to public health from herpesvirus infection is enormous. The gamma-herpesviruses chronically infect more than 95% of the world's population. This group of viruses induce a state of immunosuppression that cause down-regulation of immune responses. This allows the virus the opportunity to evade the immune system and thus survive within the host. The gamma-herpesviruses do not generally cause serious disease in normal individuals but reactivation of gamma-herpesviruses can cause severe disease, even mortality, in individuals with an immature or a compromised immune system. Viral reactivation is a major complication of immunosuppressive diseases such as HIV (which currently affects more than 45 million people) and in transplant recipients. The virally-induced changes in the host cells can result in the development of secondary infections, post-transplantation lymphoproliferative disease and even the development of tumours. The central aim of the studies described in this proposal is to understand the cellular and viral mechanisms regulating how the virus is maintained in the host. These studies will improve our understanding of how antigen presenting cells and CD8+ T lymphocytes ensure an immune response is maintained and may identify critical targets to facilitate the rational design of antiviral drugs and vaccines.Read moreRead less
I am an immunologist-virologist studying aspects of the interface between the innate and the adaptive immune systems with the aim of developing new interventions against disease.
Viral infections of the gut are one of the most debilitating infections one can suffer from. Noroviruses are the most common causative agents of viral-associated gastroenteritis but unfortunately little is known regarding their biology and pathogenesis. Our study aims to investigate the replication and pathogenesis of a mouse norovirus to shed light on similar aspects relating to human norovirus infection. We aim to understand how virus infection in cells leads to disease symptoms.
The Genetics And Mechanisms Of Resistance To The Zoonotic Highly Pathogenic Influenza Virus In Avian Species
Funder
National Health and Medical Research Council
Funding Amount
$337,373.00
Summary
Highly pathogenic avian influenza (HPAI) poses a serious pandemic risk. This project will investigate the genetic basis and mechanisms underlying resistance to HPAI in birds. It will explore the role of immune genes in resistance to HPAI in six bird species which vary in their susceptibility to HPAI. Functional tests of resistance genes will be performed to determine how these genes can provide resistance to HPAI. This study will assist in the development of strategies to mitigate disease risks.
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.