Viral Targeting Of STAT Proteins: Roles In Disease
Funder
National Health and Medical Research Council
Funding Amount
$536,985.00
Summary
The capacity of viruses to evade the host immune response is critical to the development of disease. We recently showed that interaction of specific viral proteins with host immune proteins called STATs is vital to lethal disease caused by lyssaviruses. In this project, we aim to define in detail the functions of these interactions in viral modification of host biology and evasion of the immune response, and to use this information to develop new vaccines against highly pathogenic human viruses.
The Interplay Between Viperin, Peroxisomes And The Cellular Innate Antiviral Response
Funder
National Health and Medical Research Council
Funding Amount
$556,127.00
Summary
Infection with a virus initiates a cellular antiviral response that attempts to limit viral replication, however how this response is regulated is not well understood. In this proposal we will investigate a cellular protein (viperin) that can regulate this process by interaction with peroxisomes to amplify the antiviral response. This work will provide possible targets for therapeutic manipulation of the innate immune response that will be applicable to a wide range of viral infections.
Inhibition Of Interferon-alpah-beta By Chikungunya Virus And The Induction Of Arthritis
Funder
National Health and Medical Research Council
Funding Amount
$709,193.00
Summary
Chikungunya virus is a mosquito borne virus which has caused epidemics of arthritis around the world (recently 260,000 people Reunion Island, France and 1.6 million people in India). The virus is ordinarily very sensitive to the main mammalian anti-viral defence system (interferon alpha-beta). This grant seeks to understand how, despite the activation of this system during infection, the virus manages to persist and cause 3-6 months of debilitating arthritis.
I am a molecular virologist researching the host response to hepatitis C virus (HCV) infection with the aim of understanding how the liver clears HCV infection. An understanding of this process will hopefully lead to novel antiviral strategies to combat not only HCV but a broad range of other viral infections.
Cell Type Specific Biologic Responses To HIV Infection
Funder
National Health and Medical Research Council
Funding Amount
$636,242.00
Summary
The way in which HIV alters the internal environment of its target cells to facilitate its growth will be examined. These changes enhance its ability to gain a toehold in the human body after entering the genital tract and its persistence for life in the brain and elsewhere in the body.
Inhibition Of Interferon-?/? Induction By Ross River Virus
Funder
National Health and Medical Research Council
Funding Amount
$589,664.00
Summary
Ross River virus is a mosquito-borne virus that causes arthritis in the joints of many people infected. This project will look at the early interactions of a virulent virus with the mammalian host that appear to enable the virus to replicate and spread in the host and thereby cause disease. These interactions are with the host interferon protein which the virus has developed the ability to inhibit. The effect of the invading virus on the host's interferon system, part of the immune system, will ....Ross River virus is a mosquito-borne virus that causes arthritis in the joints of many people infected. This project will look at the early interactions of a virulent virus with the mammalian host that appear to enable the virus to replicate and spread in the host and thereby cause disease. These interactions are with the host interferon protein which the virus has developed the ability to inhibit. The effect of the invading virus on the host's interferon system, part of the immune system, will be examined.Read moreRead less
Several members of the Flaviviridae family are major pathogens of humans including dengue (DEN), yellow fever (YF), tick-borne encephalitis (TBE), Murray valley encephalitis (MVE), Japanese encephalitis (JE), and hepatitis C virus (HCV). An Australian flavivirus Kunjin (KUN), however, appears to be naturally attenuated and does not cause an overt disease in humans. In contrast, genetically and antigenically closely related to KUN, New York strain of West Nile virus (NY WN) has already caused ~50 ....Several members of the Flaviviridae family are major pathogens of humans including dengue (DEN), yellow fever (YF), tick-borne encephalitis (TBE), Murray valley encephalitis (MVE), Japanese encephalitis (JE), and hepatitis C virus (HCV). An Australian flavivirus Kunjin (KUN), however, appears to be naturally attenuated and does not cause an overt disease in humans. In contrast, genetically and antigenically closely related to KUN, New York strain of West Nile virus (NY WN) has already caused ~500 deaths and over 20,000 registered infections since its emergence in North America in 1999, including 223 deaths and 9122 infections in 2003 alone. Recent studies with DEN indicated that flaviviruses may interfere with early steps of IFN-signalling pathway. The type I Interferon (IFN) response is the first line of defence against viral infections and many viruses have developed different strategies to counteract this response in order to ensure their survival in the infected host. In this grant we seek to exploit our extensive understanding of the molecular biology of KUN virus and the contrasting behaviour of KUN and NY WN viruses to gain an understanding of the role of flavivirus-mediated suppression of host anti-viral IFN response in virus-host relationships and its importance in determining virus virulence.Read moreRead less
Rotavirus is the main cause of severe diarrhoea in children worldwide. In this project, we aim to understand the nature of the first-line immune response to rotavirus in the gut, and elucidate how RV counteracts this response to promote infection. These studies will increase our understanding of how rotavirus causes disease, and facilitate the choice of rotavirus targets for drug development and improved vaccines.
Discovery Of A Novel Immune Evasion Strategy Employed By Mosquito Borne Viruses To Suppress Antiviral Immune Responses
Funder
National Health and Medical Research Council
Funding Amount
$418,642.00
Summary
The transition from mosquitoes, ticks, or other invertebrate vectors to the human hosts represents a crucial step in the successful establishment of arthropod borne viruses (arboviruses). The incidence of arbovirus infections such as dengue virus, West Nile virus, Ross River virus is increasing at an alarming rate in various parts of the world. In addition, the emergence of new viruses resulting in significant mortality in the population is of utmost concern. Vaccines for many of these viruses r ....The transition from mosquitoes, ticks, or other invertebrate vectors to the human hosts represents a crucial step in the successful establishment of arthropod borne viruses (arboviruses). The incidence of arbovirus infections such as dengue virus, West Nile virus, Ross River virus is increasing at an alarming rate in various parts of the world. In addition, the emergence of new viruses resulting in significant mortality in the population is of utmost concern. Vaccines for many of these viruses remain elusive. One factor that contributes to this is the ability of viruses to develop ingenious strategies to avoid or suppress the host defence systems, which enable its successful establishment in the host. Understanding how viruses evade-suppress host defence machinery will certainly enhance and improve our approaches to fight them. For the first time internationally we have discovered a new and novel pathway employed by arboviruses to suppress antiviral immune responses in the host. We have discovered that naturally occurring carbohydrates on viruses derived from mosquito cells, would influence these virus s ability to evade-suppress host antiviral proteins such as interferons. This may be a general effect of arboviruses or may even extend to other viruses , which include a number of deadly pathogens (HIV, Influenza). This research has the potential to significantly expand our understanding of how these viruses establish infection and cause disease. Also this discovery has broader implications for understanding inflammatory processes and their regulation.Read moreRead less