Identification Of Host Factors That Restrict Influenza Virus Replication In Macrophages
Funder
National Health and Medical Research Council
Funding Amount
$566,446.00
Summary
Influenza virus infects different cells in the airways, including immune cells (macrophages) and non-immune cells (epithelial cells). Epithelial cell infection results in virus amplification and release whereas macrophage infection leads to virus destruction. This project will identify cellular factors expressed by macrophages that block virus amplification and release. Identification of novel antiviral factors is an important step towards developing strategies to reduce influenza disease.
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.
Molecular Pathogenesis Of Emerging West Nile Viruses
Funder
National Health and Medical Research Council
Funding Amount
$594,133.00
Summary
West Nile virus (WNV) is a mosquito-borne virus that causes potentially fatal encephalitis in humans and horses. This project will investigate the recent emergence of pathogenic for horses WNV in Australia and the potential of this new isolate to cause severe disease in humans. We will define the viral and host factors determining the outcome of WNV infection. This project will provide knowledge on the factors involved in the emergence of virulent WNV strains from attenuated isolates.
Virulence Determinants Of Encephalitic Flaviviruses
Funder
National Health and Medical Research Council
Funding Amount
$455,670.00
Summary
Murray Valley encephalitis, Japanese enecephaltis virus and West Nile virus are mosquito transmitted pathogens that cause severe and fatal neurological diseases in man and animals. Currenly, it is not clear why these viruses produce such severe diseases and therefore they are difficult to treat and prevent. In this project we will indentify the components of the viruses that allow them to invade the central nervous sytem and cause neurological symptoms. This will provide valuable information on ....Murray Valley encephalitis, Japanese enecephaltis virus and West Nile virus are mosquito transmitted pathogens that cause severe and fatal neurological diseases in man and animals. Currenly, it is not clear why these viruses produce such severe diseases and therefore they are difficult to treat and prevent. In this project we will indentify the components of the viruses that allow them to invade the central nervous sytem and cause neurological symptoms. This will provide valuable information on critical elements of these pathogenic viruses that contribute to their virulence and will identify new candidate vaccines for prevention of the encephalitic diseases they cause.Read moreRead less
The Role Of Actin-based Motility As A Virulence Mechanism And Potential As An Antiviral Target
Funder
National Health and Medical Research Council
Funding Amount
$325,798.00
Summary
Our repertoire of effective treatments for infectious diseases is fast becoming exhausted as resistance to antibiotics and antivirals evolves and rapidly spreads throughout our community. We have developed a new paradigm in treating viral diseases that we predict will not give rise to resistance, and this project will be the first to demonstrate the effectiveness of this novel therapy in an endemic disease model.
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.
New Drug Combinations To Enhance Elimination Of Hepatitis B Infection
Funder
National Health and Medical Research Council
Funding Amount
$888,304.00
Summary
We have developed a therapy that kills hepatitis B virus infected cells and promotes elimination of infection. We are now testing novel drugs that can be used to maximise the efficacy of our new treatment to promote better outcomes that may be translated to other infections.
THE ROLE OF CELL SURFACE GLYCOSAMINOGLYCANS IN FLAVIVIRUS BIOLOGY: VIRUS ENTRY, TROPISM, VIRULENCE, AND ANTIVIRALS
Funder
National Health and Medical Research Council
Funding Amount
$493,764.00
Summary
The flaviviruses are a group of viruses mostly transmitted by the bite of infected mosquitoes or ticks to vertebrate hosts. They have a world-wide distribution and many flaviviruses are important human and veterinary pathogens. Dengue virus is the most important flavivirus in terms of disease frequency, causing >50 million cases of dengue fever, annually, in tropical and subtropical countries. It has been estimated that 2.5 billion people are at risk of dengue virus infection. Japanese enceph ....The flaviviruses are a group of viruses mostly transmitted by the bite of infected mosquitoes or ticks to vertebrate hosts. They have a world-wide distribution and many flaviviruses are important human and veterinary pathogens. Dengue virus is the most important flavivirus in terms of disease frequency, causing >50 million cases of dengue fever, annually, in tropical and subtropical countries. It has been estimated that 2.5 billion people are at risk of dengue virus infection. Japanese encephalitis virus is the most important causative agent of viral encephalitis in humans; >35,000 cases of Japanese encephalitis occur annually, with 30-50% mortality and frequent life-long neurological impairment among survivors. Murray Valley encephalitis virus is endemic in northern Australia where it gives rise, in most years, to a small number of human cases of sometimes fatal encephalitis. Dengue, Japanese encephalitis, and Murray Valley encephalitis viruses are a threat to human health in Australia. There is wide-spread speculation that climate change will affect the pattern of transmission of vector-borne pathogens; accordingly , the population at risk of flavivirus infection in Australia (and world-wide) may dramatically increase in future years. This project investigates the role of sulfated sugar molecules present abundantly on cellular surfaces in the biology of flaviviruses. It will address how the binding ability of medically important flaviviruses to these sulfated sugars impacts on the efficiency of virus entry into diverse cell types and, in turn, on the virus ability to cause disease. Ultimately, we aim to exploit the affinity of flavivirus particles to the sulfated sugar molecules on cellular surfaces; we will select synthetic mimetics of these sulfated sugars that block virus attachment to cells, and thus may identify antiviral compounds that may find application as therapeutic agents against flaviviral disease.Read moreRead less
Novel Insights Into The Pathobiology Of Alphavirus Infections
Funder
National Health and Medical Research Council
Funding Amount
$583,477.00
Summary
Ross River virus and chikungunya virus cause muscle and joint pain that can persist for a long time. This project looks at factors in the human host that affect the disease severity, with the aim of finding new treatments.
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.