Identification Of Risk Factors Associated With Exposure To Australian Bat Lyssavirus
Funder
National Health and Medical Research Council
Funding Amount
$230,344.00
Summary
Australia is one of the few countries in the world known to be free of rabies. A dramatic impact on this status occurred in 1996. A flying fox in northern NSW was found to be infected with a rabies-like virus. Within 16 weeks of this discovery the first human case occurred. A further human case has now been reported. The newly discovered virus, named Australian bat lyssavirus (ABL) was found to be closely related to, but distinguishable from, rabies virus. Rabies virus is responsible for thousan ....Australia is one of the few countries in the world known to be free of rabies. A dramatic impact on this status occurred in 1996. A flying fox in northern NSW was found to be infected with a rabies-like virus. Within 16 weeks of this discovery the first human case occurred. A further human case has now been reported. The newly discovered virus, named Australian bat lyssavirus (ABL) was found to be closely related to, but distinguishable from, rabies virus. Rabies virus is responsible for thousands of human infections each year, mainly in Asia and South Asia where it is endemic in urban dogs. In contrast, other rabies-like viruses have caused only a handful of human infections. Although the number of human cases of ABL is likely to remain low, each of the two known cases has aroused a great deal of public anxiety. The natural hosts appear to be various species of bats which collectively have a distribution along the entire northern and eastern coastlines. The number of potential exposures is therefore quite large and state health departments are devoting considerable resources to dealing with public concerns. This project will establish clearly defined risk factors for exposure to ABL and will allow health authorities to better manage expensive and limited vaccine and therapy resources.Read moreRead less
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 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
Defining The Molecular Mechanisms Of Lyssavirus Replication And Immune Evasion: The P Protein Axis
Funder
National Health and Medical Research Council
Funding Amount
$900,995.00
Summary
Lyssaviruses such as rabies virus (RABV) and Australian bat lyssavirus cause rabies disease, which has the highest case-fatality rate of known infectious diseases, causing >60,000 human deaths/year. Critical to this is a protein produced by the virus that is important for both viral growth and evasion of the host's immune defences. This project aims to understand the molecular mechanisms underlying these processes, which may lead to new approaches to combat currently incurable viral diseases.
Viral Factors Contributing To Flavivirus-induced Cell Death And Pathogenicity
Funder
National Health and Medical Research Council
Funding Amount
$612,885.00
Summary
West Nile virus is a mosquito-transmitted pathogen that causes severe and fatal neurological disease in humans. There are currently no effective treatments or vaccines for this disease. In this project, we will investigate how West Nile virus and other viruses of the same group use a novel translational regulatory mechanism to modulate the host antiviral response and facilitate viral pathogenicity. This will provide valuable information for the development of effective treatments against this me ....West Nile virus is a mosquito-transmitted pathogen that causes severe and fatal neurological disease in humans. There are currently no effective treatments or vaccines for this disease. In this project, we will investigate how West Nile virus and other viruses of the same group use a novel translational regulatory mechanism to modulate the host antiviral response and facilitate viral pathogenicity. This will provide valuable information for the development of effective treatments against this medically important group of viral pathogens.Read moreRead less
Advances In The Understanding Of Autoimmune Encephalitides And Associated Movement Disorders In Children
Funder
National Health and Medical Research Council
Funding Amount
$68,832.00
Summary
Encephalitis in childhood can be devastating with long lasting effects and mortality. This research focuses on children who suffer from encephalitis due to an autoimmune process. In such cases many children present with involuntary abnormal body movements. This project will explore whether differences in the nature of these movements or in electroencephalography or brain imaging with MRI, can help early differentiation of different types of autoimmune encephalitis.
Identification And Early Treatment Of Autoimmune Brain Disease In Children
Funder
National Health and Medical Research Council
Funding Amount
$406,491.00
Summary
Acquired brain injury affects 2% of Australians, particularly young people, and can result in permanent disability. Most acquired brain injury is not reversible, however ‘autoimmune brain disease' is due to an overactive immune system and is treatable with modulation of the immune system. By measuring antibodies in the blood, this fellowship will result in early identification and treatment of autoimmune brain disease, and improve outcomes.