Comparative Expression Studies To Identify Cellular Factors Promoting Hendra Virus Replication For A Comprehensive Understanding Of Hendra Virus Pathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$374,619.00
Summary
Hendra virus (HeV) is an emerging pathogen indigenous to fruit bats. HeV is associated with limited outbreaks with high mortality in domesticated animals and humans. To advance the understanding of HeV-related pathogenesis, we will perform comparative studies in bat and human cell lines to recognise differences in virus-host cell interactions leading to a comprehensive understanding of the HeV life cycle and pathogenesis.
Chronic Active Viral Persistence Versus Host Immune Mediated Pathology: An Analysis And Manipulation Of The Balance.
Funder
National Health and Medical Research Council
Funding Amount
$418,658.00
Summary
Our robust ability to mount an immune response and clear infections is tempered by the possibility of promoting autoimmunity. Several host genes regulate immunity. Viruses like HIV have exploited these to abrogate antiviral immunity. This project attempts to define host factors that promote chronic infection. This will be extremely valuable in understanding the vulnerabilities of our immune system and provide an insight into how we can treat chronic infections.
Viral Infection And Exacerbations Of Asthma During Pregnancy: Characteristics, Mechanisms And Consequences
Funder
National Health and Medical Research Council
Funding Amount
$465,210.00
Summary
At least 12% of pregnant women in Australia have asthma and more than half of these women will experience an acute attack during pregnancy. This puts the fetus at risk of poor outcomes such as low birth weight or premature birth, which has a significant impact on their health in both the short term and long term. The mechanisms which lead to exacerbations of asthma during pregnancy are unknown, but have implications for the treatment of pregnant women with asthma. In non-pregnant adults, the maj ....At least 12% of pregnant women in Australia have asthma and more than half of these women will experience an acute attack during pregnancy. This puts the fetus at risk of poor outcomes such as low birth weight or premature birth, which has a significant impact on their health in both the short term and long term. The mechanisms which lead to exacerbations of asthma during pregnancy are unknown, but have implications for the treatment of pregnant women with asthma. In non-pregnant adults, the majority of asthma exacerbations are caused by viral infection and it is likely that a similar mechanism operates in pregnant women with asthma. No previous studies have identified the viruses responsible for exacerbations of asthma during pregnancy. We currently have a promising lead in this area, with data showing that one third of pregnant women with asthma have a severe exacerbation of their asthma requiring medical intervention during pregnancy, and a large proportion of these are likely to be due to viral infection. We propose that during pregnancy, pregnant women with asthma are more susceptible to viral infection than pregnant women without asthma. We also suggest that women with asthma will have more severe viral infections during pregnancy, and that these will contribute to the majority of acute asthma attacks during pregnancy. This project will determine the rate of infection among pregnant women with and without asthma and determine the viruses responsible for acute attacks of asthma during pregnancy. The study will also explore the inflammatory mechanisms which predispose women to viral infection. These results will contribute to a greater understanding of the mechanisms leading to exacerbations of asthma during pregnancy and will be used to develop more appropriate asthma monitoring and treatment strategies for pregnant women, which will have health benefits for both mother and baby.Read moreRead less
Immune Cell Interactions And Cell Signalling Pathways Important For Rotavirus Infection
Funder
National Health and Medical Research Council
Funding Amount
$343,812.00
Summary
Rotaviruses are the main cause of severe diarrhoea in Australian children, through infection of the gut cells that absorb food. This project aims to understand the effects of rotaviruses on the functioning and survival of these cells at the molecular level. It will similarly determine the effects of rotavirus infection on the immune cells. These studies will increase understanding of how rotaviruses cause disease, and assist in the development of drugs or improved vaccines against rotavirus.
Soluble Inhibitors Of Influenza Virus In The Airway Fluids Of Mice, Ferrets And Humans.
Funder
National Health and Medical Research Council
Funding Amount
$404,803.00
Summary
This study will characterize the ability of soluble proteins in airway secretions to recognize and destroy influenza viruses. As many of our insights regarding influenza pathogenesis are derived from studies in animal models, we will characterize the importance of proteins in airway fluids from mice and ferrets, as well as from humans. These findings will be of particular importance when assessing the relevance of particular animal models to understanding human disease.
Clearing Chronic Infectious Diseases – Enhancing Host Immune Effector Function
Funder
National Health and Medical Research Council
Funding Amount
$92,314.00
Summary
Chronic infections produced by pathogens such as HIV, overwhelm our immune system leading to an exhausted state where cells responsible for the clearance of invading microorganisms are unable to respond effectively. We have recently identified a highly promising therapeutic target that enhances immune effector function. We seek to understand the underlying mechanism, and to explore the therapeutic potential of this approach for the treatment of a broad range of pathogens, including those respons ....Chronic infections produced by pathogens such as HIV, overwhelm our immune system leading to an exhausted state where cells responsible for the clearance of invading microorganisms are unable to respond effectively. We have recently identified a highly promising therapeutic target that enhances immune effector function. We seek to understand the underlying mechanism, and to explore the therapeutic potential of this approach for the treatment of a broad range of pathogens, including those responsible for chronic disease.Read moreRead less
Hepatitis C virus (HCV), the main cause of of post-transfusion and community -acquired non-A, non-B hepatitis, infects approximately 170 million humans world-wide with some 135,000 infections in Australia alone. HCV is hyper-endemic in intravenous blood users with typical prevalence rates of 60-70%. About 75-80% of infected individuals develop a chronic infection, usually resulting in recurrent, progressively worsening liver damage. Cirrhosis develops in 10-20% of chronic cases while 1-5% of chr ....Hepatitis C virus (HCV), the main cause of of post-transfusion and community -acquired non-A, non-B hepatitis, infects approximately 170 million humans world-wide with some 135,000 infections in Australia alone. HCV is hyper-endemic in intravenous blood users with typical prevalence rates of 60-70%. About 75-80% of infected individuals develop a chronic infection, usually resulting in recurrent, progressively worsening liver damage. Cirrhosis develops in 10-20% of chronic cases while 1-5% of chronic carriers develop liver cancer. Development of an effective vaccine is complicated due to the highly variable nature of the virus. Approved therapies include alpha-interferon and alpha interferon-ribavirin combinations but these treatments induce efficacious responses in only 20-30% of patients and often have severe side-effects. It is assumed that after attachment of HCV to the cell surface, the virus is internalised by the cell and undergoes fusion with a cellular compartment referred to as an endosome. The low pH environment of the endosome is presumed to trigger viral fusion via its cell surface glycoproteins and empties the replication machinery of the virus into the cell. No reliable systems for the propagation of HCV are available thereby limiting studies into the mechanisms of how HCV infects cells and the development of vaccines. Recently a cell surface molecule, CD81, was identified as a possible receptor for the attachment of HCV to susceptible cells. Our aim is to 1) develop model systems for studying HCV entry and fusion and 2) further characterise the interaction of the HCV glycoproteins with CD81 with the goal of obtaining a three-dimersional structure of the interaction . These studies will address the fundamental questions of how HCV enters cells leading new avenues for the design of inhibitors of HCV entry.Read moreRead less
Characteristics And Mechanisms Of Persistent Asthma After Common Cold Virus Infection
Funder
National Health and Medical Research Council
Funding Amount
$407,750.00
Summary
Asthma is a major health problem for the Australian community. Recent studies have shown increasing numbers of people of all ages are developing asthma, and despite a fall in asthma deaths, large number of people continue to have severe attacks requiring hospitalisation. In most cases the deterioration in asthma symptoms is related to a cold or flu like illness. Viruses are the leading cause of these infections and are known to make asthma symptoms worse. We have identified how viruses do this b ....Asthma is a major health problem for the Australian community. Recent studies have shown increasing numbers of people of all ages are developing asthma, and despite a fall in asthma deaths, large number of people continue to have severe attacks requiring hospitalisation. In most cases the deterioration in asthma symptoms is related to a cold or flu like illness. Viruses are the leading cause of these infections and are known to make asthma symptoms worse. We have identified how viruses do this by triggering a type of inflammation in the airways. We have also found that after a severe attack of asthma some people do not recover completely. They appear to have persistent problems, and in some cases the virus can still be isolated from the airways. How and why this occurs is not known. We are seeking to understand this problem and describe how it affects people with asthma. We plan to investigate what effect certain viruses have on the lungs of people with asthma by measuring cells and chemicals that are present in sputum. We will use recently developed technologies to accurately see what viruses are infecting these people, and how the immune system is working. This study will shed important light on potential causes of unstable asthma and the role that viral infection plays in this. It may also lead to new opportunities to develop treatments that are more effective in preventing and controlling asthma.Read moreRead less
Characterize The Post-entry Events Of HIV Infection
Funder
National Health and Medical Research Council
Funding Amount
$605,190.00
Summary
For HIV to successful infect a target cell, it must properly remove the outer layers of its protective gears (outer viral protein coats) to allow the viral genetic materials to be replicate (duplicate and multiplied) for the generation of their ‘offspring viruses’. This process is known as viral uncoating, and it is arguably one of the least understood areas of HIV. In this proposal, we will use a number of complementary state-of-the-arts research tools to characterize the HIV uncoating process.