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.
Defining The Requirement For The Inhibition Of Bak To The Pathogenesis Of Cytomegalovirus Infection
Funder
National Health and Medical Research Council
Funding Amount
$592,661.00
Summary
Apoptosis, or programmed cell death is a powerful defence mechanism against viral infection. Thus, to replicate efficiently viruses have evolved means to inhibit apoptosis. The central aim of this work is to understand how cytomegalovirus prevents cell death protein during infection. The proposed studies will improve our understanding of the mechanisms that regulate viral replication and will contribute insights into the normal processes that control cell survival.
The Role Of Noncoding Viral RNAs In Flavivirus Infection And Exosomal Signalling
Funder
National Health and Medical Research Council
Funding Amount
$683,447.00
Summary
The application is aimed at investigating the novel role for viral noncoding RNAs in exosomal antiviral signalling and associated outcome of infection with West Nile virus. We will identify host enzymes involved in generation of viral noncoding RNAs, determine which host proteins they interact with and how these interactions determine their incorporation into secreted exosomes to influence outcome of infection.
Norovirus Infection At The Stress Granule-PKR-p-elF2α Axis
Funder
National Health and Medical Research Council
Funding Amount
$505,967.00
Summary
This project application will aim to investigate and understand how viruses that cause vomiting and diarrhoea are able to infect, proliferate and spread within the human body. It aims to address how viruses are able to avoid and replicate in the presence of an effective immune response. We have evidence showing that Noroviruses are able to exploit certain antiviral proteins to paradoxically aid in virus replication and survival.
Viral And Host Factors Determining Outcome Of Zika Virus Infection
Funder
National Health and Medical Research Council
Funding Amount
$910,780.00
Summary
The proposal aims at identifying viral and host factors determining outcomes of infection with Zika virus, a significant mosquito-transmitted pathogen associated with debilitating neurological pathology in new-borne babies from mothers infected during pregnancy. We will use cutting edge methodologies and infections models to bring our understanding of Zika virus infection to unprecedented level. The results could also facilitate identification of targets for effective anti-viral therapy.
Viral disease is a major health hazard in the modern world. SV40 is a relatively simple virus which must enter mammalian cells in order to replicate. As it does so, it causes the infected cell to divide and hence triggers tumour formation in the host. This proposal is aimed at understanding how SV40 enters cells, and then passes to the nucleus where it replicates. Most viruses have hijacked existing pathways into cells. For example, some viruses have used the pathway by which cells take up nutri ....Viral disease is a major health hazard in the modern world. SV40 is a relatively simple virus which must enter mammalian cells in order to replicate. As it does so, it causes the infected cell to divide and hence triggers tumour formation in the host. This proposal is aimed at understanding how SV40 enters cells, and then passes to the nucleus where it replicates. Most viruses have hijacked existing pathways into cells. For example, some viruses have used the pathway by which cells take up nutrients from the external medium. However, we have shown that SV40 uses a completely novel pathway involving surface pits called caveolae. The subsequent steps in the pathway are unknown and have been difficult to study. We have discovered a number of agents which inhibit infection by SV40. In this proposal we will characterise the infectious entry pathway by investigating exactly where in the cell these agents work. We will then isolate the virus from within the cell and attempt to reconstitute part of the viral entry pathway in vitro. These studies will provide insights into the entry pathway of the virus which may lead to new therapeutic strategies to combat viral disease. In addition, study of this pathway, leading from the cell surface to the nucleus, may provide new avenues for drug delivery and-or gene targetting.Read moreRead less
Current combination antiviral therapy can't cure an HIV infection because long-lived T-cells carrying latent HIV DNA can rekindle the infection when drugs are removed. We will study elements in HIV genetic code that control expression of HIV proteins from latent HIV. A detailed molecular understanding of the structure and function of these HIV RNA elements and the viral and host cell factors that interact with them will expose new targets for therapy of latent HIV.
The Mechanism Of HSV-1 Transport In Sensory Axons And Its Unique Assembly At The Axon Terminus
Funder
National Health and Medical Research Council
Funding Amount
$670,284.00
Summary
Herpes simplex viruses 1 and 2 cause common diseases such as genital herpes and, occasionally, neonatal deaths and encephalitis and predisposes to HIV infection. New antiviral strategies are required for resistant viruses for control. These aims will be facilitated by understanding how HSV is transported down nerves and across into skin. In this study, we will define how a key viral protein plays a major role in assembly of the virus at the tip of the nerve before it enters skin.