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.
A vaccine for hepatitis C virus (HCV) is not yet available. Immune responses that are able to protect against infection are possible, making the production of a vaccine a realistic goal. We have produced a unique HCV vaccine and are now poised to test our vaccine in novel humanised animal models. Our research will allow us to determine the immune responses responsible for providing protection against HCV. Our data will be highly significant for future HCV vaccine studies in humans.
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.
We will construct different genetically engineered viruses, which infect cells in the respiratory tract, to deliver genes encoding proteins from human immunodeficiency virus (the AIDS virus). These engineered viruses can be expected to generate an active immune response in mucosal tissues, including the vaginal and rectal tracts. As these are the major routes for transmission of the AIDS virus, these new vaccines are expected to reduce transmission of the AIDS virus.
What happens when viruses infect cells? How do they control the cells they infect? How do the make the cells do the things the virus wants? These are the questions that we aim to address within this research proposal. Primarily we hope to identify how viruses are able to replicate in cells and avoid immune detection. We believe these processes are related.
Profiling The Specificity Of The Neutralizing Antibody Response In People Who Have Long Term Protection From Developing Chronic HCV
Funder
National Health and Medical Research Council
Funding Amount
$372,972.00
Summary
Hepatitis C causes chronic liver disease in over 150 million people world-wide. In this study we will determine the qualities of the immune response that protect individuals from HCV infection and reinfection. The outcomes of this study will provide a pathway for the development of vaccines that elicit protective immune signatures.
Host Metabolism And Responses Contributing To Flavivirus Replication And Pathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$592,772.00
Summary
We aim to determine how viruses affect the cells they infect, In particular how they can alter the metabolism and balance of lipids in cells and how this impacts the bodies capability to respond immunologically. We believe that by understanding these basic principles we can target ares fr antiviral therapeutic potential.
Viral gastroenteritis poses an enormous burden in public health and is an emerging problem due to the acute nature of the infection process. We aim to understand how our bodies react to infection with Noroviruses, in particular how our immune system is triggered and unfortunately avoided during an infectious episode. We also aim to determine how Noroviruses utilized host components and pathways to facilitate infection in the body.
The Role Of The Inflammasome In Modulating Disease During Influenza Virus Infection
Funder
National Health and Medical Research Council
Funding Amount
$616,979.00
Summary
Highly pathogenic influenza A virus (IAV) infections in humans are associated with high mortality rates. This project will provide global and fundamental insights into our understanding of why IAV often cause fatal disease. It will advance knowledge of the mechanisms by which the host and virus interact and elucidate how the host's immune system responds to the infection and modulates disease, to facilitate the development of improved treatments for severe IAV infections.
Stealth Liposomes And SiRNA For The Treatment Of Respiratory Viral Infections
Funder
National Health and Medical Research Council
Funding Amount
$528,793.00
Summary
Respiratory infections caused by Influenza and Respiratory syncytial virus cause significant hospitalisations and deaths within the community. For example, RSV causes around 1000 hospital admissions of young children a year and there is no cure or vaccination. Therapies are limited and toxic. We will develop and test a novel therapy based on gene silencing to specifically target viral genes, and combine this with our novel drug delivery system for better treatment of these diseases.