Developing Improved Therapies For Cytomegalovirus Infections By Overcoming Viral Strain Diversity.
Funder
National Health and Medical Research Council
Funding Amount
$1,126,820.00
Summary
Cytomegalovirus infection is the most common cause of infection-related disease in newborns and is one of the most common complications in transplant patients. Current treatments are not always successful and are associated with significant side-effects. We have therefore developed world first systems that can be used to develop safer, more effective treatments for this life-threatening infection. Our findings are likely to be applicable to other difficult to manage viral infections.
Repurposing Thalidomide Derivatives To Augment Cancer Immunotherapy
Funder
National Health and Medical Research Council
Funding Amount
$1,154,196.00
Summary
Immunotherapies are a revolutionary approach for cancer treatment, but most people with cancer do not respond to therapy. We have identified a new set of molecular switches that shutdown immune function and limit responsiveness to existing immunotherapies. Importantly, we have found a class of approved drugs that can block these immune 'off switches'. This proposal will test if these drugs could be repurposed as a novel treatment to amplify the efficacy of existing immunotherapies.
Molecular Characterisation Of Host Cell Targets Of Human Pathogenic Viruses And Evaluating Their Potential As Novel Therapeutic Targets.
Funder
National Health and Medical Research Council
Funding Amount
$307,946.00
Summary
There are currently no therapeutics to treat victims of Hendra, Nipah or Rabies virus infections, which account for > 50,000 deaths/yr worldwide. Through not fully understood mechanisms, these viruses affect the functions of specific cellular proteins in order to inhibit the host immune system, a process essential to their pathogenicity. We aim to characterise the mechanisms underlying viral inhibition of host immunity and evaluate their potential as novel targets to develop urgently needed t ....There are currently no therapeutics to treat victims of Hendra, Nipah or Rabies virus infections, which account for > 50,000 deaths/yr worldwide. Through not fully understood mechanisms, these viruses affect the functions of specific cellular proteins in order to inhibit the host immune system, a process essential to their pathogenicity. We aim to characterise the mechanisms underlying viral inhibition of host immunity and evaluate their potential as novel targets to develop urgently needed therapeutics against these deadly pathogens.Read moreRead less
The Role Of PLZF In Regulating The Antiviral Activity Of Interferons
Funder
National Health and Medical Research Council
Funding Amount
$652,005.00
Summary
Interferons are the first line of defence against viral infection. We have shown that the transcription factor promyelocytic leukemia zinc finger protein (PLZF) is a novel regulator of the interferon response. Thus we hypothesize that PLZF is a critical component of the host's innate immune system. This study will provide new insights into the understanding of signal transduction mechanisms, as well as improve our ability to modulate sensitivity to interferon to protect against viral diseases.
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.
Hepatitis C affects a quarter of a million Australians, causing insidious but progressive liver disease which culminates in liver failure or cancer. There is no vaccine and prevention programs have limited effectiveness, but new antiviral therapies now offer high rates of cure. This Program will evaluate strategies to improve the health of those affected and prevent new infections by better understanding of the virus and the body’s immune response, including scarring and liver cancer formation.
Identifying The Mechanism And Spectrum Of Activity Of The Antiviral Protein IFITM3
Funder
National Health and Medical Research Council
Funding Amount
$507,200.00
Summary
In response to an infection cells within the body are capable of expressing a range of molecules that help them resist infection, one such molecule is interferon induced transmembrane protein 3 (IFITM3). This recently identified but poorly studied potent antiviral protein dramatically influences the course of influenza infection in both mice and humans. We will explore the mechanisms of antiviral activity of IFITM3 and determine factors important in initiating and retaining expression.
Identification Of Host Restriction Factors That Block Respiratory Virus Infection
Funder
National Health and Medical Research Council
Funding Amount
$956,898.00
Summary
Following inhalation, respiratory viruses can infect and grow in airway epithelial cells. Although immune cells such as macrophages are also susceptible to infection, this is generally abortive and new viruses are not released. This project will identify proteins induced in macrophages that block respiratory viruses and prevent their spread in the airways. We will also define mechanisms by which some virulent strains overcome this block to grow in macrophages.