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.
The Role Of Noncoding Subgenomic Flavivirus RNA In Virus-host Interactions
Funder
National Health and Medical Research Council
Funding Amount
$624,429.00
Summary
Flaviviruses such as Dengue, Japanese encephalitis , and West Nile are major human pathogens causing more than 50 million infections per year. Elements in viral genome responsible for pathogenesis of these viruses are not well defined. Recently we have identified a unique for these viruses noncoding subgenomic flavivirus RNA (sfRNA) and showed that it is contributing to viral pathogenesis. In this proposal we aim to determine mechanisms by which sfRNA facilitates viral pathogenesis.
This project investigates the way in which viruses are able to use host cell machinery to make viral proteins and to replicate their own genetic material. We focus on the picornavirus family that cause illnesses with important health and economic consequences including serious heart infections such as myocarditis and pericarditis as well as the "common cold". This research we will reveal new possible avenues of antiviral development.
Rhinovirus Protease Subcellular Trafficking And Host Cell Targets; Relevance To Asthma Exacerbation And Vaccine Approaches
Funder
National Health and Medical Research Council
Funding Amount
$582,072.00
Summary
Rhinovirus (RV) infections are the major cause of virus induced asthma attacks, causing significant morbidity and mortality. Asthma & asthma exacerbations are increasing worldwide with new strategies urgently needed to reduce RV-associated disease. We aim to build on our substantive new data, using cutting edge technology to identify new targets for novel asthma therapies.
Successful HIV remission and cure, where patients can live normally without daily drug therapy and risk of transmitting infectious virus, will critically depend on understanding the mechanisms that control the expression of viral messenger RNA and proteins. This project further explores the mechanisms controling poorly understood steps in the proecssing of viral mRNA that are required for HIV protein produciton, and identifies new targets and strategies to drive HIV into permanent remission.
HIV-1 Transcriptional Gene Silencing By Promoter Targeted Si/shRNAs: Uncovering Mechanisms, Optimising Delivery Systems, Assessing In Vivo Efficacy.
Funder
National Health and Medical Research Council
Funding Amount
$641,789.00
Summary
Current therapy for HIV is effective but must be taken for life. If therapy is stopped the virus comes back immediately from reservoirs not affected by current drugs. These fluctuating levels of virus are associated with increased illness and death. We are exploring a method of inducing prolonged viral latency using short double stranded RNA molecules. We propose to understand the mechanism of action of these possible therapeutics and to develop these constructs towards use in clinical trials.
Molecular Basis For RIG-I Like Receptor Activation Of The Innate Immune Pathway.
Funder
National Health and Medical Research Council
Funding Amount
$564,770.00
Summary
This project is to understand how proteins in the cell detect the presence of invading viruses, and pass on the message for the cell to produce defence molecules. The overproduction of these defence molecules can lead to inflammatory diseases. This research will help us to understand the process of the innate immune response in cells and how we might control it in disease states.
MRNA Surveillance In Human Genetic Disease: Molecular Determinants Of Nonsense-mediated MRNA Decay
Funder
National Health and Medical Research Council
Funding Amount
$371,275.00
Summary
In about 1/3 of inherited disorders the mutations introduce an abnormal stop signal into the gene so that cells risk producing truncated or erroneous proteins. To prevent this cells have developed control surveillance mechanisms called Nonsense Mediated mRNA Decay (NMD). We have found a new form of NMD and our studies are directed determining how this works in cells, which genes use this pathway, and the consequences of this for human genetic disease.
An unusual type of molecule, circular RNA, was recently discovered to be present in human cells, and to potentially affect the ability of cancer cells in invade and metastasise. We will investigate the interactions these circular RNA molecules have with other molecules, what functions they have, and how they affect cancer cell invasion and metastasis. This could potentially reveal new ways of intervening in cancer metastasis, leading to new therapeutic modalities for cancer patients.
Cell-specific Regulation Of The MicroRNA/RNAi Pathway
Funder
National Health and Medical Research Council
Funding Amount
$659,390.00
Summary
MicroRNAs are a group of molecules that are critical for controlling the activity of genes. They function in a diverse range of biological systems, such the brain and immune system. Although we know that these molecules are important, how they are made in cells is still poorly understood. Because these molecules have potential therapeutic applications, it is essential that we gain a precise understanding of their biology before we will be able to apply these to medicine.