Understanding Pathogenicity And Immunity In An Encephalitic Mouse Model Of Hendra Virus Infection
Funder
National Health and Medical Research Council
Funding Amount
$572,342.00
Summary
Our understanding of Hendra virus infection and immunity is extremely limited and has been hampered by a lack of appropriate animal models of disease and reagents. This Project will employ a newly-established mouse model to study encephalitis, the most life-threatening manifestation of this infection. We will use unique, state-of-the-art infrastructure and a plethora of mouse-specific reagents to investigate the mechanisms involved in regulating the host response to infection.
Dengue is a viral infection that is transmitted by mosquitoes in tropical regions of the world, including in northern Australia. For doctors who treat dengue patients, a major unmet need is the ability to predict which patients will develop severe complications and need highly specialized supportive care. This proposal will seek to address this unmet need by examining whether markers of human genetic variation can be used to predict those patients at risk of severe dengue.
COMPARE:Collaborative Management Platform For Detection And Analyses Of (Re-) Emerging And Foodborne Outbreaks In Europe
Funder
National Health and Medical Research Council
Funding Amount
$427,959.00
Summary
COMPARE a large EU project intends to speed up the detection of, and response to disease outbreaks among humans and animals worldwide, through the use of new genome technology and disease-specific information. The aim is to reduce the impact and cost of disease outbreaks. This project allows Australian researchers to participate in this system of detecting and investigating foodborne disease outbreaks that cross international borders.
Hendra virus (HeV) cause a disease transmitted from bats to horses which in turn infect humans and other horses. There are no drugs or vaccines for HeV. Since humans are infected by inhalation, a vaccine that can generate antibody in the lung and protect from infection will be ideal. We have found that a natural sugar called mannan used with virus proteins and administered via the nostrils to generate such responses. In this project we will prepare this vaccine and use it in a mouse model of HeV ....Hendra virus (HeV) cause a disease transmitted from bats to horses which in turn infect humans and other horses. There are no drugs or vaccines for HeV. Since humans are infected by inhalation, a vaccine that can generate antibody in the lung and protect from infection will be ideal. We have found that a natural sugar called mannan used with virus proteins and administered via the nostrils to generate such responses. In this project we will prepare this vaccine and use it in a mouse model of HeV infection to see if it can protect the mice.Read moreRead less
Platform FoR European Preparedness Against (Re-)emerging Epidemics- Australia
Funder
National Health and Medical Research Council
Funding Amount
$386,463.00
Summary
Infectious diseases rank high among the threats to human wellbeing and prosperity- globalisation, migration, tourism, intensive farming and changing climate enhance the likelihood of emergence of outbreaks of infectious disease. The optimal response to an emerging infectious disease requires the rapid acquisition of new knowledge. This project ensures that Australia can contribute to globally coordinated research that will meet the research challenge associated with any new pandemic infection.
BRAIN-MEND: Biological Resource Analysis To Identify New Mechanisms And Phenotypes In Neurodegenerative Diseases
Funder
National Health and Medical Research Council
Funding Amount
$861,866.00
Summary
Current classification of neurodegenerative diseases (ND) based on clinical phenotypes does not take into account underlying disease heterogeneity, or overlapping disease mechanisms, thus hindering therapy development. Segregation and re-classification of ND phenotypes is urgently needed. BRAIN-MEND will reclassify existing phenotypic classifications using using pathway and network analyses within and across complex NDs.
Longitudinal Transcriptome Profiles For People With Dementia
Funder
National Health and Medical Research Council
Funding Amount
$475,913.00
Summary
Over the past decade, less than half a percent of drugs trialled for Alzheimer Disease were found to be effective. This highlights the need for new drug targets. This Fellowship aims to study how genes express themselves over time, among people with very high risk of dementia (genetic form of Alzheimer Disease and Huntington Disease). By looking at gene expression in nerve tissue in the nose, fluid around the brain, and blood, I hope to better understand the disease mechanisms causing dementia.
Development Of Blood-based Biomarkers For The Early Detection Of Brain Amyloid And The Investigation Of The Natural History Of Alzheimer’s Disease.
Funder
National Health and Medical Research Council
Funding Amount
$720,144.00
Summary
To have a direct impact on the diagnosis and treatment of Alzheimer’s and other neurodegenerative diseases we need a detailed molecular understanding of the proteins that drive the disease. My laboratory develops and applies the most advanced analytical tools available to develop blood-based markers that can detect the development of Alzheimer’s disease before symptoms occur. This Fellowship will allow me to expand our understanding of the natural history of Alzheimer’s disease.
Protective Mechanisms Of MAP Kinase Phosphatase 5 In Adipose Tissue Fibrosis, Hepatic Steatosis And Atherosclerosis
Funder
National Health and Medical Research Council
Funding Amount
$352,729.00
Summary
Obesity and associated complications such as diabetes, non-alcoholic fatty liver disease and atherosclerosis are a serious health burden. Recently, we found that MKP5, a molecule that restricts intracellular signaling, plays a central role in preventing these diseases. This collaborative project will elucidate how precisely MKP5 acts and explore how this molecule can be targeted for the development of novel therapeutic strategies in prevention and treatment of human metabolic diseases.
DEVELOPMENT OF NOVEL THERAPEUTICS FOR DEMENTIA: Investigating Tailored Brain Stimulation Approaches For Dementia Prevention And Treatment.
Funder
National Health and Medical Research Council
Funding Amount
$723,105.00
Summary
Dementia is a debilitating and devastating illness impacting significantly on sufferers, carers and the wider community. Current treatment approaches are limited in their effectiveness and alternative therapeutics are needed. My research will investigate the use of brain stimulation techniques for the treatment and prevention of dementia.