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Vaccine To Prevent Influenza Virus And Bacterial Super-infection.
Funder
National Health and Medical Research Council
Funding Amount
$707,717.00
Summary
Influenza viruses have the ability to pre-dispose infected hosts toward secondary bacterial complications. The mortality of viral infections that are complicated by a concurrent, or subsequent, bacterial infection (known as a super-infection), is often greater than that of either the virus or the bacteria alone. We will develop a novel multi-pathogen vaccine candidate against the major upper respiratory tract pathogens - Influenza A and Streptococcus pyogenes to prevent super-infections.
Bushfire Smoke Exposure During Pregnancy And Epigenetic Changes In Offspring
Funder
National Health and Medical Research Council
Funding Amount
$1,707,578.00
Summary
The Australian bushfire season of 2019/2020 was unprecedented in terms of length and intensity, and a question of significant importance to public health for the community is whether exposure to bushfire smoke has long term impacts on children whose mothers were pregnant at the time. This grant investigates a potential mechanism called epigenetics (which changes the way genes are expressed in response to environmental conditions), in newborns whose mothers were exposed to bushfire smoke.
Analysis Of The Osteoclast Methylome For Characterisation Of Epigenetic Mechanisms Underlying Metabolic Bone Disease
Funder
National Health and Medical Research Council
Funding Amount
$299,018.00
Summary
A large number of genetic variants have been identified that have a role in osteoporosis, however for many of these, the mechanism by which they influence the disease remains to be determined. This study will fill a critical knowledge gap by investigating the epigenetic control of gene expression in osteoclasts (bone resorbing cells). This research will generate a unique international resource that will provide foundation data to understand and treat this prevalent and debilitating bone disease.
Ataxia-Telangiectasia: An Emerging Role For Inflammation In Driving Neurodegeneration And Premature Ageing
Funder
National Health and Medical Research Council
Funding Amount
$437,436.00
Summary
Ataxia-Telangiectasia (A-T) is a devastating genetic disease that arises in early childhood and causes patients to die in their twenties. To date there is no cure, and therapeutics are desperately needed. This project will use state-of-the-art brain organoids derived from stem cells of A-T patients in order to better understand this disease and evaluate novel drugs that target the molecular mechanisms that drive chronic inflammation and brain neurodegeneration in children with A-T.
HARNESSING T CELL QUALITY FOR PANDEMIC PREPAREDNESS
Funder
National Health and Medical Research Council
Funding Amount
$503,146.00
Summary
Developing highly effective vaccines is critical to rapidly combat global pandemics. To generate a protective antibody response against novel viruses, a vaccine must elicit a targeted B cell response supported by effective CD4 T cell help. We propose that existing CD4 T cell memory can be harnessed to rapidly and effectively support B cell responses to novel vaccine candidates. This work will contribute to pandemic preparedness strategies and improve the development pathway for new vaccines.
Using Immunological Principles To Inform Malaria Vaccine Design
Funder
National Health and Medical Research Council
Funding Amount
$577,763.00
Summary
Malaria kills ~420,000 people each year worldwide. While a vaccine does exist, efficacy is poor and protection wanes rapidly. We have made breakthroughs in understanding the immune response to malaria that allow us to design a new generation of malaria vaccines. Based on this we aim to generate a vaccine that induces sustained levels of high-quality antibodies targeting multiple targets on the parasite and so can provide sustained long-term protection.
Gamma Delta T Cells: The Fourth Player In CD8 T Cell Immunity
Funder
National Health and Medical Research Council
Funding Amount
$1,020,777.00
Summary
The immune systems of animals have evolved complex but effective mechanisms to protect against infection with intracellular pathogens. This requires that T cells can distinguish uninfected cells from those harbouring pathogens. This is achieved via recognition of pathogen-derived molecules, which activate the immune system to recognise and fight the pathogen. We have identified a crucial role for a gamma delta T cells in this process, making them essential sentinels of intracellular infection.
Immunomodulatory Vaccines In The Treatment Of Peanut Allergy
Funder
National Health and Medical Research Council
Funding Amount
$678,899.00
Summary
Peanut allergy is the most common cause of food-induced anaphylactic reactions in Australia and is a major burden to our healthcare system. Current clinical practice advice dietary avoidance to prevent fatal anaphylactic responses. We propose the use of an immunomodulatory vaccine to re-write the immune response to peanut antigens, from an allergic to a tolerant phenotype. This study will provide novel insights into rational approaches for manipulating immune memory to food allergens.
Epigenetic Biomarker Discovery For Cardiovascular Disease Risk Stratification Of Women Following Preeclampsia
Funder
National Health and Medical Research Council
Funding Amount
$1,275,101.00
Summary
Those women whom have suffered from severe complications during pregnancy have an increased risk of developing heart disease. This increased risk may be due to epigenetic changes during pregnancy that alter the expression of specific genes. These epigenetic changes persist after birth and increase heart disease risk for these women. This project seeks to evaluate those epigenetic changes associated with severe pregnancy complications predicting heart disease in a large group of Australian women.
Understanding The Molecular Mechanisms Of Cell Death In Radiotherapy
Funder
National Health and Medical Research Council
Funding Amount
$643,856.00
Summary
Radiotherapy (RT) is responsible for 40% of cancer cures. New technology enables RT delivery in fewer treatments using higher radiation dosages through a technique called 'ART'. While ART is effective in the clinic, the underlying mechanisms of cancer cell death are unclear. Here we show that ART induces two distinct waves of cancer cell death. We will characterize these waves of cell death and determine how to enhance tumour cell killing with pharmacological intervention.