Identifying Unintentional Effects Of Medication Using Statistical Genetics Analyses Of Large-scale Genetic And Genomic Data
Funder
National Health and Medical Research Council
Funding Amount
$251,441.00
Summary
An increasing number of studies have highlighted unknown adverse effects of medication, for example, use of statins to lower cholesterol with increased risk of type 2 diabetes. The gold standard approach to confirm these effects is randomised control trials, which may not always be feasible or ethical, and are very expensive. This project aims to apply innovative statistical genetics approaches to (genetic and genomic) 'big-data' to predict unknown effects of commonly prescribed medications.
Better Statistical Methods To Discover Host Genetic Factors In Symptom Response To SARS-CoV-2 Infection
Funder
National Health and Medical Research Council
Funding Amount
$290,137.00
Summary
The COVID-19 pandemic has infected >5 million people worldwide. While the majority of infected individuals recover within a few weeks of infection, others develop severe forms, that in some cases prove fatal. To date, the causes of differences in symptom response are unknown. In this proposal, we seek to discover genetic factors that can contribute to explaining these differences. Our findings have the potential to inform the design and analysis of clinical trials for vaccines and treatments.
New Therapeutic Approaches For Genetic Skeletal Disorders
Funder
National Health and Medical Research Council
Funding Amount
$961,150.00
Summary
Genetic skeletal disorders are a significant disease burden with limited therapeutic options. We will use mouse models of cartilage and bone disorders and human induced pluripotent stem cell derived bone and cartilage 'disease in a dish' models to test repurposed FDA-approved drugs and new drug candidates as novel therapeutic strategies.
Resolving Eosinophil And Inflammatory Heterogeneity In Chronic Allergic Airway Disease For Safer, Effective And Lasting Precision Therapies
Funder
National Health and Medical Research Council
Funding Amount
$1,166,165.00
Summary
Many patients with upper airway inflammation and asthma have poorly controlled disease and are in need of new effective therapies. We have discovered new cell subsets in the airways of these patients. We will use cutting edge single cell and spatial analysis of human tissues to define human allergic disease and inflammatory cells at unprecedented resolution. This will identify new targets for treatment and match patients with effective therapies to facilitate precision therapy.
Sudden cardiac death (SCD) is a devastating consequence of a number of heart diseases. Underlying causes include inherited heart muscle problems (cardiomyopathies), with no cause found in 40%. Our study will investigate the role of 'concealed cardiomyopathy' cases, i.e. those with a SCD event with no evidence of heart disease, but carry errors in heart genes. Our findings will translate rapidly into more targeted clinical and genetic evaluation of families with the ultimate goal to prevent SCD.
ARX- A Hub Gene For A Common Biological Pathway In Schizophrenia
Funder
National Health and Medical Research Council
Funding Amount
$707,974.00
Summary
Schizophrenia is a severe psychiatric disorder with no cure. I have identified that some people with schizophrenia show variations to a gene called ARX. This project will use preclinical mouse models to explore how variations to the Arx gene affect brain molecules, networks of cells and behavioural outcomes. This biological pathway will provide the framework for the identification of new molecules to target therapeutically to modify the biological course of schizophrenia and improve outcomes.
The Cellular Basis Of Synaptic Integration And Modulation In Human Pyramidal Neurons
Funder
National Health and Medical Research Council
Funding Amount
$917,355.00
Summary
Little is known about how human neurons integrate information, and how this process is altered during neuromodulation and disease. This project will address this fundamental gap in knowledge and will for the first time directly examine the neuromodulation of human neurons, and how this important process is altered in brain cancer. Our team of researchers and surgeons in Melbourne and Berlin will be able to provide valuable, and otherwise unattainable, information about the human brain.
Targeting A Bacterial Glyco-Achilles Heel To Make New Vaccines For Haemophilus Influenzae And Neisseria Gonorrhoeae.
Funder
National Health and Medical Research Council
Funding Amount
$526,950.00
Summary
The bacteria that cause gonorrhoea (N. gonorrhoeae), middle ear infections and exacerbations of chronic obstructive lung disease (H. influenzae) have become multi-drug resistant. These diseases are a major health and economic burden. In the absence of new drugs, a vaccine to prevent these diseases has emerged as a major unmet need in human health. In this grant, we will develop a new vaccine that targets a bacterial-specific sugar that we have discovered is the Achilles heel of these bacteria.
Virulence Associated Small RNAs In Acinetobacter Baumannii
Funder
National Health and Medical Research Council
Funding Amount
$964,148.00
Summary
This proposal aims to understand how a superbug that causes severe infections in hospitalised patients worldwide and is known to be resistant to almost all available antibiotics, causes disease. We then plan on using this information to guide the development of a new type of therapy to treat this severe infection.
Silencing Pulmonary Nociceptors To Treat Severe Respiratory Viral Infections
Funder
National Health and Medical Research Council
Funding Amount
$534,173.00
Summary
The lungs receive a rich supply of nerve fibres, many of which play an important role in helping defend against pathogens, including viruses. When viral infections become severe, too much inflammation occurs in the lungs and this creates a serious and difficult to treat clinical problem. Hundreds of thousands of people each year die from the complications of severe lung infections. We are investigating a potential new therapy that targets the lung nerves and relieves excessive inflammation.