Immune-associated Genetic Variation And Autoimmune Disease.
Funder
National Health and Medical Research Council
Funding Amount
$1,346,721.00
Summary
Understanding the genes that underpin the immune system is vital for studying the causes and effects of diseases. In particular, autoimmune diseases are strongly associated with an individual having certain genetic types. We plan to develop methods to type immune-related genes very cheaply so they can be studied in very large samples. We will apply the methods we develop to genetic studies of psoriasis and multiple sclerosis, and make data and methods available to other scientists.
Immuno-metabolic Interactions Of The Fungal Superbug Candida Auris
Funder
National Health and Medical Research Council
Funding Amount
$674,105.00
Summary
Infections threaten hospital patients and undermine our ability to use advanced medical treatments for conditions such as cancer. Candida auris is an emerging superbug causing infections in hospitals and nursing homes that are commonly resistant to front-line antifungal therapy. To build the knowledge foundation for improved treatments, this proposal aims to define how C. auris escapes immune defences and understand the metabolic mechanisms that shape immune responses and infection outcomes.
Novel Genomic Approaches To Identify The Missing Genetics Underlying Skeletal Muscle Disease.
Funder
National Health and Medical Research Council
Funding Amount
$1,935,965.00
Summary
Skeletal muscle diseases can result in death in infancy or cause life-long and significant physical disability. Many families do not have a genetic explanation for their condition. We will use established and new technologies to find the missing genetics causing these devastating diseases. Our work has world-wide impact for the patients and families affected by these diseases.
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.
Novel Genetic Tools For Tracking The Origins And Spread Of Plasmodium Vivax
Funder
National Health and Medical Research Council
Funding Amount
$536,158.00
Summary
Plasmodium vivax causes >8 million malaria cases annually. Containment of this parasite is constrained by limited surveillance tools. This project will establish genetic data on >6,000 P. vivax cases from across the globe. Using this data, we will develop an online platform with analytical tools to identify the main reservoirs of infection, how parasites are spreading within and across national borders, and how effectively interventions have impacted on parasite transmission.
Should You Be Eating That? Food-derived Bacteria And Their Role In Treating Disease
Funder
National Health and Medical Research Council
Funding Amount
$1,405,182.00
Summary
The clinical application of medicines based on the microbes that exist as part of microbiomes is now a reality. Despite these rapid advances understanding how the bacteria are transmitted and recolonise after disruption is essential. Our preliminary data suggests that the average Australian adult consumes over 10 million bacteria per day in their diet. This project seeks to understand these relationships and how they can be exploited to develop the next generations of microbiome based medicine.
Mitochondrial donation in fertilised eggs is a possible therapy for avoiding mitochondrial DNA disease, but there are major safety concerns, such as mutant mitochondrial carryover. To address these concerns, we will develop two new methods to eliminate carryover risk, then translate our findings to human eggs. Also, we will determine if the mitochondrial donation procedure affects offspring health. Our findings will serve as a guide for adopting the technology.
Identification Of Novel Mediators Of Bone Catch-up Growth
Funder
National Health and Medical Research Council
Funding Amount
$1,043,810.00
Summary
Musculoskeletal growth disorders cause significant suffering in children and impair new workforce generations before their working life starts. Despite this relevance, non-invasive methods to induce growth recovery of impaired bones are an unmet need, as we lack sufficient understanding of how this process works. To address this knowledge gap, we generated mouse models that will allow us to reveal foetal mediators of compensatory growth that could be reactivated postnatally to boost bone growth.
From Functional Genomics To Precision Medicine: Identifying The Cause And Finding Optimal Therapy For Oral Squamous Cell Carcinoma
Funder
National Health and Medical Research Council
Funding Amount
$855,992.00
Summary
There is an alarming increase in mouth cancer in young patients who have never smoked. This is a debilitating and potentially fatal cancer without many treatment options. If the patient survives, the quality of life is usually very poor. Our team of medical, genetic, and mathematics experts are dedicated to finding the cause, and developing new treatments, for young non-smoking patients affected by this devastating cancer.