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.
Hybrid Optical-electrical Stimulation For Precise Neural Stimulation
Funder
National Health and Medical Research Council
Funding Amount
$935,579.00
Summary
In world-first research, we have evidence that combining electrical stimulation with optical stimulation significantly and safely improves precision of neural activation for devices such as cochlear and retinal implants. In this proposal we will use gene therapy to make nerves responsive to light in pre-clinical animal models to establish proof of concept that hybrid stimulation will significantly improve outcomes for recipients of cochlear and retinal implants.
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.
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.
Coordinating Neuroimmune Sensory Networks In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$884,405.00
Summary
Living organisms use cellular rhythms to optimize their energy use and cellular responses. Our proposal aims to produce significant new fundamental knowledge by elucidating the fundamental cellular and molecular biology of innate cells, their role in mucosal homeostasis and tissue repair pathways in the gut. Understanding this foundational process of cellular regulation will generate new basic knowledge and may lead to better management systems.