Nerve cells communicate with each other through nerve processes or neurites. The dysfunction of neurites results in the clinical symptoms of dementia such as cognitive decline. Currently we cannot directly monitor degeneration of neurites in the living brain and therefore it is difficult to determine whether therapeutic agents are protective. My goal is to develop a detection system in the blood that will allow us to monitor these changes during disease progression and therapeutic intervention.
Self-destructing CRISPR-constructs For Targeted Genome Editing In The Retina.
Funder
National Health and Medical Research Council
Funding Amount
$679,926.00
Summary
Despite the identification of specific mutations causing many inherited retinal dystrophies, all of these conditions are currently untreatable. We have established gene-editing techniques and have developed a novel mouse model, which will serve as a robust platform for testing different techniques of gene editing in the retina. No other group in the world is known to be using this platform for gene editing and our work will expedite the clinical translation of this technology.
Axon Degeneration And Axon Protection In CNS Disease And Injury
Funder
National Health and Medical Research Council
Funding Amount
$389,120.00
Summary
One of the major reasons for the clinical symptoms of neurological diseases such as Alzheimer’s disease and Motor Neuron Disease is the loss of connections between the nerve cells. Nerve cells are connected by specialized processes called axons. In disease these processes can breakdown. This project specifically looks at how axons break down in disease and tests therapeutic strategies to protect them.