Structure And Function Of Antimicrobial Therapies And Their Interaction With Upper Respiratory Biofilms
Funder
National Health and Medical Research Council
Funding Amount
$320,891.00
Summary
Bacterial infections of the upper respiratory tract are a major public health problem affecting millions of Australians. Commonly prescribed antibiotics are often not able to eradicate all bacteria as the bacteria often reside in a protective, self-produced gel-like matrix known as biofilm. This Fellowship aims to unravel the interaction of modern anti-infective therapeutics with the biofilm for the development of the next generation of safe and efficacious anti-biofilm strategies.
The Pathway Linking Tau And APP In Neurodegeneration
Funder
National Health and Medical Research Council
Funding Amount
$312,085.00
Summary
Recently I co-discovered a novel relationship between the AlzheimerÍs amyloid precursor protein and tau, both of which play a role in regulating neuronal iron levels. I predict that multiple failures in iron-regulating systems could foster a toxic iron accumulation in brain, leading to the development of neurodegenerative diseases. I hope to gain a better understanding of their mechanism of action and propose that this pathway is a target for therapeutic intervention.
A Biomimetic Prodrug Platform To Enable Oral Bioavailability And Target Lymphatic Disease
Funder
National Health and Medical Research Council
Funding Amount
$408,768.00
Summary
This project will allow the advance of a unique translational technology platform that provides novel drug delivery solutions. The project aims to establish the potential for a drug delivery strategy to increase the efficacy, reduce the toxicity, and transform the impact of drug therapies for a variety of conditions, including pain, hormone dysregulation, and metabolic syndrome.
New drugs for cancer therapy that overcome resistance to standard chemotherapeutics and stop the spread of cancer are essential to develop. My preliminary studies discovered a strategy to increase the activity and delivery of our novel compounds to enhance the killing of cancer cells. I will design innovative agents in an effort to provide more effective therapeutics with fewer side effects to reduce the pain of cancer patients undertaking chemotherapy who are in the battle of their lives.
Customized IPS Cell Therapy For Recessive Monogenic Retinal Degenerative Disease
Funder
National Health and Medical Research Council
Funding Amount
$350,714.00
Summary
The focus of this study is to develop a personalised treatment for certain types of retinal degenerative disease (RDD). Stem cells will be generated from the skin cells obtained from an individual with RDD. Gene therapy will then be applied to correct the underlying disease-causing mutation in the patient cells. The repaired cells will be used to generate retinal cells, which will subsequently be tested in naturally occurring RDD rodent models to determine if they have any beneficial effects.