Decoding Dysfunctional Spinal Cord Circuitry In Chronic Pain.
Funder
National Health and Medical Research Council
Funding Amount
$516,101.00
Summary
Chronic pain is common, with one in five Australians having long-term pain that is serious enough to cause disability. Unfortunately this type of pain is difficult to treat, and current medicines are ineffective in many people, with unwanted side-effects. The aim of this project is to understand how signalling in the spinal cord changes following the development of chronic pain so we can find better strategies to reverse the symptoms and treat pain more effectively.
Membrane Attachment And Components Of The Ca2+ -triggered Release Mechanism
Funder
National Health and Medical Research Council
Funding Amount
$386,498.00
Summary
Understanding and harnessing the fundamental cellular process of secretion will provide a wealth of new approaches to addressing problems associated with aging & disorders that are major health care burdens (e.g. neurodegeneration & diabetes). Understanding the vesicle docked state, and the contributions of different molecular components to the release process provides for unique insights into the underlying molecular mechanisms, thereby enabling safe, targeted control of this critical process.
I am a cell biologist who studies the molecular mechanisms that couple cells together into tissues in the body. These adhesion mechanisms are essential during development, support normal tissue turnover and are disrupted in human disease. My research aims to understand how cell adhesion functions normally and how it is disturbed in inflammation and cancer.