Type 2 Immunity: A Regulator Of Physiology, Tissue Repair And Metabolism
Funder
National Health and Medical Research Council
Funding Amount
$640,210.00
Summary
Intestinal helminths (worms) have evolved together with humans and induce strong type 2 immune responses effective at eradicating the parasite, mediating tissue repair and modulating the gut microbiota. My research aims to decipher the roles of type 2 immunity in regulating intestinal health and promoting tissue repair. I also plan to determine how worm infection and type 2 immunity modulate the microbiota the impact of this on health, particularly obesity.
Assessment Of The Properties Of Mesenchymal Stem Cells And Their Role In Skeletal Tissue Repair And Disease
Funder
National Health and Medical Research Council
Funding Amount
$751,854.00
Summary
There is currently a steady increase in surgical intervention and rehabilitation therapy for bone related fractures due to trauma or osteoporosis as a consequence of an aging population. Bone regeneration involves the coordinated participation of skeletal precursor cells, blood vessels and immune cells recruited from the surrounding tissues. This proposal examines the mechanisms mediating the maintenance and recruitment of skeletal precursor cells to sites of bone damage.
Axonal Regeneration And Degeneration: Cellular And Molecular Mechanisms
Funder
National Health and Medical Research Council
Funding Amount
$622,655.00
Summary
Understanding how to repair of nerve damage following a traumatic injury, a vascular accident, or a degenerative condition, is essential to develop novel effective treatments. We have identified, in a simple genetic model system, the molecular mechanisms that allow a transected nerve to be repaired by reattachment of its two separated fragments. This 'axonal fusion' process is a highly promising innovative approach that can be exploited to restore the original neuronal circuit.
Wounds and burn injuries are frequent injuries which can lead to deformity, disfigurement and loss of movement. The cytoskeleton is integral to the wound healing process and we have shown that a specific cytoskeletal protein, Flightless I (Flii), is an important regulator of wound repair. During the course of this fellowship I plan to further my investigations into the function and regulation of Flii in wounds and aim to develop new therapies for treating wounds and reducing scar formation.
Development of normal brain function requires information transfer and integration from outside and within the brain. Normal brain wiring is guided by genetic and environmental cues, whose relative contributions remain controversial. This project investigates the physiological and behavioural consequences of abnormal brain wiring, and the potential for controlled environments and targeted interventions to overcome the deficits. Relevance includes neurotrauma as well as mental illnesses.