Stem And Progenitor Cell Contribution To Skin Wounds And Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$408,388.00
Summary
Skin wounds represent a major health and economic burden. Although skin stem cells have been used routinely for the treatment of wounds, they cannot reconstitute a fully functional skin given the complexity and the many cell types usually involved in wound healing. In this project, we intend to evaluate the role of different cell populations on modulating skin wound healing to produce more regeneration and less scaring.
This project aims to improve the acute treatment of children with burn injuries through developing more effective and novel treatments and understanding the conditions required for burn injuries to occur.
Wounds, burns and scalds are frequent injuries which can lead to deformity, disfigurement and loss of movement. We have shown that the cytoskeletal protein, Flightless I (FliI), is an important regulator of wound repair. We plan to further investigate FliI in wound and burn injuries using new cell-specific transgenic animal models and to develop a new FliI-antibody based therapy to treat wound and burn injuries.
Osteal Macrophages: Novel Regulators Of Osteoblast Function And The Endosteal Stem Cell Niche
Funder
National Health and Medical Research Council
Funding Amount
$406,125.00
Summary
Bone diseases are a major health problem and current treatments are inadequate. We are investigating a novel role for macrophages (cells important in tissue maintenance and immune responses) in bone growth, repair and disease. Greater understanding of this will provide new ways to treat bone disease. We will also determine if these macrophages help support stem cells that reside near bone surfaces, which may provide new treatment strategies to improve bone marrow transplantation in cancer.
Understanding The Regulation Of Cell Polarity In Development And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$428,602.00
Summary
Cell polarity is the property of cells to be spatially oriented in a tissue or organ. We have now shown that the gene Scribble, a key regulator of cell orientation, may keep tumour development in check. In this proposal, we will examine how disruption of Scribble and associated molecules affects normal development and promotes cancer using a combination of tissue culture studies and a newly established mouse model. These studies may provide novel targets for therapeutic intervention in cancer.
Therapeutics For Repair And Regeneration Of The Cornea
Funder
National Health and Medical Research Council
Funding Amount
$166,087.00
Summary
Corneal disease is the commonest cause of irreversible blindness and of the 50 million people world-wide who are bilaterally blind, 10 million are blind from corneal involvement. This proposal will address corneal disease by 1. innovative translational research for corneal repair and regeneration; 2. developing evidence-based management guidelines for corneal disease, and 3. by optimising health service delivery.