Why Macrophages Promote Heterotopic Ossifications Following Spinal Cord Injuries
Funder
National Health and Medical Research Council
Funding Amount
$586,950.00
Summary
A frequent complications of brain and spine injuries is the formation of bones outside of the skeleton called "heterotopic ossifications", particularly around joints such as the knee, hip, elbow or shoulder. They grow over a few months to become so large (up to 2 kg) that they block muscles and joints, increasing pain, morbidity and dependance. This project is to understand why heterotopic ossifications form in patients with spine injuries aiming to discover effecttive treatments.
Role Of Bone-associated Macrophages In Bone Remodelling And Bone Disease
Funder
National Health and Medical Research Council
Funding Amount
$564,963.00
Summary
Musculoskeletal diseases, including osteoporosis and osteoarthritis, are a national and international health and research priorities. Over 3 million Australians suffer from arthritis and musculoskeletal conditions and their social and economic impact is expected to dramatically increase in the next 20 years as a result of the aging population. Early diagnosis, prevention and treatment of many musculoskeletal diseases are currently inadequate. Consequently, there is a high demand for effective tr ....Musculoskeletal diseases, including osteoporosis and osteoarthritis, are a national and international health and research priorities. Over 3 million Australians suffer from arthritis and musculoskeletal conditions and their social and economic impact is expected to dramatically increase in the next 20 years as a result of the aging population. Early diagnosis, prevention and treatment of many musculoskeletal diseases are currently inadequate. Consequently, there is a high demand for effective treatment options. This project grant application proposes a novel line of scientific investigation that will provide greater understanding of the contribution of macrophages (a cell type that has important roles in normal tissue maintenance and defense against infection) in bone remodelling and disease. Bone is continuously remodelled and replaced to maintain skeletal strength and mineral metabolism. We have shown that a population of macrophages is intimately associated with bone and propose that these cells play an important part in regulating bone remodelling. Macrophages have been implicated in many diseases that have damaging consequences on bone, including osteoporosis and several forms of arthritis, linking aberrant macrophage function to disease-associated bone damage. This project aims to characterize this population of bone-associated macrophages and determine their ability to influence the function of other cells integrally involved in bone remodelling. We will also undertake studies in animal models to determine whether these cells are required for bone remodelling and-or damage. Detailed description of the novel role of macrophages in bone biology will facilitate the development of superior therapeutics, preventatives and cures for bone diseases.Read moreRead less
The Role Of P62/A170 In Pathological Bone Destruction
Funder
National Health and Medical Research Council
Funding Amount
$276,000.00
Summary
Approximately up to 30% of patients are admitted to public hospitals in Australia for reasons related to skeletal disorders, including trauma, osteoarthritis, osteoporosis, primary and secondary bone tumours, genetic and metabolic disorders. Abnormal bone resorption contributes to most of these diseases and conditions. Based on the clinical evidence of P62 mutation in patients with Paget's Disease of bone and our observation of the involvement of P62 in RANKL-induced NF-Kb signaling, we propose ....Approximately up to 30% of patients are admitted to public hospitals in Australia for reasons related to skeletal disorders, including trauma, osteoarthritis, osteoporosis, primary and secondary bone tumours, genetic and metabolic disorders. Abnormal bone resorption contributes to most of these diseases and conditions. Based on the clinical evidence of P62 mutation in patients with Paget's Disease of bone and our observation of the involvement of P62 in RANKL-induced NF-Kb signaling, we propose that intracellular molecule P62-A172 may play an important part in the switch off-on signals necessary for bone resorbing cells to resorb bone. To this end, we will study the molecular mechanism of P62 in action, and the interaction with its possible partners for the facilitation of abnormal bone resorption. The clinical significance of this project is to: 1) enhance understanding of abnormal bone resorption in Orthopaedic related diseases and conditions. 2) provide a strategy of drug development for the treatment of these disease and conditions.Read moreRead less