The Role Of Perlecan In Tensional Connective Tissues
Funder
National Health and Medical Research Council
Funding Amount
$605,037.00
Summary
Musculoskeletal diseases affect tension and weight bearing connective tissues which have notoriously poor repair capabilities. These conditions are difficult to treat clinically and surgical repair in many cases does not provide a return to optimal joint function impinging on the quality of life of afflicted individuals and their carers. Our project aims to better understand the structure and function of these tissues in health and disease with a view to improving repair strategies.
Heat Shock Transcription Factors In Bone Remodeling And Disease
Funder
National Health and Medical Research Council
Funding Amount
$480,427.00
Summary
The denisity of bone is finely balaned and required for a healthy lifestyle. During times of disease, damage or drug treatments the bone can be compromised, often decreasing in density and becoming fragile. This often leads to fractures, pain and a poor quality of life. This proposal seeks to investigate whether stress insults to bones plays a role in the loss of bone. This will provide new insights into bone loss during disease and lead to novel treatment strategies.
Cell Biology Of Stress Fractures: Activation Of Remodelling At Sites Of Non-union
Funder
National Health and Medical Research Council
Funding Amount
$493,817.00
Summary
Stress fractures are debilitating injuries. We characterised a model of stress fractures in rat ulnae, learning that they heal by activated remodelling, that key genes are expressed in a temporal pattern, and that part of the fracture remains un-healed, similar to many clinical cases. Now, we will examine cell localisation of important genes necessary for remodelling, and test the efficacy of different growth factors to activate a healing response in the non-healed section of the fracture.
Molecular And Histopathological Investigation Of Stress Fracture Healing And Effects Of Anti-inflammatory Drugs.
Funder
National Health and Medical Research Council
Funding Amount
$412,652.00
Summary
Stress fractures are debilitating injuries affecting children, adolescents and adults in sport, and army recruits. They also occur in horse and greyhound racing, often resulting in euthanasia of the animals involved. They incur considerable costs in medical expenses, time lost from sport and interruption to military training. But, there is almost no information on the mechanism of healing of these fractures. Non-steroidal anti-inflammatory drugs (NSAIDs) are still the most widely used medication ....Stress fractures are debilitating injuries affecting children, adolescents and adults in sport, and army recruits. They also occur in horse and greyhound racing, often resulting in euthanasia of the animals involved. They incur considerable costs in medical expenses, time lost from sport and interruption to military training. But, there is almost no information on the mechanism of healing of these fractures. Non-steroidal anti-inflammatory drugs (NSAIDs) are still the most widely used medication in management of musculoskeletal injuries, yet their effect on healing of stress fractures is unknown. NSAIDs delay fracture healing, but until recently there has been no standardised way of studying stress fractures. We have created, for the first time, a well-characterised, non-invasive model of stress fractures in the forearm of rats that closely resembles the clinical situation. This provides a novel and unique opportunity to determine the histological and molecular mechanism of stress fracture healing, and to investigate effects of antiinflammatory-analgesic medications on this process. Rats will have an experimental stress fracture produced in one forelimb, and its healing will be examined up to ten weeks using microscopic investigation and analysis of the genes that are turned off or on to initiate the process. Groups of rats will also be treated with antiinflammatory drugs such as ibuprofen, specific COX-2 inhibitors and a new class of drugs that target early immune responses called C5a receptor antagonists. The analgesic Paracetamol will also be investigated as an alternative to the NSAIDs described above. There is widespread use of anti-inflammatory agents in managing stress fractures, so it is vital that their effects on stress fracture healing be examined. This project has enormous significance for optimising approaches for clinical management of stress fractures and for understanding the interaction of anti-inflammatory or analgesic agents in that process.Read moreRead less
The Role Of TNF Family Members TWEAK And TNF-alpha In Bone Remodelling
Funder
National Health and Medical Research Council
Funding Amount
$566,946.00
Summary
Bone remodelling, or turnover, is the process by which bone is broken down by osteoclasts and replaced by osteoblasts. Disruption of this process is the cause of many bone-related diseases that affect millions of Australians and countless others worldwide. It is controlled by the complex interactions of a large number of systemic factors (hormones) and locally acting agents, such as chemokines and cytokines, the details of which are not fully understood. Each of these factors, however, is a pote ....Bone remodelling, or turnover, is the process by which bone is broken down by osteoclasts and replaced by osteoblasts. Disruption of this process is the cause of many bone-related diseases that affect millions of Australians and countless others worldwide. It is controlled by the complex interactions of a large number of systemic factors (hormones) and locally acting agents, such as chemokines and cytokines, the details of which are not fully understood. Each of these factors, however, is a potential therapeutic target. Pro-inflammatory cytokines, those that are associated with inflammatory diseases such as Rheumatoid Arthritis (RA), are known to have key roles in both the physiology and pathology of bone. TWEAK is a recently described member of the TNF family of cytokines. We have shown that TWEAK is a novel mediator of inflammatory arthritis in mouse model systems and is therefore a likely candidate as a therapeutic target. We now have extensive preliminary data to suggest that TWEAK is involved in human RA, and also in the regulation of normal bone remodelling. TWEAK therefore may be implicated in a wide spread of bone diseases, including osteoporosis. We believe it is of great importance to perform a thorough analysis of TWEAK in bone biology, and we propose to do so.Read moreRead less
Structural And Functional Analyses Of Rat Receptor Activator Of NF-kb Ligand
Funder
National Health and Medical Research Council
Funding Amount
$226,320.00
Summary
Rat RANKL (Xu and Zheng, rat RANKL, AustraliaProvisional Patent PQ3147) has a variety of biological activities including osteoclast differentiation and polarization, and dendritic cell function. Overproduction or increased activity of RANKL can result in excessive osteoclast formation, activation, and bone resorption. This process contributes to many common bone lytic disorders such as osteoporosis, Paget's disease, bone metastatic diseases, arthritis, aseptic bone loosening and non-union of fra ....Rat RANKL (Xu and Zheng, rat RANKL, AustraliaProvisional Patent PQ3147) has a variety of biological activities including osteoclast differentiation and polarization, and dendritic cell function. Overproduction or increased activity of RANKL can result in excessive osteoclast formation, activation, and bone resorption. This process contributes to many common bone lytic disorders such as osteoporosis, Paget's disease, bone metastatic diseases, arthritis, aseptic bone loosening and non-union of fractures. This proposal addresses the important and fundamental issue of RANKL regarding the role of molecular structure on its biological function. We have established that the TNF-like core domain is the functional domain, important for osteoclastogenesis, osteoclast polarisation and protecting against Fas-triggered apoptosis. This proposal will further characterise the mutant forms of the TNF-like core domain of RANKL using site directed mutagenesis and protein truncation analysis, and assess their respective binding activities to OPG and RANK, and their biological activities both in vitro and in vivo. It will lead us into better understanding of the structure-function relationship of RANKL. Ideally, we would like to develop a relative agent for the suppression of osteolysis in orthopaedic related diseases including osteoporosis. Such an optimized molecule could become a potent therapeutic agent that selectively inhibits osteoclast formation and bone resorption.Read moreRead less