Rotator cuff (RC) tendon disease is a huge burden on the healthcare system in Australia and a major cause of morbidity in our aging population. Disorders of the RC are the most common cause of shoulder pain, which accounts for 1.2% of all visits to general practitioners. The prevalence of RC pathology increases with age to reach 30-50% by the seventh decade of life and a staggering 70-80% by the ninth. While most cases are treated conservatively, there are over 12,000 RC repair surgeries perform ....Rotator cuff (RC) tendon disease is a huge burden on the healthcare system in Australia and a major cause of morbidity in our aging population. Disorders of the RC are the most common cause of shoulder pain, which accounts for 1.2% of all visits to general practitioners. The prevalence of RC pathology increases with age to reach 30-50% by the seventh decade of life and a staggering 70-80% by the ninth. While most cases are treated conservatively, there are over 12,000 RC repair surgeries performed annually in Australia, with patients being committed to a prolonged convalescence. There are no drug therapies to specifically treat RC or other tendon injuries and many surgical repairs fail within 12 months. The limited treatment options for RC and other tendon disorders stems from a lack of knowledge of the molecular changes that precede and lead to rupture. It is recognised that the content of sulphated sugars or glycosaminoglycans (GAGs) on proteoglycans in tendon is the strongest predictor of the tisues strength. Accumulation of GAG is a well-recognised feature of torn tendons in man. The changes in proteoglycan synthesis and breakdown that precede and lead to tendon rupture have not been defined. We have developed a new model of shoulder tendon injury in sheep that induces regional degeneration mimicking that seen in human RC disorders. We have found changes in expression of specific proteoglycans and their degradative enzymes in early tendon disease. The current project will use this model in combination with a novel culture system and recently developed genetically modified mice to determine for the first time the changes that occur over time in proteoglycan metabolism that are responsible for tendon degeneration that leads to rupture. Successful completion of these studies will identify biomarkers to monitor disease progression and a platform for the development of new therapeutic strategies to treat this debilitating disorder.Read moreRead less
Pathobiology Of The Small Leucine Rich Repeat Proteoglycans In Cartilage, Intervertebral Disc And Tendon Degeneration
Funder
National Health and Medical Research Council
Funding Amount
$516,625.00
Summary
Back problems (M$700), OA (M$600), muscle and tendon disorders (M$500) accounted for 60% of musculoskeletal (MSK) health care expenditure in Australia in 1993-1994, were the second most common cause of presentations to a general practitioner, the third leading contributor to health system expenditure (>$3 billion) and accounted for ~300,000 hospital admissions, ~15 million medical services and over 13 million prescriptions. Significant disability due to MSK disease were noted in ~50% of peopl ....Back problems (M$700), OA (M$600), muscle and tendon disorders (M$500) accounted for 60% of musculoskeletal (MSK) health care expenditure in Australia in 1993-1994, were the second most common cause of presentations to a general practitioner, the third leading contributor to health system expenditure (>$3 billion) and accounted for ~300,000 hospital admissions, ~15 million medical services and over 13 million prescriptions. Significant disability due to MSK disease were noted in ~50% of people aged 65 years. Australian census data indicates that ageing trends will result in an increased incidence of MSK conditions as the longevity of the Australian population rises, exerting an ever increasing burden on the healthcare budget. Extreme levels of sporting or physical activity from traumatic loading of joints can lead to excessive loading of collagen fibres in MSK tissues leading to their failure and loss of tissue function. Common end stages of collagen fibre breakdown are preceded by matrix changes which may predispose MSK tissues to enzymatic and mechanical damage. One such change is an increased degradation of a family of small leucine-rich proteoglycans (SLRPs) which modulate the diameter, strength and assembly of collagen fibrils and bind and modify the effects of reparative growth factors and degradative cytokines within connective tissues. Altered synthesis of SLRPs and SLRP fragments have been identified in abnormal intervertebral disc, cartilage and tendon. Very little is known however about how these fragments are generated within these tissues and how they affect growth factor binding or collagen fibril formation. This deficiency will be addressed in our proposed study which will provide novel information on mechanisms of cartilage, intervertebral disc and tendon degeneration and potential therapeutic and diagnostic targets which may be exploited in future studies on the treatment of these musculoskeletal conditions.Read moreRead less
Cartilage Destruction In Joint Disease: Studies With ADAMTS-4 And ADAMTS-5 Deficient Mice
Funder
National Health and Medical Research Council
Funding Amount
$540,600.00
Summary
In healthy joints the proteoglycan, aggrecan, gives cartilage compressive resilience to permit weight bearing, but in disease aggrecan is degraded by ADAMTS enzymes. The challenges to the field are to determine which ADAMTS is involved, when these enzymes are active and precisely where they come from. We hypothesise that ADAMTS-4 and-or ADAMTS-5 is involved in cartilage pathology. To test this hypothesis we aim to [1] Generate mice containing mutant ADAMTS-4 and-or -5 in all cells, or [2] in car ....In healthy joints the proteoglycan, aggrecan, gives cartilage compressive resilience to permit weight bearing, but in disease aggrecan is degraded by ADAMTS enzymes. The challenges to the field are to determine which ADAMTS is involved, when these enzymes are active and precisely where they come from. We hypothesise that ADAMTS-4 and-or ADAMTS-5 is involved in cartilage pathology. To test this hypothesis we aim to [1] Generate mice containing mutant ADAMTS-4 and-or -5 in all cells, or [2] in cartilage cells only. [3] Analyse mutant mice for changes in skeletal architecture, changes in ADAMTS mRNA and protein, and changes in aggrecan breakdown products. [4] Assess disease severity in mutant mice in in vivo models of joint disease. We already have mice with ADAMTS-4, or -5, mutated in all tissues and we are generating the double mutants now. We will also generate single and double mutants with dysfunctional enzymes in cartilage only. We will examine skeletal structure by histology and X-ray at all ages and monitor for expression of ADAMTS-1 and -9 to detect any compensatory over-production of other potential 'aggrecanases'. We will also do co-culture experiments in which cartilage and synovial cells from combinations of mutant and control mice will be incubated together to determine whether synovial ADAMTS can penetrate and degrade aggrecan in cartilage. Finally we will induce arthritis in mutant and control mice and monitor them to detect differences in the time of disease onset, the rate of disease progression and overall disease severity. A comparison of whole-mouse with cartilage only mutants in the in vivo models will complement the in vitro co-culture studies and determine whether other joint tissues such as synovium and joint capsule can also produce ADAMTS enzymes that destroy cartilage. This is not known. Together these experiments will reveal if, where and when ADAMTS-4 and-or -5 are active, and whether indeed they are the best targets for drug development.Read moreRead less
Sclerostin And Dickkopf-1 In Regulation Of Bone Mass
Funder
National Health and Medical Research Council
Funding Amount
$638,581.00
Summary
The WNT pathway is a powerful regulator of bone cell differentiation and bone formation. Two WNT modulators, sclerostin ad Dickkopf 1, are being developed for therapy in bone disease, but critical questions remain unanswered. In this study we use unique genetic mouse models created by the applicants to resolve specific deficiencies surrounding their actions and application as therapies.
Bone-specific Sclerostin And SIBLING Proteins In Osteoarthritis: Novel Contributions To Cartilage And Bone Pathology
Funder
National Health and Medical Research Council
Funding Amount
$441,058.00
Summary
Arthritis is a major clinical problem and involves the destruction of cartilage in joints. However, the mechanisms of how this cartilage destruction is initiated and progresses remain poorly understood. We recently discovered that that three proteins that play a role in bone are also produced in cartilage and are increased in cartilage during osteoarthritis. We will determine the role of each of these in the disease mechanism to provide new therapeutic and biomarker targets.
Inhibition Of Bone Resorption Increases Skeletal Mechanical Strength By Thickening Trabecular Structures
Funder
National Health and Medical Research Council
Funding Amount
$175,648.00
Summary
This project will identify the basis by which a number of therapies for osteoporosis decrease the risk of bone fractures. Currently at least four classes of these compounds in current use for the treatment of osteoporosis. Some of them have been found to have a very marked beneficial effect by halving the risk of fracture. This study will determine if each of these classes of compounds have the ability to increase the mechanical strength of bone to the same level and if each of these compounds h ....This project will identify the basis by which a number of therapies for osteoporosis decrease the risk of bone fractures. Currently at least four classes of these compounds in current use for the treatment of osteoporosis. Some of them have been found to have a very marked beneficial effect by halving the risk of fracture. This study will determine if each of these classes of compounds have the ability to increase the mechanical strength of bone to the same level and if each of these compounds has the same effects on bone structure. Further the effects of stimulating bone formation by subjecting the skeletal to mechanical stress, on the efficacy of each of the therapies will be established. Conversely the effect of aging, which imposes a limitation on bone formation, will be studied.Read moreRead less