Molecular Mechanisms Of Cartilage Degeneration In Osteoarthritis
Funder
National Health and Medical Research Council
Funding Amount
$457,517.00
Summary
Arthritis affects 15% of the entire Australian population and 50% in people over 60. The most common form of joint disease by far is osteoarthritis (OA). One of the central features of OA is the breakdown of the cartilage that covers the ends of bones in joints, and this is a major determinant of the long term outcome and need for joint replacement surgery. There are no current therapies that halt or reverse cartilage breakdown in OA. This is largely due to our incomplete understanding of the mo ....Arthritis affects 15% of the entire Australian population and 50% in people over 60. The most common form of joint disease by far is osteoarthritis (OA). One of the central features of OA is the breakdown of the cartilage that covers the ends of bones in joints, and this is a major determinant of the long term outcome and need for joint replacement surgery. There are no current therapies that halt or reverse cartilage breakdown in OA. This is largely due to our incomplete understanding of the molecular changes and pathways involved in both the onset and progression of cartilage breakdown. Powerful new genomic approaches allow simultaneous screening of changes in a broad profile of genes, particulalrly in humans and mice following complete sequencing of their genomes. By applying this new technology in the earliest stages of cartilage degeneration in OA, the role of novel genes and the pathways involved in the onset of this disease process can be discovered. However, to investigate changes at the initiation of disease, tissue from animal rather than human joints must be used due to the difficulty in obtaining pre-symptomatic human cartilage. In order to maximise the number of genes screened, cartilage from a novel surgically induced model of OA in mice will be used in this study. We have developed micro dissection and linear mRNA amplification methods to overcome inherent problems with tissue availability from this small animal species. Successful completion of these studies will for the first time allow identification of the complex changes that occur in early OA. An important and likely outcome of this research will be identification of novel matrix proteins and regulatory molecules that will provide critical information for the development of new diagnostic and therapeutic approaches to OA.Read moreRead less
Molecular Mechanisms Of Joint Degeneration In Osteoarthritis
Funder
National Health and Medical Research Council
Funding Amount
$718,273.00
Summary
Arthritis is a major clinical and socio-economic problem. Arthritis involves the destruction of cartilage in joints. However, the mechanisms of initiation and progression of cartilage destruction remain poorly understood. Our studies will for explore the role of a new regulator of gene expression, microRNA, in the initation and progression of osteoarthritis. This will provide important new information on disease mechanisms for the development of diagnostic biomarkers and therapies
The Role Of A Novel Extracellular Matrix Protein, WARP, In Cartilage Development, Function And Pathology
Funder
National Health and Medical Research Council
Funding Amount
$482,500.00
Summary
The environment outside all cells is absolutely essential for normal growth and development. In order to undertand many disease and developmental processes it is critical that we acquire a detailed understanding of the various extracellular matrix components and how they interact to form a functional extracellular matrix. We recently discovered a new extracellular matrix protein which we have named WARP for von Willebrand factor A-domain-related protein. Our experiments demonstrate that WARP is ....The environment outside all cells is absolutely essential for normal growth and development. In order to undertand many disease and developmental processes it is critical that we acquire a detailed understanding of the various extracellular matrix components and how they interact to form a functional extracellular matrix. We recently discovered a new extracellular matrix protein which we have named WARP for von Willebrand factor A-domain-related protein. Our experiments demonstrate that WARP is an important constituent of the three-dimensional structure of the extracellular matrix of the articular surface of cartilage. We can show that WARP forms large-scale structures in tissue culture experiments and in extracts from mouse cartilage, and we have some new data which suggests that WARP interacts specifically with collagen II, a large and quantitatively major component of cartilage. We will explore the function of WARP in cartilage and include in vitro experiments that will reveal information about its distribution, tissue forms, and interactions with other extracellular matrix components (PART 1). To define the in vivo role of WARP we will generate a WARP gene knockout mouse (PART 2). These experiments will provide valuable information about the structure of the cartilage in the joint on the surface of bone and in particular the function of WARP in this structure. Since WARP is at the articular cartilage surface we asked whether WARP is lost in cartilage degeneration. In cartilage tissue grown in vitro under conditions that promote cartilage degradation, WARP is fragmented and released from the cartilage surface. We will explore this further in in vitro and in vivo models of cartilage breakdown (PART 3). Thus, in addition to promoting a new understanding of cartilage structure WARP has the exciting potential to become a specific biomarker for arthritis a major joint degenerative disease with high medical and financial cost to the community.Read moreRead less
Are Chondrocytes The Target Cells Of Glucocorticoid Therapy In Autoimmune Arthritis?
Funder
National Health and Medical Research Council
Funding Amount
$544,619.00
Summary
Glucocorticoids (GCs) are widely used for their potent anti-inflammatory and immunomodulatory effects due to the effects GCs on immune cells or synovial fibroblasts. Recently, we have made the exciting discovery that arthritis mice with glucocorticoid receptor knock-out in chondrocyte are completely resistant to glucocorticoid treatment. This study will identify the mechanisms underlying these hormonal effects with the aim to find new targets for efficient treatments for arthritis.
Osteoarthritis (OA) affects approximately 20% of Australians and costs billions each year in joint replacements. Therapies that halt joint destruction in OA are urgently needed. We hypothesise that the little-known gene, vanin -3, is a key regulator of OA disease pathways. Our project will map vanin-3 in the joint and reveal how much vanin-3 contributes to joint destruction in mice. We expect to find a link between vanin-3 and metabolic disorders and identify new targets for therapy.
MicroRNAs As Therapeutic Targets For Osteoarthritis
Funder
National Health and Medical Research Council
Funding Amount
$921,754.00
Summary
microRNAs are small cellular RNA fragments that regulate protein expression. They have been shown to be crucial regulators of normal development and are associated with many disease processes. The goal of this project is to determine the role of microRNAs in the initiation and progression of joint degeneration in osteoarthritis and test the therapeutic efficacy of targeting microRNAs as new approach to OA treatment.
Effect Of Lifestyle Factors On Knee Cartilage Volume And Rate Of Cartilage Loss In A Normal Population
Funder
National Health and Medical Research Council
Funding Amount
$236,500.00
Summary
Osteoarthritis (OA) has been described by the WHO as a potential epidemic and a major health and care services cost driver in an aging society. OA has the largest impact on burden of disease borne in later life. This has been acknowledged by its listing as the 7th health priority in Australia. To date, most research has focused on treating the resulting pain and disability. However, in order to reduce the burden of OA, identifying modifiable risk factors in the normal population is important. Th ....Osteoarthritis (OA) has been described by the WHO as a potential epidemic and a major health and care services cost driver in an aging society. OA has the largest impact on burden of disease borne in later life. This has been acknowledged by its listing as the 7th health priority in Australia. To date, most research has focused on treating the resulting pain and disability. However, in order to reduce the burden of OA, identifying modifiable risk factors in the normal population is important. This proposal aims to identify life-style factors, such as diet, physical activity and obesity that effect knee cartilage health in healthy subjects, thereby identifying potential targets for future prevention of OA. This will provide us with the opportunity to promote a better quality of life as people age and reduce the economic burden on the community.Read moreRead less
In Australia osteoarthritis is the leading cause of pain and disability with the majority of individuals displaying radiographic evidence of this condition by age 65. We are developing two novel technologies which use patients' own stem cells to repair damaged cartilage. This project involves both the advancement of these technologies as well as their evaluation using a sheep cartilage repair model. These technologies offer significant promise for those suffering joint pain.