THE ROLE OF A NOVEL HYALURONIDASE IN THE TURNOVER OF CHONDROITIN SULPHATE GLYCOSAMINOGLYCANS IN CARTILAGE AND BONE
Funder
National Health and Medical Research Council
Funding Amount
$256,527.00
Summary
The degradation of complex carbohydrate structures occurs within specialised intracellular organelles (lysosomes). Their degradation occurs in a strictly defined sequence involving initial clipping into intermediate sized fragments which are each then degraded piece by piece from one end. In this proposal we seek to understand the role of a newly defined enzyme in the initial clipping process. This information will aid our understanding of skeletal pathology in a group of genetic disorders in wh ....The degradation of complex carbohydrate structures occurs within specialised intracellular organelles (lysosomes). Their degradation occurs in a strictly defined sequence involving initial clipping into intermediate sized fragments which are each then degraded piece by piece from one end. In this proposal we seek to understand the role of a newly defined enzyme in the initial clipping process. This information will aid our understanding of skeletal pathology in a group of genetic disorders in which complex carbohydrate degradation is impaired. In addition due to the widespread location of complex carbohydrates and their fundamental roles in tissue development and growth, the project has wider implications in diverse disease states such as cancer and wound repair.Read moreRead less
gp130 is a protein expressed in all cells in the body; this project will analyse the influence of gp130 within the cells that form bone, the cells that destroy bone, and the cells that form a communication network within the bone matrix. Understanding the way this protein works will help us to understand how current therapies for osteoporosis work, and will help us to design new therapies.
Influence Of Osteocytes On Anabolic Bone Therapies
Funder
National Health and Medical Research Council
Funding Amount
$586,965.00
Summary
This project seeks to define the influence of changes in gene expression in cells called osteocytes, that exist within the substance of bone. These cells form a communication network within the bones of the skeleton, and appear to influence bone formation; changes in gene expression by these cells could influence the efficacy of current and emerging osteoporosis therapies.
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
Osteocytes (OY) are the most abundant cell type in bone whose high density and viability are essential for healthy bone. We have found that vitamin K, vitamin D and strontium, promote human OY differentiation. We will test these in novel models of human OY differentiation and survival, and in animal models of bone loss associated with vitamin D deficiency, menopause and glucocorticoid treatment. Our work will lead to a better understanding of human OY and give a new approach to treat osteoporosi ....Osteocytes (OY) are the most abundant cell type in bone whose high density and viability are essential for healthy bone. We have found that vitamin K, vitamin D and strontium, promote human OY differentiation. We will test these in novel models of human OY differentiation and survival, and in animal models of bone loss associated with vitamin D deficiency, menopause and glucocorticoid treatment. Our work will lead to a better understanding of human OY and give a new approach to treat osteoporosis.Read moreRead less