Abstract

Proteoglycans are ubiquitous components of connective tissues where they occur as major components of the extracellular matrix of these tissues. Cartilage proteoglycans have been the most thoroughly studied and as such they have served as a useful model for understanding proteoglycan structure and function in other more complex connective tissue matrices. Recent advances made the use of recombinant DNA technologies have significantly advanced our knowledge as to primary amino acid sequence data of the core proteins of a large number of these connective tissue proteoglycans. These studies have allowed researchers to categorize several classes of the proteoglycans into gene- and structure/function-related families. It is now possible to use these newly developed molecular biological technologies to perform a wide variety of cell biological and metabolic studies examining several hitherto unattainable problems relating to proteoglycan structure function and metabolism. In spite of these advances, we still know very little regarding the biological significance of the inherent heterogeneity and polydispersity that is observed in the wide variety of proteoglycans found in different connective tissues. This heterogeneity is largely a result of a complex array of post-translational modifications that occur in these molecules during both their biosynthesis, and also in their organization and turnover within the extracellular matrix. At present immunological approaches offer possibly the best means of studying the biological mechanism causing the inherent proteoglycans heterogeneity observed in vivo. Over the past ten years this laboratory has pioneered the field in the use of monoclonal antibody technology to study proteoglycan structure, function and metabolism in health and disease. In the past funding period we produced and characterized several new monoclonal antibodies that were used to identity the differential expression of subtle structural components in connective tissue proteoglycans during growth and development and in pathology, e.g. osteoarthritis. In this current proposal we plan to continue to develop and use monoclonal antibody technology to address problems relating to proteoglycan structure and function in connective tissues. The focus of this proposal will be proteoglycan heterogeneity in cartilage.
Our specific aims to achieve this objective are (i) to further characterize currently existing monoclonal antibodies against proteoglycan epitopes; (ii) to produce a panel of new monoclonal antibodies with specificities directed against domain-, species- and tissue-specific epitopes on different proteoglycan subpopulations; (iii) to produce monoclonal antibodies directed against """"""""neo-epitopes"""""""" on proteoglycans that occur as a result of metalloproteinase degradation of these molecules, and (iv) to use the antibodies generated in the previous three specific aims to study mechanisms involved in proteoglycan heterogeneity.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
5R01AR032666-11
Application #
2078866
Study Section
Orthopedics and Musculoskeletal Study Section (ORTH)
Project Start
1992-05-01
Project End
1996-04-30
Budget Start
1994-05-01
Budget End
1995-04-30
Support Year
11
Fiscal Year
1994
Total Cost
Indirect Cost

  Institution

Name
University of North Carolina Chapel Hill
Department
Surgery
Type
Schools of Medicine
DUNS #
078861598
City
Chapel Hill
State
NC
Country
United States
Zip Code
27599

  Publications

Tsuzaki, M; Brigman, B E; Yamamoto, J et al. (2000) Insulin-like growth factor-I is expressed by avian flexor tendon cells. J Orthop Res 18:546-56
Cheng, H; Caterson, B; Yamauchi, M (1999) Identification and immunolocalization of chondroitin sulfate proteoglycans in tooth cementum. Connect Tissue Res 40:37-47
Cheng, H; Caterson, B; Neame, P J et al. (1996) Differential distribution of lumican and fibromodulin in tooth cementum. Connect Tissue Res 34:87-96
Hughes, C E; Caterson, B; Fosang, A J et al. (1995) Monoclonal antibodies that specifically recognize neoepitope sequences generated by 'aggrecanase' and matrix metalloproteinase cleavage of aggrecan: application to catabolism in situ and in vitro. Biochem J 305 ( Pt 3):799-804
Banes, A J; Tsuzaki, M; Yamamoto, J et al. (1995) Mechanoreception at the cellular level: the detection, interpretation, and diversity of responses to mechanical signals. Biochem Cell Biol 73:349-65
Hashimoto, Y; Lester, G E; Caterson, B et al. (1995) EDTA-insoluble, calcium-binding proteoglycan in bovine bone. Calcif Tissue Int 56:398-402
Roberts, S; Caterson, B; Evans, H et al. (1994) Proteoglycan components of the intervertebral disc and cartilage endplate: an immunolocalization study of animal and human tissues. Histochem J 26:402-11
Fosang, A J; Last, K; Neame, P J et al. (1994) Neutrophil collagenase (MMP-8) cleaves at the aggrecanase site E373-A374 in the interglobular domain of cartilage aggrecan. Biochem J 304 ( Pt 2):347-51
Lee, G M; Johnstone, B; Jacobson, K et al. (1993) The dynamic structure of the pericellular matrix on living cells. J Cell Biol 123:1899-907
Visco, D M; Johnstone, B; Hill, M A et al. (1993) Immunohistochemical analysis of 3-B-(-) and 7-D-4 epitope expression in canine osteoarthritis. Arthritis Rheum 36:1718-25

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