Abstract

The aim of this proposal is to extend our recent findings that i) immature calf and adult steer chondrocytes synthesize different relative amounts of several subpopulations of proteoglycans (PGs) and ii) individual subpopulations exhibit age-related differences in glycosylation. We propose to further elucidate the basis of age-related differences in a) the structure of cartilage (PGs) and b) the metabolism of articular chondrocytes. To further probe age-related changes at the level of biosynthesis, we will determine the structuref and composition of purified subpopulations of aggregating PGs synthesized by phenotypically stable chondrocytes isolated from fetal, immature calf, 18 month old steer and 3-5 year old steer articular cartilage. To determine at which level heterogeneity first arises, we will compare at all ages the intracellular core protein precursors to the core proteins purified from a cell-free translate of RNA and will follow the conversion of the intracellular core protein precursors into the individual subpopulations of PGs. A separate study will establish if the age-related increase in the number of keratan sulfate (KS) chains in chondroitin sulfate-rich PGs occurs at the expense of one or more of the O-linked oligosaccharides which have similar structures. Long term cultures of chondrocytes in agarose gels, which promote phenotypic stability, will be used to study inherent age-related differences in the biosynthesis and turnover of the subpopulations of aggregating as well as non-aggregating PGs laid down within the gel-matrix. Additional studies will probe whether the age-related changes reflect i) changes in the proportion of cells synthesizing different PGs or ii) alterations in the quality of PGs made by all cells. Because of new evidence that serum KS is a marker of cartilage PG catabolism, we will study the elimination of KS-bearing molecules of specific sizes from the circulation. Finally, we propose to further probe the biochemical basis of age-related changes in the expression of the small non-aggregating cartilage PGs.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Research Project (R01)
Project #
2R01AG004736-04
Application #
3115297
Study Section
Pathobiochemistry Study Section (PBC)
Project Start
1984-04-01
Project End
1992-03-31
Budget Start
1987-04-01
Budget End
1988-03-31
Support Year
4
Fiscal Year
1987
Total Cost
Indirect Cost

  Institution

Name
Rush University Medical Center
Department
Type
DUNS #
City
Chicago
State
IL
Country
United States
Zip Code
60612

  Publications

Chiba, Kazuhiro; Masuda, Koichi; Andersson, Gunnar B J et al. (2007) Matrix replenishment by intervertebral disc cells after chemonucleolysis in vitro with chondroitinase ABC and chymopapain. Spine J 7:694-700
Masuda, K; Pfister, B E; Sah, R L et al. (2006) Osteogenic protein-1 promotes the formation of tissue-engineered cartilage using the alginate-recovered-chondrocyte method. Osteoarthritis Cartilage 14:384-91
Chia, Stanley H; Homicz, Mark R; Schumacher, Barbara L et al. (2005) Characterization of human nasal septal chondrocytes cultured in alginate. J Am Coll Surg 200:691-704
Masuda, Koichi; Aota, Yoichi; Muehleman, Carol et al. (2005) A novel rabbit model of mild, reproducible disc degeneration by an anulus needle puncture: correlation between the degree of disc injury and radiological and histological appearances of disc degeneration. Spine (Phila Pa 1976) 30:5-14
Takegami, Kenji; An, Howard S; Kumano, Fumio et al. (2005) Osteogenic protein-1 is most effective in stimulating nucleus pulposus and annulus fibrosus cells to repair their matrix after chondroitinase ABC-induced in vitro chemonucleolysis. Spine J 5:231-8
Minihane, Keith P; Turner, Thomas M; Urban, Robert M et al. (2005) Effect of hip hemiarthroplasty on articular cartilage and bone in a canine model. Clin Orthop Relat Res :157-63
An, Howard S; Takegami, Kenji; Kamada, Hiroshi et al. (2005) Intradiscal administration of osteogenic protein-1 increases intervertebral disc height and proteoglycan content in the nucleus pulposus in normal adolescent rabbits. Spine (Phila Pa 1976) 30:25-31; discussion 31-2
Chia, Stanley H; Schumacher, Barbara L; Klein, Travis J et al. (2004) Tissue-engineered human nasal septal cartilage using the alginate-recovered-chondrocyte method. Laryngoscope 114:38-45
Masuda, Koichi; Sah, Robert L; Hejna, Michael J et al. (2003) A novel two-step method for the formation of tissue-engineered cartilage by mature bovine chondrocytes: the alginate-recovered-chondrocyte (ARC) method. J Orthop Res 21:139-48
Williams, James M; Rayan, Vineeta; Sumner, D Rick et al. (2003) The use of intra-articular Na-hyaluronate as a potential chondroprotective device in experimentally induced acute articular cartilage injury and repair in rabbits. J Orthop Res 21:305-11

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