SEARCH

SEARCH BY CITATION

References

  • 1
    Ugai K, Ziff M, Jasin HE: Interaction of polymorphonuclear leukocytes with immune complexes trapped in joint collagenous tissues. Arthritis Rheum 22: 353364, 1979
  • 2
    Noyori K, Jasin HE: Inhibition of human fibroblast adhesion by cartilage surface proteoglycans. Arthritis Rheum 37: 16561663, 1994
  • 3
    Carsons S, Lavietes BB, Diamond HS: Role of fibronectin in rheumatic diseases. In, Fibronectin. Edited by DFMosher. San Diego, Academic Press, 1989
  • 4
    Oldberg A, Antonsson P, Lindblom K, Heinegard D: A collagen-binding 59-kd protein (fibromodulin) is structurally related to the small interstitial proteoglycans PG-S1 and PG-S2 (decorin). EMBO J 8: 26012604, 1989
  • 5
    Heinegard D, Oldberg A: Structure and biology of cartilage and bone matrix noncollagenous macromolecules. FASEB J 3: 2042051, 1989
  • 6
    Noyori K, Koshino T, Takagi T, Okamoto R, Jasin HE: Binding characteristics of anti-collagen type II antibody to the surface of diseased human cartilage as a probe for tissue damage. J Rheumatol 21: 29332 1994
  • 7
    Shiozawa S, Ziff M: Immunoelectron microscopic demonstration of fibronectin in rheumatoid pannus and at the cartilage-pannus junction. Ann Rheum Dis 42: 254263, 1983
  • 8
    Shiozawa S, Yoshihara R, Kuroki Y, Fujita T, Shiozawa K, Imura S: Pathogenic importance of fibronectin in the superficial region of articular cartilage as a local factor for the induction of pannus extension on rheumatoid articular cartilage. Ann Rheum Dis 51: 869873, 1992
  • 9
    Jasin HE, Dingle JT: Human mononuclear cell factors mediate cartilage matrix degradation through chondrocyte activation. J Clin Invest 68: 571581, 1981
  • 10
    Jasin HE, Taurog JD: Mechanisms of disruption of the articular cartilage surface in inflammation: neutrophil elastase increases availability of collagen type II epitopes for binding with antibody on the surface of articular cartilage. J Clin Invest 87: 15311536, 1991
  • 11
    Jasin HE: Autoantibody specificities of immune complexes sequestered in articular cartilage of patients with rheumatoid arthritis and osteoarthritis. Arthritis Rheum 28: 241248, 1985
  • 12
    Engvall E, Ruoslahti E: Binding of soluble form of fibroblast surface protein, fibronectin, to collagen. Int J Cancer 20: 15, 1977
  • 13
    Ruoslahti E, Hayman EG, Piershbacher M, Engvall E: Fibronectin: purification, immunochemical properties and biological activities. Methods Enzymol 82: 803831, 1982
  • 14
    Pena SDJ, Mills G, Hughes RC, Aplin JD: Polypeptide heterogeneity of hamster and calf fibronectins. Biochem J 189: 337347, 1982
  • 15
    Kornblihtt AR, Vibe-Petersen K, Baralle FE: Isolation and characterization of cDNA clones for human and bovine fibronectins. Proc Natl Acad Sci U S A 80: 32183222, 1983
  • 16
    Eggli PS, Hunziker EB, Schenk RS: Quantitation of structural features characterizing weight- and less-weight-bearing regions in articular cartilage: a stereological analysis of medial femoral condyles in young adult rabbits. Anat Rec 222: 217227, 1988
  • 17
    Aydelotte MB, Schumacher BL, Kuettner KE: Heterogeneity of articular chondrocytes. In, Articular Cartilage and Osteoarthritis. Edited by KEKuettner, RSchleyerbach, JGPeyron, VCHascall. New York, Raven Press, 1992
  • 18
    Jasin HE: The articular cartilage surface as a target organ. Clin Exp Rheumatol 12: 469472, 1994
  • 19
    Weiss RE, Reddi AH: Appearance of fibronectin during the differentiation of cartilage, bone, and bone marrow. J Cell Biol 88: 630636, 1981
  • 20
    Brown RA, Jones KL: The synthesis and accumulation of fibronectin by human articular cartilage. J Rheumatol 17: 6572, 1990
  • 21
    Burton-Wurster N, Butler M, Harter S, Colombo C, Quintavalla J, Swartzendurber D, Arsenis C, Lust G: Presence of fibronectin in articular cartilage in two animal models of osteoarthritis. J Rheumatol 13: 175182, 1986
  • 22
    Burton-Wurster N, Lust G: Incorporation of purified plasma fibronectin into explants of articular cartilage from disease-free and osteoarthritic canine joints. J Orthop Res 4: 409418, 1986
  • 23
    Noyori K, Plaas AHK, Takagi T, Jasin HE: Identification of a proteoglycan on the articular cartilage surface that interferes with anti-type II collagen antibody binding. (submitted for publication)
  • 24
    Burton-Wurster N, Lust G: Molecular and immunologic differences in canine fibronectins from articular cartilage and plasma. Arch Biochem Biophys 269: 3245, 1989
  • 25
    Treadwell BV, Neidel J, Pavia M, Towle CA, Trice ME, Mankin HJ: Purification and characterization of collagenase activator protein synthesized by articular cartilage. Arch Biochem Biophys 251: 715723, 1986
  • 26
    Nguyen Q, Mort JS, Roughley PJ: Preferential mRNA expression of prostromelysin relative to procollagenase and in situ localization in human articular cartilage. J Clin Invest 89: 11891197, 1992
  • 27
    Okada Y, Shinmey M, Tanaka O, Naka K, Kimura A, Nakanishi I, Bayliss MT, Iwata K, Nagase H: Localization of matrix metalloproteinase 3 (stromelysin) in osteoarthritic cartilage and synovium. Lab Invest 66: 680690, 1992
  • 28
    Hauselmann HJ, Flechtenmacher J, Mollenhauer J, Kuettner KE, Aydelotte MB: Differences in responsiveness and in receptor numbers for interleukin-1 between adult human chondrocytes from superficial and deep zones of articular cartilage (abstract). Trans Orthop Res Soc 19: 363, 1994
  • 29
    Hauselmann HJ, Mok-Loh SS, Schumacher BL, Aydelotte MB, Kuettner KE: Different IL-1 and IRAP responses of subpopulations of human articular chondrocytes (abstract). Trans Orthop Res Soc 17: 61, 1992
  • 30
    Takagi T, Jasin HE: Differential responses of superficial and deep articular chondrocytes (abstract). Arthritis Rheum 35 (Suppl 9): S217, 1992
  • 31
    Hayashi T, Jasin HE: Differential secretion of nitric oxide by superficial and deep articular chondrocytes (abstract). Arthritis Rheum 38 (Suppl 9): S163, 1995
  • 32
    Goldring MB, Krane SM: Modulation by recombinant interleukin 1 of synthesis of types I and III collagens and associated procollagen mRNA levels in cultured human cells. J Biol Chem 262: 1672416729, 1987
  • 33
    Lyons-Giordano B, Kefalides NA, Brinker JM, Pratta MA, Arner EC: The effects of interleukin-1 on the expression of thrombospondin and fibronectin by rabbit articular chondrocytes. Exp Cell Res 195: 462467, 1991
  • 34
    Maroudas A: Transport of solutes through cartilage: permeability to large molecules. J Anat 122: 335347, 1976
  • 35
    Dodge GR, Reginato AM, Diaz A, Boesler E, Jimenez S: Transcriptional regulation of cytokine-stimulated fibronectin gene expression in human chondrocytes (abstract). Arthritis Rheum 37 (Suppl 9): S294, 1994