Effect of transforming growth factor-beta on proteoglycan synthesis by chondrocytes in relation to differentiation stage and the presence of pericellular matrix.
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P. Buma | G. V. van Osch | G J van Osch | P Buma | S W van der Veen | H L Verwoerd-Verhoef | S. W. van der Veen | H. L. Verwoerd-Verhoef
[1] S. Dedhar,et al. Protein kinase mediators of integrin signal transduction , 1997, Journal of Molecular Medicine.
[2] P. Millett,et al. A rapid, quantitative assay for measuring alkaline phosphatase activity in osteoblastic cells in vitro. , 1994, Bone and mineral.
[3] A. Mauviel,et al. Transforming growth factor β stimulates collagen and glycosaminoglycan biosynthesis in cultured rabbit articular chondrocytes , 1988, FEBS letters.
[4] F. Lafeber,et al. Transforming growth factor-beta predominantly stimulates phenotypically changed chondrocytes in osteoarthritic human cartilage. , 1997, The Journal of rheumatology.
[5] I. Ellis,et al. The interdependent modulation of hyaluronan synthesis by TGF-beta 1 and extracellular matrix: consequences for the control of cell migration. , 1995, Growth factors.
[6] W. B. van den Berg,et al. Inhibition of proteoglycan synthesis by transforming growth factor beta in anatomically intact articular cartilage of murine patellae. , 1992, Annals of the rheumatic diseases.
[7] K. Yamada,et al. Integrins can collaborate with growth factors for phosphorylation of receptor tyrosine kinases and MAP kinase activation: roles of integrin aggregation and occupancy of receptors , 1996, The Journal of cell biology.
[8] A. Grodzinsky,et al. Fluorometric assay of DNA in cartilage explants using Hoechst 33258. , 1988, Analytical biochemistry.
[9] P. Benya,et al. Dedifferentiated chondrocytes reexpress the differentiated collagen phenotype when cultured in agarose gels , 1982, Cell.
[10] J. Bonaventure,et al. Reexpression of cartilage-specific genes by dedifferentiated human articular chondrocytes cultured in alginate beads. , 1994, Experimental cell research.
[11] E. Thonar,et al. Synthesis and turnover of proteoglycans by human and bovine adult articular chondrocytes cultured in alginate beads. , 1992, Matrix.
[12] A. Roberts,et al. Transforming growth factor beta regulates the metabolism of proteoglycans in bovine cartilage organ cultures. , 1988, The Journal of biological chemistry.
[13] E. Thonar,et al. Adult human chondrocytes cultured in alginate form a matrix similar to native human articular cartilage. , 1996, The American journal of physiology.
[14] E B Hunziker,et al. Differential effects of IGF-1 and TGF beta-2 on the assembly of proteoglycans in pericellular and territorial matrix by cultured bovine articular chondrocytes. , 1998, Osteoarthritis and cartilage.
[15] E. Thonar,et al. Characterization of crosslinked collagens synthesized by mature articular chondrocytes cultured in alginate beads: comparison of two distinct matrix compartments. , 1996, Experimental cell research.
[16] M. P. Welch,et al. Collagen matrices attenuate the collagen-synthetic response of cultured fibroblasts to TGF-beta. , 1995, Journal of cell science.
[17] F. Lafeber,et al. Osteoarthritic human cartilage is more sensitive to transforming growth factor beta than is normal cartilage. , 1993, British journal of rheumatology.
[18] P. Benya,et al. Dihydrocytochalasin B enhances transforming growth factor-beta-induced reexpression of the differentiated chondrocyte phenotype without stimulation of collagen synthesis. , 1993, Experimental cell research.
[19] E. Thonar,et al. Phenotypic stability of bovine articular chondrocytes after long-term culture in alginate beads. , 1994, Journal of cell science.
[20] F. Luyten,et al. Recombinant bone morphogenetic protein-4, transforming growth factor-beta 1, and activin A enhance the cartilage phenotype of articular chondrocytes in vitro. , 1994, Experimental cell research.
[21] T. Pincus,et al. Active and latent forms of transforming growth factor beta activity in synovial effusions , 1989, The Journal of experimental medicine.
[22] R. Loeser,et al. Expression of beta 1 integrins by cultured articular chondrocytes and in osteoarthritic cartilage. , 1995, Experimental cell research.
[23] D K MacCallum,et al. Culture and growth characteristics of chondrocytes encapsulated in alginate beads. , 1989, Connective tissue research.
[24] P. M. van der Kraan,et al. Differential effect of transforming growth factor beta on freshly isolated and cultured articular chondrocytes. , 1992, The Journal of rheumatology.
[25] T. I. Morales. Transforming growth factor-beta 1 stimulates synthesis of proteoglycan aggregates in calf articular cartilage organ cultures. , 1991, Archives of biochemistry and biophysics.
[26] T. I. Morales. Transforming growth factor-beta and insulin-like growth factor-1 restore proteoglycan metabolism of bovine articular cartilage after depletion by retinoic acid. , 1994, Archives of biochemistry and biophysics.