Stimulation of type II collagen biosynthesis and secretion in bovine chondrocytes cultured with degraded collagen (original) (raw)
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References
- Adyelotte MB, Schmid TR, Greenhill RR, Luchene L, Schumacher BL, Kuettner KE (1991) Synthesis of collagen by cultured bovine chondrocytes derived from different depth of articular cartilage. Trans Orthop Res Soc 16:26
Google Scholar - Aigner T, Glückert K, von der Mark K (1997) Activation of fibrillar collagen synthesis and phenotypic modulation of chondrocytes in early human osteoarthritic lesions. Osteoarthritis Cartilage 5:183–189
Google Scholar - Aycock RS, Raghow R, Stricklin GP, Seyer JM, Kang AH (1986) Post-transcriptional inhibition of collagen and fibronectin synthesis by a synthetic homolog of a portion of the carboxyl-terminal propeotide of human type I collagen. J Biol Chem 261:14355–14360
Google Scholar - Bateman JF, Lamandé SR, Ramshaw JAM (1996) Collagen superfamily. In: Comper WD (ed) Extracellular matrix, vol 2. Harwood Academic, Amsterdam, pp 22–67
- Benya PD, Padilla SR, Nimni ME (1987) Independent regulation of collagen types by chondrocytes during the loss of differentiated function in culture. Cell 15:1313–1321
Google Scholar - Benz K, Breit S, Lukoschek M, Mau H, Richter W (2002) Molecular analysis of expansion, differentiation, and growth factor treatment of human chondrocytes identifies differentiation markers and growth-related genes. Biochem Biophys Res Commun 293:284–292
Google Scholar - Buckwalter JA, Mankin HJ (1998) Articular cartilage: degeneration and osteoarthritis, repair, regeneration, and transplantation. Instr Course Lect 47:487–504
Google Scholar - Burstein D, Bashir A, Gray ML (2000) MRI techniques in early stages of cartilage disease. Invest Radiol 35:602–621
Google Scholar - Elima K, Vuorio E (1989) Expression of mRNAs for collagen and other matrix components in dedifferentiating and redifferentiating human chondrocytes in culture. FEBS Lett 258:195–198
Google Scholar - Eyre DR, Wu JJ, Woods PE (1991) The cartilage collagens: structural and metabolic studies. J Rheumatol 18:49–51
Google Scholar - Hardingham TE, Bayliss M (1990) Proteoglycans of articular cartilage: changes in aging and in joint disease. Semin Arthritis Rheum 3:12–33
Google Scholar - Huber M, Tratting S, Lintner F (2000) Anatomy, biochemistry, and physiology of articular cartilage. Invest Radiol 35:573–580
Google Scholar - Katayama K, Seyer JM, Raghow R, Kang AH (1991) Regulation of extracellular matrix production by chemically synthesized subfragments of type I collagen carboxy propeptide. Biochemistry 30:7097–7104
Google Scholar - Lotz M, Blanco FJ, von Kempis J, et al. (1995) Cytokine regulation of chondrocyte functions. J Rheumatol 43:104–108
Google Scholar - Mayne R (1989) Collagens: what is their function, are they involved in articular disease. Arthritis Rheum 32:241–246
Google Scholar - Mlynarik V, Tratting S (2000) Physicochemical properties of normal articular cartilage and its MR appearance. Invest Radiol 35:589–594
Google Scholar - Moskowitz RW (2000) Role of collagen hydrolysate in bone and joint disease. Semin Arthritis Rheum 30:87–99
Google Scholar - Muir H (1995) The chondrocyte, architect of cartilage: biomechanics, structure, function and molecular biology of cartilage matrix macromolecules. Bioessays 17:1039–1048
Google Scholar - Oesser S, Adam M, Babel W, Seifert J (1999) Oral administration of 14C labeled gelatin hydrolysate leads to an accumulation of radioactivity in cartilage of mice (C57/BL). J Nutr 129:1891–1895
Google Scholar - Osborne KD, Trppel SB, Mankin HJ (1989) Growth factor stimulation of adult articular cartilage. J Orthop Res 7:35–42
Google Scholar - Pasternak RD, Hubbs SJ, Caccese RG, Marks RL, Conaty JM, DiPasquale G (1986) Interleukin-1 stimulates the secretion of proteoglycan- and collagen-degrading proteases by rabbit articular chondrocytes. Clin Immunol 41:351–367
Google Scholar - Phadke K, Nanda S (1983) Secretion of chondrocyte stimulating factor by macrophages as a result of activation with collagen and proteoglycans. Clin Exp Immunol 51:494–500
Google Scholar - Qi WN, Scully SP (1997) Extracellular collagen modulates the regulation of chondrocytes by transforming growth factor-β1. J Orthop Res 15:483–490
Google Scholar - Rosier RN, O'Keefe RJ (1998) Autocrine regulation of articular cartilage. Instr Course Lect 47:469–475
Google Scholar - Roughley PJ, Lee ER (1994) Cartilage proteoglycans: structure and potential function. Microsc Res Technol 28:385–397
Google Scholar - Roughley PJ, Nguyen Q, Mort SM (1991) Mechanisms of proteoglycan degradation in human articular cartilage. J Rheum 18:52–54
Google Scholar - Sandy PJ, Adams ME, Billingham MEJ, Plaas A, Muir H (1984) In vivo and in vitro stimulation of chondrocyte biosynthetic activity in early experimental osteoarthritis. Arthritis Rheum 27:388–397
Google Scholar - Sklatvala J (1986) Tumor necrosis factor-a stimulates resorption and inhibits synthesis of proteoglycan in cartilage. Nature 322:547–549
Google Scholar - Trippel SB (1995) Growth factor actions on articular cartilage. J Rheumatol 43:129–132
Google Scholar - von der Mark K, Gauss V, von der Mark H, Müller P (1977) Relationship between cell shape and type of collagen synthesised as chondrocytes lose their cartilage phenotype in culture. Nature 267:531–532
Google Scholar - Zaucke F, Dinser R, Maurer P, Paulsen M (2001) Cartilage oligomeric matrix protein (COMP) and collagen IX are sensitive markers for the differentiation state of articular primary chondrocytes. Biochem J 258:17–24
Google Scholar