Abstract
When conducting in vitro research on bone, a choice has to be made between using bone organ or bone cell cultures. When one decides to use the latter, the question is whether to use primary cells or cell lines. The advantage of using cell lines over freshly isolated cells lies in the ready availability of large numbers of cells, the homogeneity of the cell cultures, and the expected invariability of the phenotype. In the long run, however, cell lines appear unstable to some extent. In addition, their clonal selection has favored rapidly growing cells, but has not necessarily selected for the whole range of bone-specific gene expression characteristic of primary bone cells. This means that in certain experiments, the use of primary bone cells is preferred to the use of cell lines.
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References
Peck, W. A., Birge, S.J., and Fedak, S. A (1964) Bone cells: biochemical and biological studies after enzymatic isolation. Science 146, 1476–1477.
Wong G. L. and Cohn, D. V. (1974) Separation of parathyroid hormone and calcitonin-sensitive cells from non-responsive cells. Nature 252, 713–715.
Burger, E. H., Boonekamp, P. M., and Nijweide, P. J. (1986) Osteoblast and osteoclast precursors in primary cultures of calvarial bone cells. Anat. Rec. 214, 32–40.
Yagiela, J. A. and Woodbury, D. M. (1977) Enzymatic isolation of osteoblasts from fetal rat calvaria. Anat. Rec. 188, 287–306.
Nijweide, P. J., van der Plas, A., and Scherft, P.J. (1981) Biochemical and histological studies on various bone cell preparations. Calcif. Tissue Int. 33, 529–540.
Nijweide, P.J., van Iperen-van Gent, A.S., Kawilarang-de Haas, E. W. M., van der Plas, A., and Wassenaar, A.M. (1982) Bone formation and calcification by isolated osteoblast-like cells. J. Cell Biol. 93, 318–323.
Klein-Nulend, J., Burger, E. H., Semeins, C. M., Raisz, L. G., and Pilbeam C. C. (1997) Pulsating fluid flow stimulates prostaglandin release and inducible prostaglandin G/H synthase mRNA expression in primary mouse bone cells. J. Bone Miner. Res. 12, 45–51.
Klein-Nulend, J., Semeins, C. M., Ajubi, N. E., Nijweide, P. J., and Burger, E. H. (1995) Pulsating fluid flow increases nitric oxide (NO) synthesis by osteocytes but not periosteal fibroblasts: correlation with prostaglandin upregulation. Biochem. Biophys. Res. Commun. 217, 640–648.
Bakker, A. D., Soejima, K., Klein-Nulend, J., and Burger, E. H. (2001) The production of nitric oxide and prostaglandin E2 by primary bone cells is shear stress dependent. J. Biomech. 34, 671–677.
Soejima, K., Klein-Nulend, J., Semeins, C. M., and Burger, E. H. (2001) Different responsiveness of cells from adult and neonatal mouse bone to mechanical and biochemical challenge. J. Cell Phys. 186, 366–370.
Auf ‘mkolk, B., Hauschka, P. V., and Schwartz, E. R. (1985) Characterization of human bone cells in culture. Calcif. Tissue Int. 37, 228–235.
Lowry, O. H. (1955) Micromethods for the assay of enzyme. II Specific pocedure. Alkaline phosphatase. Methods Enzymol. 4, 371.
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© 2003 Humana Press Inc., Totowa, NJ
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Bakker, A., Klein-Nulend, J. (2003). Osteoblast Isolation from Murine Calvariae and Long Bones. In: Helfrich, M.H., Ralston, S.H. (eds) Bone Research Protocols. Methods in Molecular Medicine, vol 80. Humana Press. https://doi.org/10.1385/1-59259-366-6:19
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DOI: https://doi.org/10.1385/1-59259-366-6:19
Publisher Name: Humana Press
Print ISBN: 978-1-58829-044-1
Online ISBN: 978-1-59259-366-8
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