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Resorption of vital or devitalized bone by isolated osteoclasts in vitro

The role of lining cells

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Summary

The maintainance of resorptive capability towards vital or devitalized bone in osteoclasts isolated from the medullary bone of laying hens and cultured for five days in vitro has been investigated morphologically with the aid of light and transmission electron microscopy. Devitalized bone particles ranging in size from 50 to 100 μm, added to cultures of osteoclasts, were rapidly surrounded by the osteoclasts which, in transmission electron microscopy, showed ruffled borders and clear zones at the surfaces of contact with bone — features typical of resorptive activity. Alternatively osteoclasts were added onto the endosteal surfaces of vital or devitalized diaphyses of quail femurs after removal of the endosteal and periosteal cell layers. The results indicated that, when the vital or devitalized bone surfaces were devoid of cells, the osteoclasts adhered and resorbed bone (as confirmed by transmission electron microscopy). When vital bone of quail was cultured for 24 h before the addition of osteoclasts a new cell layer was formed; it enveloped all bone surfaces and precluded the access of osteoclasts to bone. The role of these lining cells, ultrastructurally indistinguishable from resting osteoblasts, is discussed.

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References

  • Chambers TJ (1982) Osteoblasts release osteoclasts from calcitonin-induced quiescence. J Cell Sci 57:247–260

    Google Scholar 

  • Chambers TJ, Magnus CJ (1982) Calcitonin alters behaviour of isolated osteoclasts. J Pathol 136:27–39

    Google Scholar 

  • Jotereau FV, Le Douarin NM (1978) The developmental relationship between osteocytes and osteoclasts: a study using quailchick nuclear marker in endochondral ossification. Dev Biol 63:253–265

    Google Scholar 

  • Karnovsky MJ (1965) A formaldehyde-glutaraldehyde fixative of high osmolality for use in electron microscopy. J Cell Biol 27:137A-138A

    Google Scholar 

  • Holtrop ME, Raisz LG, Simmons HA (1974) The effects of parathyroid hormone, colchicine, and calcitonin on the ultrastructure and the activity of osteoclasts in organ culture. J Cell Biol 60:346–355

    Google Scholar 

  • Malone JD, Teitelbaum SL, Griffin GL, Senion RM (1982) Recruitment of osteoclast precursors by purified bone matrix constituent. J Cell Biol 92:227–230

    Google Scholar 

  • Manolagas SC, Haussler MR, Deftos LJ (1980) 1,25 Dihydroxyvitamin D3 receptor-like macromolecule in rat osteogenic sarcoma cell lines. J Biol Chem 255:4414–4417

    Google Scholar 

  • Martin TJ, Partridge ND (1981) Initial events in the activation of bone cells by parathyroid hormone, prostaglandins and calcitonin. In: Cohn DV, Talmage RV, Matthews JL (eds) Hormonal control of calcium metabolism. Excerpta Medica, Amsterdam, pp 147–156

    Google Scholar 

  • Martini MC, Osdoby P, Caplan AI (1982) Adhesion of osteoclasts and monocytes to developing bone. J Exp Zool 224:345–354

    Google Scholar 

  • Mundy GR, Poser JW (1983) Chemotactic activity of the γ-carboxyglutamic acid containing protein in bone. Calcif Tissue Int 35:164–168

    Google Scholar 

  • Mundy GR, Varani J, Orr W, Gondek MD, Ward PA (1978) Resorbing bone is chemotactic for monocytes. Nature 275:132–134

    Google Scholar 

  • Narbaitz R, Stumpf WE, Sar M, Huangs S, De Luca HF (1983) Autoradiographic localization of target cells for 1 α25-dihydroxyvitamin D3 in bones from fetal rats. Calcif Tissue Int 35:177–182

    Google Scholar 

  • Rao LG, Heersche JNM, Marchuk LL, Sturtridge W (1981) Immunohistochemical demonstration of calcitonin binding to specific cell types in fixed rat bone tissue. Endocrinology 108:1972–1979

    Google Scholar 

  • Rodan GA, Martin TJ (1981) Role of osteoblasts in hormonal control of bone resorption: a hypothesis. Calcif Tissue Int 33:349–351

    Google Scholar 

  • Silve CM, Hradek GT, Jones AL, Arnaud CD (1982) Parathyroid hormone receptor in intact embryonic chicken bone: characterization and cellular localization. J Cell Biol 94:379–386

    Google Scholar 

  • Zambonin Zallone A, Teti A (1981) The osteoclasts of hen medullary bone under hypocalcaemic conditions. Anat Embryol 162:379–392

    Google Scholar 

  • Zambonin Zallone A, Teti A, Primavera MV (1982) Isolated osteoclasts in primary culture: first observations on structure and survival in culture media. Anat Embryol 165:405–413

    Google Scholar 

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Authors and Affiliations

  1. Institute of Human Anatomy, University of Bari, Italy

    A. Zambonin Zallone, A. Teti & M. V. Primavera

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  1. A. Zambonin Zallone
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  2. A. Teti
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  3. M. V. Primavera
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Zallone, A.Z., Teti, A. & Primavera, M.V. Resorption of vital or devitalized bone by isolated osteoclasts in vitro. Cell Tissue Res. 235, 561–564 (1984). https://doi.org/10.1007/BF00226953

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  • DOI: https://doi.org/10.1007/BF00226953

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