Abstract
Tissue engineering of human bone is a complex process, as the functional development of bone cells requires that regulatory signals be temporally and spatially ordered. The role of three-dimensional cellular interactions is well understood in embryonic osteogenesis, but in vitro correlates are lacking. Here we report that in vitro serum-free transforming growth factor (TGF)-beta1 stimulation of osteogenic cells immediately after passage results in the formation of three-dimensional cellular condensations (bone cell spheroids) within 24 to 48 hours. In turn, bone cell spheroid formation results in the up-regulation of several bone-related proteins (e.g., alkaline phosphatase, type I collagen, osteonectin) during days 3-7, and the concomitant formation of micro-crystalline bone. This system of ex vivo bone formation should provide important information on the physiological, biological and molecular basis of osteogenesis.
Publication types
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Research Support, U.S. Gov't, P.H.S.
MeSH terms
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Alkaline Phosphatase / metabolism
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Biomedical Engineering / methods*
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Biotechnology
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Blotting, Western
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Bone Development
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Bone Marrow / metabolism
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Bone Transplantation*
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Bone and Bones / cytology*
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Bone and Bones / physiology*
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Bone and Bones / ultrastructure
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Cell Division
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Cell Line
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Cells, Cultured
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Collagen / metabolism
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Culture Media, Serum-Free / metabolism
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Flow Cytometry
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Humans
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Immunohistochemistry
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Integrins / metabolism
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Microscopy, Electron
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Osteogenesis / physiology
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Osteonectin / metabolism
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Regeneration / physiology
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Spectroscopy, Fourier Transform Infrared
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Spectrum Analysis, Raman
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Time Factors
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Transforming Growth Factor beta / metabolism
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Transforming Growth Factor beta / therapeutic use
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Transforming Growth Factor beta1
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Up-Regulation
Substances
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Culture Media, Serum-Free
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Integrins
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Osteonectin
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TGFB1 protein, human
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Transforming Growth Factor beta
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Transforming Growth Factor beta1
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Collagen
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Alkaline Phosphatase