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The expression of collagen mRNAs in normally developing neonatal rabbit long bones and after treatment of neonatal and adult rabbit tibiae with transforming growth factor-β2

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Summary

Normal transverse growth of long bones is by periosteal appositional bone formation, balanced by endosteal resorption. Changes in the distribution of cells that are expressing collagen mRNAs during growth were determined using digoxigeninlabelled riboprobes. In neonatal rabbit tibiae osteoblasts expressing type I collagen mRNA are found on periosteal, and at early stages on endosteal, bone surfaces and lining peripheral cavities. Occasional osteocytes express type I collagen mRNA very weakly. The pattern is disrupted when transforming growth factor-β2 (TGF-β2) is injected daily into the periosteum of neonatal animals; there is increased bone, and later cartilage, formation. Three injections of 20 ng TGF-β2 onto the tibia of 3-day-old rabbits led to an increase of periosteal osteoblasts that express the mRNA for type I collagen. Some endosteal osteoblasts and osteocytes in newly-formed peripheral woven bone also express the mRNA. After five injections chondrocytes expressing type II collagen mRNA are found around the injection site. Similar injections of TGF-β2 in old rabbits induce only fibrous tissue within which some cells express type I collagen mRNA. This precise localization of mRNAs shows that the expression of type I or II collagen mRNA is here restricted to osteoblasts and chondrocytes, respectively.

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Authors and Affiliations

  1. Department of Anatomy, St George's Hospital Medical School, SW17 0RE, Tooting, London, UK

    Matthew A. Critchlow, Yvette S. Bland & Doreen E. Ashhurst

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  1. Matthew A. Critchlow
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  2. Yvette S. Bland
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  3. Doreen E. Ashhurst
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Critchlow, M.A., Bland, Y.S. & Ashhurst, D.E. The expression of collagen mRNAs in normally developing neonatal rabbit long bones and after treatment of neonatal and adult rabbit tibiae with transforming growth factor-β2. Histochem J 27, 505–515 (1995). https://doi.org/10.1007/BF02388750

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  • DOI: https://doi.org/10.1007/BF02388750

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