Preliminary in situ identification of estrogen target cells in bone

I. P. Braidman, L. K. Davenport, D. H. Carter, P. L. Selby, E. B. Mawer, A. J. Freemont

    Research output: Contribution to journalArticlepeer-review

    Abstract

    Although estrogens profoundly influence skeletal growth and maturation, their mechanism of action is still unclear. To identify their target cells in bone, estrogen receptors were located by immunofluorescence using the H222 monoclonal antibody in cryosections (both undecalcified and briefly decalcified) of hyperplastic mandibular condyle (persistent asymmetric mandibular growth) from a 14-year-old girl and radius and ulna from an 18- month-old female pig (epiphyseal fusion) and from a 3-month-old guinea pig (epiphyses open). Bone was removed from the animals at the peak of estrus. The most striking feature in all three species was the high proportion (approximately 50%) of receptor positive osteocytes. Although all sections contained active bone-forming surfaces, we were unable to identify dearly osteoblasts or lining cells that were estrogen receptor positive. In pig hone only, distinctive groups of receptor positive chondrocytes, with a pericellular localization of collagen type 1, were detected above the growth plate but below secondary centers of ossification. This observation suggests that osteocytes are major skeletal estrogen target cells and may be involved in coordinating the response of surface bone cells to the hormone, and further that chondrocytes may be involved in estrogen-induced epiphyseal growth plate fusion.
    Original languageEnglish
    Pages (from-to)74-80
    Number of pages6
    JournalJournal of Bone and Mineral Research
    Volume10
    Issue number1
    Publication statusPublished - 1995

    Keywords

    • Adolescent
    • Animals
    • Antibodies, Monoclonal
    • cytology: Bone and Bones
    • analysis: Collagen
    • Comparative Study
    • Female
    • cytology: Femur
    • Frozen Sections
    • cytology: Growth Plate
    • Guinea Pigs
    • Humans
    • Immunoenzyme Techniques
    • metabolism: Mandible
    • cytology: Radius
    • metabolism: Receptors, Estrogen
    • Swine
    • cytology: Tibia
    • cytology: Ulna
    • metabolism: Uterus

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