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  • Development and cytodifferentiation of C cell complexes in dog fetal thyroids. An immunohistochemical study using anti-calcitonin, anti-C-thyroglobulin and anti-19S thyroglobulin antisera.

Development and cytodifferentiation of C cell complexes in dog fetal thyroids. An immunohistochemical study using anti-calcitonin, anti-C-thyroglobulin and anti-19S thyroglobulin antisera.

Cell and tissue research (1980-01-01)
Y Kameda, H Shigemoto, A Ikeda
ABSTRACT

The development of C-cell complexes was investigated in dog fetuses by an immunoperoxidase method with three specific antisera: anti-calcitonin, anti-C-thyroglobulin (C-Tg), and anti-19S thyroglobulin. Ultimobranchial bodies joined with the thyroid anlage and then dispersed into the parenchyma to form large C cell groups. Sparse reaction products of C-Tg initially appeared in C cells with small amounts of cytoplasm. Later at about day 39 of gestation, when the immunoreactivity of calcitonin and 19S thyroglobulin appeared weakly in C cells and follicular cells, C-cell complexes were identified as large cell masses containing numerous undifferentiated cells without no immunoreactivity for any of the antisera. As development proceeded, the undifferentiated cells developed progressively the morphology of C cells. In addition, the undifferentiated cells developed 19S thyroglobulin immunoreactivity, that is, within some of the complexes small clusters of cells filled with material immunoreactive for 19S thyroglobulin. They were not organized into follicles during the fetal period, and were very slow in development. Depending on the degree of development of the undifferentiated cells, several features of the complexes were noted. The present study indicates that not only C cells but also follicular thyroid cells appear to be derived from the ultimobranchial bodies.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Calcitonin (SP17) Rabbit Monoclonal Antibody
Sigma-Aldrich
Calcitonin Rabbit Polyclonal Antibody