Thyrotropin induces the acidification of the secretory granules of parafollicular cells by increasing the chloride conductance of the granular membrane

Secretory granules of sheep thyroid parafollicular cells contain serotonin, a serotonin-binding protein, and calcitonin. Parafollicular cells, isolated by affinity chromatography, were found to secrete serotonin when activated by thyrotropin (TSH) or elevated [Ca2+]e. TSH also induced a rise in [Ca2+]i. We studied the effect of these secretogogues on the pH difference (delta pH) across the membranes of the secretory granules of isolated parafollicular cells. The trapping of the weak bases, acridine orange or 3-(2,4 dinitro anilino)-3'-amino- N-methyl dipropylamine (DAMP), within the granules was used to evaluate delta pH. In contrast to lysosomes, which served as an internal control, the secretory granules of resting parafollicular cells displayed a limited and variable ability to trap either acridine orange or 3-(2,4 dinitro anilino)-3'-amino-N-methyl dipropylamine; however, when parafollicular cells were stimulated with TSH or elevated [Ca2+]e, the granules acidified. Weak base trapping was also used to evaluate the ATP-driven H+ translocation into isolated parafollicular granules. The isolated parafollicular granules did not acidify in response to addition of ATP unless their transmembrane potential was collapsed by the K+ ionophore, valinomycin. Secretory granules isolated from TSH- treated parafollicular cells had a high chloride conductance than did granules isolated similarly from untreated cells. Furthermore, ATP- driven H+ translocation into parafollicular granules isolated from TSH- stimulated parafollicular cells occurred even in the absence of valinomycin. These results demonstrate that secretogogues can regulate the internal pH of the serotonin-storing secretory granules of parafollicular cells by opening a chloride channel associated with the granule membrane. This is the first demonstration that the pH of secretory vesicles may be modified by altering the conductance of a counterion for the H+ translocating ATPase.     

Alteration of parafollicular (C) cells activity in the experimental model of hypothyroidism in rats

Our previous study has shown the alteration of C cells activity in rats with experimental model of hyperthyroidism. The aim of the present study was the evaluation of parafollicular cells activity in rats with hypothyroidism evoked by propylthiouracil (PTU) given in drinking water over 21 days. Histological, ultrastructural and immunocytochemical studies using specific antibodies against calcitonin and CGRP were performed on thyroid glands taken from experimental and control groups of rats. Moreover, in all animals the calcitonin plasma levels were evaluated by radioimmunoassay. After chronic administration of PTU, thyroid image showed predominant microfollicular hyperplasia and attenuated density of parafollicular cells. The intensity of immunocytochemical reactions for CT and CGRP were weaker in the majority of C cells in comparison to the control rats, in which strong immunocytochemical reaction was observed. Examination in the electron microscope reveals the features of hypoactivity both in follicular and parafollicular cells, in which the quantity and electron density of secretory granules were smaller in comparison to the control group. These microscopic changes were accompanied by a significant decrease of calcitonin plasma concentration. Alteration of C cells activity in the experimental model of hypothyroidism, accompanied by microfollicular hypertrophy, may point to the mutual cooperation between parafollicular and follicular cells.     

Ultrastructural immunocytochemical localization of neuron-specific enolase in parafollicular cells of the rat thyroid

Summary Using pre- and post-embedding procedures, neuron-specific enolase and calcitonin were localized in rat thyroid parafollicular cells by light and electron microscopy. Peroxidase-antiperoxidase (PAP), biotin-avidin (ABC) and protein A — colloidal gold techniques were used. In paraffin sections neuron-specific enolase was demonstrated in all calcitonin-storing parafollicular cells in rats aging 1 to 180 days. The post-embedding procedure failed to detect neuron-specific enolase in ultrathin sections, but the enzyme could be demonstrated using a preembedding procedure. Neuron-specific enolase was localized exclusively within the cytosol of parafollicular cells, while calcitonin was localized within secretory granules applying either post- or pre-embedding incubation techniques.Supported by Sonderforschungsbereich 232     

Ultrastructural localization of calcitonin, somatostatin and serotonin in parafollicular cells of rat thyroid

Summary Three hormones were demonstrated in ultrathin sections of the rat thyroid using immunocytochemical methods with either a PAP complex or a protein A-gold complex as the tabel. In control rats, calcitonin was found to be present in all parafollicular cells and somatostatin in occasional cells. In rats pretreated with 5-hydroxytryptophan, serotonin was detected in all parafollicular cells as well. In serial ultrathin sections, the three hormones were seen to be localized in the same secretory granules.     

Seasonal changes of parafollicular and follicular cells of the dormouse thyroid (Myoxus glis): an ultrastructural and immunocytochemical study

The follicular epithelium of dormouse thyroid consists of two distinct cellular types, follicular and parafollicular cells. Parafollicular cells can be easily identified by their high cytoplasmic dye-affinity for phloxine, round to ovoid shape, basal arrangement and lack of contact with follicular colloid. The wide cytoplasmic matrix is clear and contains many secretory granules of variable electron density whose contents histochemically appears to be proteic with a lean glucidic component. Furthermore immunocytochemical reactions with antibodies against calcitonin and somatostatin showed that both hormones are co-stored in the secretory granules of all parafollicular cells. Both follicular and parafollicular cells show seasonal morphological variations in their secretory activity. Follicular cell activity is high in summer, reaches a peak in late fall or prehibernation and progressively slows down throughout hibernation. Parafollicular cells exhibit a fair synthetic activity in summer, in fall, and in the animals captured during winter hibernating sleep and killed after 12 days stay in laboratory. In winter sleep, granules with interrupted membrane and cottony contents are prevalent and the ultrastructural aspects suggest an intense discharge of secretion. The results are compared with those from other hibernating mammalians and discussed in the light of blood calcium values and seasonal balances of other metabolisms.     

Parafollicular cells of rabbit thryoid store both calcitonin and somatostatin and resemble gut D cells ultrastructurally.

Both calcitonin and somatostatin have been detected immunohistochemically in rabbit parafollicular cells; only calcitonin has been found in the same cells of the dog, guinea-pig and man. Large amounts of a peptide radioimmunochemically identical with synthetic somatostatin have been detected in extracts of rabbit thyroid. The ultrastructural and staining features of rabbit parafollicular cells differ from those of parafollicular cells in other species, while resembling in part those of somatostatin D cells scattered in the rabbit stomach.     

Ultrastructural localization of calcitonin and somatostatin in C cells of rabbit thyroid

C cells of rabbit thyroid exhibit significant differences in morphology, namely a variable nuclear structure and differences in size and osmophility of secretory granules. An examination of serial sections of these cells was made, using the immunocytochemical PAP or protein A-gold procedures. All C cells, irrespective of their morphology, were found to store both calcitonin and somatostatin in all secretory granules. The physiological role of somatostatin in calcitonin secretion by C cells is discussed.     

Parafollicular cells of rabbit thyroid store both calcitonin and somatostatin and resemble gut D cells ultrastructurally

Summary Both calcitonin and somatostatin have been detected immunohistochemically in rabbit parafollicular cells; only calcitonin has been found in the same cells of the dog, guinea-pig and man. Large amounts of a peptide radioimmunochemically identical with synthetic somatostatin have been detected in extracts of rabbit thyroid. The ultrastructural and staining features of rabbit parafollicular cells differ from those of parafollicular cells in other species, while resembling in part those of somatostatin D cells scattered in the rabbit stomach.Supported in part by grants from the Italian Ministero della Pubblica Istruzione and Consiglio Nazionale delle Ricerche     

SUBCELLULAR STORAGE ORGANELLES FOR 5-HYDROXYTRYPTAMINE IN PARAFOLLICULAR CELLS OF THE THYROID GLAND : The Effect of Drugs which Deplete the Amine

A study was made of the effect of the administration of reserpine and parachlorophenylalanine, an inhibitor of 5-hydroxytryptamine (serotonin; 5-HT), on the capacity of thyroid parafollicular cells to synthesize and store 5-HT. The two drugs were given to nonhibernating bats in doses which produced an equivalent degree of depletion of 5-HT from the thyroid. Tritiated 5-hydroxytryptophan, the precursor of 5-HT, was then given intravenously to assess the ability of parafollicular cell granules to take up and retain newly synthesized 5-HT. Reserpine, but not parachlorophenylalanine, decreased the amount of labeled 5-HT found in the thyroid and prevented autoradiographic labeling of parafollicular cell granules. Quantitative ultrastructural and stereological analysis demonstrated that the granules in untreated animals appeared to be nearly spherical prolate ellipsoids, with a uniformly electron-opaque inner matrix. In animals given reserpine, the axial ratio of the ellipsoidal granules increased greatly and a faint internal striation parallel to the long axis of the granules became apparent. Similar changes were not induced by parachlorophenylalanine. No other morphological changes in the thyroid epithelium were detected after administration of reserpine. This study confirms the association of 5-HT with the mature small secretory granules of thyroid parafollicular cells.     

Immunocytochemical characterization of two thyroid medullary carcinoma cell linesin vitro

Summary The immunocytochemical characterization of cell lines originating from thyroid medullary carcinoma, i.e. human TT cells and rat rMTC 6-23 cells, was undertaken. The immunocytochemical studies were supplemented by ultrastructural studies, including ultrastructural immunocytochemistry, and by radioimmunological estimation of calcitonin secretion to the medium. In rMTC 6-23 cells (subcultures 24 to 30), no hormone presence was demonstrated immunocytochemically, which corresponded to the absence of secretory granules at the ultrastructural level. Of various proteins sought, only neuron-specific enolase could be demonstrated. Nevertheless, the cells secreted calcitonin into the medium. TT cells (passages 145 to 160) produced secretory granules. The granules contained calcitonin, calcitonin gene-related peptide, somatostatin, neurotensin, met-enkephalin, leu-enkephalin, gastrin releasing peptide, parathyroid hormone-related protein, functional proteins of the chromogranin group and synaptophysin. Other functional proteins found in the cytosol of TT cells included non-specific enolase, calbindin and tyrosine hydroxylase. Receptor for calcitriol was localized in the cell nucleus. Marker proteins were localized in the cytosol (carcinoembryonic antigen) and in the cell skeleton (-tubulin, cytokeratin). Following changes in ionized calcium levels in the medium, changes in calcitonin secretion and in immunocytochemical detectability of some hormones and functional proteins were observed. TT cells demonstrated the expression of numerous hormones and functional proteins associated with calcitonin secretion. Further, the cells in their ultrastructure, immunocytochemical and secretory characteristics, resemble more closely normal parafollicular cells of the thyroid and, in our opinion, represent a more appropriate model for functional studies.     

Electron-immunocytochemical localization of calcitonin and calcitonin-gene-related peptide in human c cells of the thyroid

A preembedding immunocytochemical technique enabled us to demonstrate normal human parafollicular (C) cells at the electron-microscopic level. The normal human C cells had numerous large secretory granules with a diameter of approximately 200 nm, well-developed rough endoplasmic reticulum and Golgi complex in their cytoplasm. Calcitonin immunoreactivity and calcitonin-gene-related peptide (CGRP) immunoreactivity were present only in the C cells whose secretory granules were heavily labeled. Both calcitonin and CGRP immunoreaction deposits were seen in the cytosol but not in the cisterna of endoplasmic reticulum, Golgi apparatus or mitochondrial matrix. The two peptides produced from a single calcitonin gene were stored in the secretory granules of the C cells.     

Immunohistochemical study of a large molecular fragment of thyroglobulin in parafollicular cells

Thyroglobulin-like immunoreactivity of the parafollicular cells was studied by an immunoperoxidase bridge technique using antisera against dog thyroglobulin fragments. 1. The dog parafollicular cells were specifically stained by anti-peak I (27S and larger components fraction) antiserum absorbed with peak II (19S fraction). By this method, they were easily distinguishable from the non-reactive follicular cells and colloid droplets. More sensitive staining of the parafollicular cells was possible with anti-peak I' (larger components fraction) antiserum. The staining reactions indicated that the antigenic material responsible for immunoreactivity of the parafollicular cells was due to larger molecular components of thyroglobulin corresponding to 32S, 37S or greater than 37S, and was not due to either the 19S thyroglobulin or to the 27S iodoprotein. 2. A conspicuous decrease of the immunoreactive material in the parafollicular cells occurred in the dog after both chronically induced hypercalcemia and antithyroid drug treatment. This coincided with movement of secretory granules containing calcitonin as shown by staining with silver impregnation, HCl-basic dye, and lead-hematoxylin. 3. The antisera against larger molecular components of dog thyroglobulin showed a high degree of cross-reactivity to the parafollicular cells of most of the mammalian species investigated; rats, rabbits, hamsters, mice, cats, lions, goats, cows, and human.     

Immunocytochemical localization of prohormone convertases PC1 and PC2 in the mouse thyroid gland and respiratory tract.

We examined immunocytochemical localization of the prohormone convertases, PC1 and PC2, in the thyroid gland and respiratory tract of the adult mouse using the indirect enzyme- and immunogold-labeled antibody methods for light and electron microscopy, respectively. In the thyroid gland, PC1- and/or PC2-immunoreactive cells were cuboidal, scattered in the follicular epithelium and in the interfollicular spaces. When serial sections were immunostained with anti-calcitonin, anti-PC1, anti-calcitonin-gene-related-peptide (CGRP), and anti-PC2 sera, respectively, localization of both PC1 and PC2 was restricted to the calcitonin/CGRP-producing parafollicular cells. In the respiratory tract, only PC1 immunoreactivity was observed in the basal granulated neuroendocrine cells, which were scattered in the tracheal epithelium. Consecutive sections immunostained with anti-PC1 and anti-CGRP sera showed that a subpopulation of these PC1-immunoreactive cells contained CGRP. Double immunogold electron microscopy of the thyroid parafollicular cells revealed that calcitonin- and/or CGRP-immunopositive secretory granules were also labeled with both PC1 and PC2. These findings suggest that procalcitonin is proteolytically cleaved by PC2 alone or by PC2 together with PC1, and that the proCGRP is cleaved by PC1.     

Depletion of secretory granules,calcitonin, and formaldehyde-ozone-induced fluorescence from cat thyroid C cells by vitamin D2 treatment

Summary Using a combination of electron microscopy, fluorometry, and bioassay, the C cells of the cat thyroid were investigated with respect to their content of secretory granules, and calcitonin, and to their formaldehyde-ozone-induced fluorescence. This fluorescence is assumed to reflect the presence of a peptide with NH₂-terminal tryptophan. In cats injected with large doses of vitamin D₂ daily for 5 days, the C cells were degranulated, their fluorescence intensity was lowered and the calcitonin content of the thyroid was markedly reduced. It is suggested that the proposed tryptophyl peptide in the C cells is stored in the secretory granules and that it is engaged in the storage and/or release of the hormone.     

Ultimobranchial gland of the domestic fowl

Summary The ultimobranchial gland (UBG) of birds is particularly rich in calcitonin, the hypocalcaemic hypophosphataemic hormone, that is secreted by the C-cells of the mammalian thyroid. The principal cells of the UBG have a striking resemblance with the mammalian C-cells, i.e., they possess small intracytoplasmic dense-core secretory granules, 150–300 nm in diameter. The gland also contains a second, morphologically distinct, endocrine cell type with larger granules, 500–800 nm in diameter. A sensitive immunocytochemical reaction was developed with the use of antibodies against salmon calcitonin. By means of this technique the presence of calcitonin-immunoreactive molecules was demonstrated in both secretory cell types of the UB gland of the chicken. This gland can thus be considered as a homogeneous calcitonin-producing tissue. Whether the secretory products are identical is discussed and differences in the secretory pathways are suggested.     

Calcitonin is not contained within the common precursor to corticotropin and endorphin in the rat.

The suggestion that calcitonin is contained within the structure of the common precursor to ACTH and endorphin was examined. Immunohistochemical staining demonstrated calcitonin in thyroid parafollicular cells, and ACTH and 16K fragment in ACTH/endorphin cells of pituitary. No 16K fragment immunostaining was detected in thyroid parafollicular cells; no calcitonin staining was detected in pituitary. Immunoprecipitation of [³⁵S]methionine-labeled molecules synthesized by rat intermediate pituitary cells demonstrated that neither 30K precursor, 16K fragment nor any other major labeled cell product was recognized by calcitonin antiserum. Analyses of tryptic peptides of 30K precursor indicated that peptides expected from calcitonin were not present in 30K precursor.     

Monoamines in rat thyroid parafollicular cells and the effect of vitamin D2-induced degranulation

Summary Thyroid parafollicular cells of normocalcemic and vitamin D₂-treated rats were investigated by electron microscopy and with the histochemical fluorescence technique of Hillarp and Falck.Administration of high doses of vitamin D₂ caused hypercalcemia and an extensive degranulation of the parafollicular cells.The formation and storage of monoamines in granulated and degranulated parafollicular cells was investigated by fluorescence microscopy after injection of monoamine precursors (DOPA, 5-HTP), alone or in combination with Ro 4-4602, nialamide or reserpine.No fluorescence was observed in parafollicular cells of untreated rats. l-DOPA and l-5-HTP (but not the corresponding D-amino acids) were taken up by a process closely linked to the decarboxylation of the amino acids to the corresponding amines (dopamine and 5-hydroxytryptamine). Treatment with vitamin D₂ did not seem to affect the formation of amines in the parafollicular cells or the formation and storage of amines in other cell systems investigated. The amine itself (dopamine) was not taken up by the parafollicular cells.In normocalcemic rats, the amine formed was retained in the cytoplasm of the parafollicular cells by a partially reserpine-resistant mechanism. The storage of amines is concluded to occur in association with the calcitonin-containing granules.In parafollicular cells of vitamin D₂-treated rats, a certain amount of amine was bound in the cytoplasm in the absence of typical granules. As a considerable amount of calcitonin is known to remain in the thyroid of vitamin D₂-treated rats, the present observations may indicate an association between the amine and the polypeptide hormone calcitonin, whether the latter is confined to typical granules or not.The present study was supported by grants B72-12X-3352-02 and B72-14X-2207-06B from the Swedish Medical Research Council and by grants from Magnus Bergwall's Foundation, Gustav and Majen Lundgren's Foundation, Wilhelm and Martina Lundgren's Foundation and from the Faculty of Medicine, University of Göteborg, Sweden. For skilful technical assistance we are indebted to Mrs. Kirsten Collin and Mr. Pär-Anders Larsson.     

Concomitant depletion of dopamine and secretory granules from cells in the ultimobranchial gland of vitamin D2-treated chicken

Summary The ultimobranchial gland (UBG) is a rich source of the polypeptide hormone calcitonin, which is present in a cell system analogous to the mammalian parafollicular cells (C cells) of the thyroid gland. Both types of cells are argyrophilic and, ultrastructurally, they are furnished with numerous electron-dense granules considered to contain the hormone. In the chicken, the main cells of the UBG contain large amounts of dopamine. The possible functional relationship between this amine and the hormone has been studied by a combination of fluorescence and electron microscopy of the UBG from chickens treated with vitamin D₂. This stimulus produced a depletion of dopamine and a pronounced degranulation of the UBG cells, concomitant with a loss in their argyrophilia. Administration of l-3,4-dihydroxyphenylalanine (l-DOPA) to vitamin D₂-treated animals was followed by a reappearance of dopamine in the cytoplasm of the UBG cells, whereas electron-dense granules or argyrophilia were not restored. It is suggested that this concomitant depletion of dopamine and the secretory granules from the UBG cells reflects a participation of the amine in the secretion of the polypeptide hormone.     

Ultrastructural immunocytochemical localization of calcitonin in the C cells of the rat thyroid

Using unlabeled antibodies and peroxidase-anti-peroxidase complexes, calcitonin was localized at the ultrastructural level in rat thyroid C cells. Calcitonin was present mainly in secretory granules of the cells. A less intense positive reaction was noted in the cytoplasm surrounding the secretory granules.     

Ultrastructural immunocytochemical localization of calcitonin in the C cells of the rat thyroid

Summary Using unlabeled antibodies and peroxidase-anti-peroxidase complexes, calcitonin was localized at the ultrastructural level in rat thyroid C cells. Calcitonin was present mainly in secretory granules of the cells. A less intense positive reaction was noted in the cytoplasm surrounding the secretory granules.