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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The toxic effects of cadmium on the thyroid gland of pregnant rats were studied with an electron microscope and an X-ray microanalyzer. Serum levels of thyroid hormones (T3 and T4) were also analyzed. Deterioration of the rough-surfaced endoplasmic reticulum occurred in the thyroid follicular epithelium on the fifth day of cadmium treatment. Large intracellular vacuoles, which arose from dilated cisternae of the rough-surfaced endoplasmic reticulum, were fused together, and marked swelling of the mitochondria was also noted. Thyroglobulin-secreting granules at the apical cytoplasm were decreased in number. By energy dispersive X-ray microanalysis, cadmium peaks were preferentially obtained from swollen mitochondria in the follicular epithelial cells. Serum levels of T3 and T4 were significantly decreased in cadmium-treated rats dams when compared to those of controls. In the present experiment, cycloheximide also caused degenerative changes in the rough-surfaced endoplasmic reticulum and the disappearance of thyroglobulin-secreting granules. Cycloheximide is a known inhibitor of protein synthesis on cytosolic ribosomes. These results indicated that accumulated cadmium in the mitochondria of thyroid follicular epithelial cells might disturb the oxidative phosphorylation of this organelle and the loss of energy supply possibly caused the inhibition of the synthesis and release of thyroid hormones.
Exp Mol Pathol 1991 Aug
PMID:Cadmium toxicity in the thyroid gland of pregnant rats. 188 72

Rat thyroid follicles were isolated by collagenase digestion and cultured in suspension on agarose for 1-12 days with 0-0.1-1 mU/ml thyrotropin (TSH). After a 4 h exposure to Na125I they were processed for light and electron microscopy, autoradiography and biochemical analysis. Follicular 125I accumulation (A) and organification (PBI) were measured. Thyroglobulin (Tg) content of follicles and 125I-labelled amino acids in Tg were analyzed by high-performance liquid chromatography (HPLC). Without TSH, follicular lumina and cell polarity persisted. From day 3, the rough endoplasmic reticulum (RER) and ribosomes disappeared while autophagic vacuoles appeared: 125I accumulation and PBI were significantly reduced. From day 6, ultrastructural cell dedifferentiation occurred. At day 12, autoradiographic labelling was found over very few lumina; half of the 125I accumulated was still organified. With 1 mU TSH, follicles formed aggregates with narrow densely labelled lumina lined by tall cells. The RER was well developed up to day 12. 125I accumulation, PBI and iodothyronine (T3, T4) formation in Tg remained significantly higher than in follicles cultured without TSH, showing a transient decrease at days 6 and 9. Monoiodotyrosine/diiodotyrosine (MIT/DIT) and T3/T4 ratios in Tg were not modified, suggesting the persistence in the follicles of a significant iodine pool available for iodination. With 0.1 mU TSH, alterations of cell morphology and reduction of functional properties occurred later than without TSH. In the presence of TSH, morphological signs of new follicle formation were seen. These data demonstrate that closed follicles keep their follicular structure up to 12 days of culture, even without TSH. However, TSH is necessary to maintain iodine accumulation and organification.
Mol Cell Endocrinol 1990 Jun 18
PMID:Correlated morphological and functional study of isolated rat thyroid follicles in suspension culture. 237 85

Thyroglobulin gene expression was repressed in a rat thyroid cell line transformed with Kirsten murine sarcoma virus. Expression of a dominant selectable marker driven by the thyroglobulin promoter was also inhibited. Somatic cell hybridization of transformed and differentiated thyroid cells resulted in extinction of thyroglobulin gene expression. When transformed cells carrying a dominant selectable marker driven by the thyroglobulin promoter were fused to differentiated cells and expression of this marker was selected, we obtained stable hybrid cell lines expressing both the endogenous and the exogenous thyroglobulin promoters. Although the expression of v-ras remained unchanged compared with expression in the parental transformed cells, transformation was suppressed in the hybrid cell lines. The other thyroid differentiation markers, iodide uptake and thyroid-stimulating hormone-dependent growth, were inhibited in all the hybrids tested. We show that activity of the thyroglobulin promoter correlates with the presence of a thyroid nuclear factor that binds the promoter at position -60 from the transcription start site. Loss of this factor accompanies the extinction of thyroglobulin gene expression in hybrids selected for expression of a non-thyroid-specific promoter.
Mol Cell Biol 1990 Mar
PMID:Extinction and activation of the thyroglobulin promoter in hybrids of differentiated and transformed thyroid cells. 240 59

This study shows that the Fisher rat thyroidal cell line (FRTL-5) can iodinate newly synthesized thyroglobulin. Iodinated thyroglobulin was found intra- and extracellularly. Both the synthesis of thyroglobulin and its subsequent iodination were found to be thyrotropin (TSH) dependent, with optimal activity at 10-100 microU TSH/ml. Thyroglobulin was the only protein in the culture medium, that was iodinated with high specificity and in a TSH-dependent fashion. Albumin, which was abundantly present in the culture medium, was only weakly iodinated. Various proteins, including thyroglobulin, were found to be iodinated intracellularly. Of these iodoproteins only thyroglobulin appeared in the medium suggesting selective secretion of iodinated thyroglobulin. It was shown that the other intracellular iodoproteins were no thyroglobulin breakdown products. Their function is as yet unknown.
Mol Cell Endocrinol 1989 Oct
PMID:Iodination of newly synthesized thyroglobulin by FRTL-5 cells is selective and thyrotropin dependent. 261 32

Thyroglobulin iodination and thyroxine synthesis in vitro require the presence of peroxidase, H2O2 and iodide. H2O2 is usually continuously generated by glucose oxidase (GO) and glucose. The aim of this study was to investigate whether the two enzymes could possibly be inactivated by a particular concentration of H2O2 or iodide present during incubation. The results revealed that both enzymes were indeed inactivated under two distinct conditions: Lactoperoxidase and thyroid peroxidase were inactivated by modest concentrations of H2O2 accumulating during incubation. Glucose oxidase was inactivated by an oxidized species of iodine or singlet oxygen produced in the catalytic cycle. The results may explain some hitherto unsolved discrepancies between different iodination procedures. Moreover they may have an impact on the regulation of in vivo thyroglobulin iodination and hormone synthesis.
Mol Cell Endocrinol 1986 Jul
PMID:Inactivation of peroxidase and glucose oxidase by H2O2 and iodide during in vitro thyroglobulin iodination. 301 6

We developed a new assay method for dehydroalanine residues in thyroglobulin, which had been proposed to be the 'lost side chains' during thyroid hormonogenesis. Thyroglobulin preparations were labeled with 4-aminothiophenol at 30 degrees C for 10 days. Under the conditions, the reagent reacted only with dehydroalanine and cysteine residues. The 4-aminothiophenol bound to cysteine was eliminated by reductive cleavage. The 4-aminothiophenol-labeled dehydroalanine (4-aminophenylcysteine) residues were liberated by acidic hydrolysis, converted to a colored derivative by the Bratton-Marshall reaction and quantified colorimetrically. The number of dehydroalanine residues was the same as that of hormone residues in each thyroglobulin preparation. The results indicate that when one hormone residue is produced by the coupling of two iodotyrosine residues, the 'lost side chain' is preserved as one dehydroalanine residue in the thyroglobulin molecule.
Mol Cell Endocrinol 1988 May
PMID:Colorimetry of dehydroalanine residues preserved as 'lost side chains' in thyroglobulin. 339 54

Primary cultures of ovine thyroid cells were induced to differentiate by addition of thyrotropin (TSH). This was demonstrated as an accumulation of 2 thyroid-specific proteins, thyroglobulin and thyroid peroxidase, using immunofluorescent staining methods and immunoprecipitation of biosynthetically labeled cultures. As an additional measure of differentiation, cells exhibited a morphological response to TSH and regained the ability to incorporate radioactive iodide. Epidermal growth factor (EGF) markedly inhibited differentiation when added together with TSH. Thyroglobulin synthesis was reduced to low levels and peroxidase synthesis was reduced to levels that were undetectable by the methods used. Morphological changes in response to TSH were also diminished by EGF. The antagonistic interaction between TSH and EGF in regulating differentiation in cultured thyroid cells may reflect the type of control that exists in vivo.
Mol Cell Endocrinol 1985 Nov
PMID:Epidermal growth factor inhibits thyrotropin-mediated synthesis of tissue-specific proteins in cultured ovine thyroid cells. 387 50

Thyroglobulin molecules from normal rats and rats treated with propylthiouracil (PTU) were studied in the electron microscope by the negative staining technique. Intracellular molecules were prepared from exocytotic vesicles, and extracellular molecules from the high-speed centrifugation supernatant. In accord with our previous findings, extracellular thyroglobulin molecules from normal glands had an ovoid conformation, whereas extracellular molecules from PTU-treated glands had a different, cylindrical shape. Thyroglobulin molecules from exocytotic vesicles were of the ovoid variety in normal as well as in PTU-exposed thyroids. Two interpretations are discussed. One would be that PTU exerts a non-physiological effect on ovoid molecules in connection with exocytosis of thyroglobulin. The other interpretation is that thyroglobulin molecules normally undergo 2 transformations (ovoid-cylinder-ovoid) during the process of exocytosis; PTU would inhibit the second transformation and cause accumulation of cylinders in the colloid.
Mol Cell Endocrinol 1980 Oct
PMID:The structure of newly synthesized intracellular thyroglobulin molecules. 616 69

We studied the hormonal secretion of a human mixed follicular and medullary carcinoma. Thyroglobulin (Tg) secretion, especially by large cells and sometimes by small ones, was visualized with immunoenzymatic staining. Calcitonin (CT) was produced by small spindle-shaped cells. Moreover, immunofluorescence double staining performed on the resected thyroid tissue showed the secretion of both Tg and CT in a small number of cells. The cells lost their hormonal secretion after 2 months of culture. Hormonal secretion was modulated by different additives in the medium. Tg secretion was induced when TSH was added to the culture medium; the maximal effect was produced with the addition of 1 mU TSH/ml and 1 microM cortisol, which potentiated the effect of TSH on Tg production. A durable Tg secretion was obtained by embedding the cells in Engelbretch-Hohn-Swarn (EHS) tumour matrix. The CT production was reinduced by the addition of 4 mM Ca2+, 1 microM glucagon and 1 microM cortisol to the culture medium. These findings show that different cells are found in a mixed follicular and medullary carcinoma, some of which can secrete both CT and Tg. They can remain differentiated for a long period after being embedded in EHS tumour matrix with Ca2+ and hormonal components.
J Mol Endocrinol 1993 Aug
PMID:Hormonal study of a human mixed follicular and medullary thyroid carcinoma. 824 Jun 72

We studied the lymphocyte-induced alterations in hormonal metabolism and the production of tumour necrosis factor alpha (TNF-alpha) during coculture of thyrocytes and autologous lymphocytes from 20 patients with Graves' disease and from five normal subjects. Thyroglobulin (Tg) mRNA was assessed by slot-blot analysis under TSH stimulation. Tg, tri-iodothyronine (T3) and cAMP secretion in the presence of TSH were measured by RIA after 3 or 5 days of coculture. TNF-alpha levels produced after 5 days incubation were also assayed in lymphocyte culture and coculture media. Lymphocytes isolated from peripheral blood (PBLs) altered the production of Tg, T3 and cAMP in autologous thyrocytes. Intrathyroidal lymphocytes (ITLs) decreased Tg and cAMP secretion but had no effect on T3 secretion. The reductions in Tg and cAMP levels obtained with mechanically isolated ITLs (M-ITLs) were generally higher than those obtained with ITLs isolated by dispase (D-ITLs). No difference was seen between Graves' disease and normal cocultures. PBLs secreted large concentrations of TNF-alpha, larger than those obtained with M-ITLs whereas D-ITLs produced low amounts of this cytokine. In coculture, TNF-alpha levels were lower than those observed in lymphocyte culture. Significant correlations were obtained between TNF-alpha levels and the decrease in Tg, T3 and cAMP concentrations. The percentage of T lymphocytes was higher in PBLs and D-ITLs than in M-ITLs. B lymphocytes levels were higher in ITLs, especially M-ITLs, than in PBLs. TNF-alpha production by B lymphocytes was maximal in M-ITLs. In conclusion, lymphocytes induced a decrease in hormonal thyroid metabolism when cocultured with autologous thyrocytes. These perturbations may be attributed, at least partly, to TNF-alpha secreted by lymphocytes. TNF-alpha interacts via the adenylate cyclase pathway of TSH signal transduction.
J Mol Endocrinol 1996 Dec
PMID:Effect of lymphocytes on hormonal secretion by autologous thyrocytes cultured in monolayers. 898 Dec 25


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