Functional model of rat thyroid follicles cultured in Matrigel

Background: Long term maintenance of functional activity of thyroid cells is an essential requirement for basic in vitro studies on the physiology and pathology of the thyroid. An important prerequisite of thyrocytes’ functional activity in vivo and in vitro is their follicle organization. Aim: This study aimed at developing a method of cultivation of functionally active rat thyroid follicles in Matrigel under three-dimensional conditions. Methods: Undamaged rat thyroid follicles were isolated by enzymatic digestion with collagenase/dispase, then embedded into Matrigel, and cultivated for two weeks. Thyroglobulin, thyroxine and zonula occludens-1 (ZO-1) localization were revealed by immunofluorescence analysis. Iodide organification was tested by protein bound 125I (PBI) measurement. Results: Integrity of the follicles was preserved during the whole period of cultivation and was confirmed by 3D reconstruction of ZO-1 localization. Thyroglobulin was detected in thyrocyte cytoplasm, as well as in the intrafollicular lumen. Thyroxine was observed predominantly at the apical side of thyrocytes. Also, generated cultures were characterized by high level of iodide organification: PB125I represented 39 % of the total radioactivity in the Matrigel drop embedding the follicles; at the same time, methimazole almost totally inhibited this process (0.2 % of total radioactivity). Conclusion: The method of rat thyrocyte cultivation in Matrigel, as described here allows to maintain the structural integrity and the functional activity of thyroid follicles in vitro and could be used for wide ranges of basic and applied researches in thyroidology.

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Acrylamide does not induce tumorigenesis or major defects in mice in vivo

Journal of Endocrinology ◽

10.1677/joe-08-0123 ◽

2008 ◽

Vol 198 (2) ◽

pp. 301-307 ◽

Cited By ~ 4

Author(s):

Ling Jin ◽

Vanessa Chico-Galdo ◽

Claude Massart ◽

Christine Gervy ◽

Viviane De Maertelaere ◽

...

Keyword(s):

Thyroid Hormone ◽

Chronic Administration ◽

Serum Levels ◽

Human Thyroid ◽

Thyroid Cell ◽

Thyroid Cells ◽

Hormone Synthesis ◽

Rat Thyroid

Chronic administration of acrylamide has been shown to induce thyroid tumors in rat. In vitro acrylamide also causes DNA damage, as demonstrated by the comet assay, in various types of cells including human thyroid cells and lymphocytes, as well as rat thyroid cell lines. In this work, mice were administered acrylamide in their drinking water in doses comparable with those used in rats, i.e., around 3–4 mg/kg per day for mice treated 2, 6, and 8 months. Some of the mice were also treated with thyroxine (T4) to depress the activity of the thyroid. Others were treated with methimazole that inhibits thyroid hormone synthesis and consequently secretion and thus induces TSH secretion and thyroid activation. These moderate treatments were shown to have their known effect on the thyroid (e.g. thyroid hormone and thyrotropin serum levels, thyroid gland morphology…). Besides, T4 induced an important polydipsia and degenerative hypertrophy of adrenal medulla. Acrylamide exerted various discrete effects and at high doses caused peripheral neuropathy, as demonstrated by hind-leg paralysis. However, it did not induce thyroid tumorigenesis. These results show that the thyroid tumorigenic effects of acrylamide are not observed in another rodent species, the mouse, and suggest the necessity of an epidemiological study in human to conclude on a public health policy.

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The Flavonoid Quercetin Induces AP-1 Activation in FRTL-5 Thyroid Cells

Antioxidants ◽

10.3390/antiox8050112 ◽

2019 ◽

Vol 8 (5) ◽

pp. 112 ◽

Cited By ~ 2

Author(s):

Cesidio Giuliani

Keyword(s):

Binding Site ◽

Thyroid Function ◽

Thyroid Cell ◽

Consensus Binding Site ◽

Thyroid Cells ◽

Basal Activity ◽

Reporter Vector ◽

Rat Thyroid

Previous studies have shown that quercetin inhibits thyroid function both in vitro and in vivo. An attempt to evaluate the effect of quercetin at the promoter level of the thyroid-specific genes led to the observation that this compound induces the basal activity of the reporter vector. Therefore, the action of quercetin has been evaluated on the basal activity of several reporter vectors: The PGL3 basic, promoter and control vectors from Promega, and a pSV-based chloramphenicol acetyltransferase (CAT) reporter vector. In the Fisher Rat Thyroid cell Line FRTL-5 thyroid cells transiently transfected, quercetin 10 μM increased the basal activity of all the reporter vectors evaluated, although the degree of the effect was significantly different among them. The analysis of the difference among the regulatory regions of these vectors identified the activator protein 1 (AP-1) binding site as one of the potential sites involved in the quercetin effect. Electromobility shift assay experiments showed that the treatment with quercetin induced the binding of a protein complex to an oligonucleotide containing the AP-1 consensus binding site. This is the first study showing an effect of quercetin on AP-1 activity in thyroid cells. Further studies are in progress to understand the role of AP-1 activation in the effects of quercetin on thyroid function.

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Reexpression of blood group ABH antigens on the surface of human thyroid cells in culture.

The Journal of Cell Biology ◽

10.1083/jcb.94.1.193 ◽

1982 ◽

Vol 94 (1) ◽

pp. 193-200 ◽

Cited By ~ 5

Author(s):

E L Khoury

Keyword(s):

Cell Surface ◽

Blood Group ◽

Enzymatic Digestion ◽

Cell Suspensions ◽

Human Thyroid ◽

Blood Group Antigens ◽

Thyroid Cells ◽

Blood Group Abh

Using indirect immunofluorescence (IFL) on viable human thyroid cultures, it has been shown that, although adult follicular cells do not express blood group ABH antigens in vivo, they invariably reexpress the corresponding antigens on the cell surface when cultured in monolayers, even for very short periods. The absence of blood group antigens on noncultured thyroid cells was confirmed by negative IFL on cell suspensions obtained after enzymatic digestion of the glands, whereas these antigens were readily demonstrable on cell suspensions obtained by trypsinization of established monolayers. The quantitative expression of ABH antigens on individual thyroid cells was variable and the cell-surface IFL pattern due to binding of blood group isoantibodies was different from that given by organ-specific thyroid autoantibodies on viable cultures. Reexpression of blood group antigens by cultured thyroid cells could not be related to the secretor status of the donors, the presence of a particular source of serum in the culture medium or cell division in vitro. After 2-3 wk in culture, thyroid cells became morphologically dedifferentiated and no longer displayed blood group antigens, though they still expressed cell-surface beta 2-microglobulin. Fibroblasts present in the primary thyroid cultures were invariably negative for ABH antigens. These results demonstrate that the surface antigenic repertoire of cultured human cells is not necessarily identical to that present on the same cells in vivo. Furthermore, the possibility that blood group natural isoantibodies bind to the cell surface must be taken into account in experiments in which cultured thyroid cells are exposed to human sera.

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Control of thyroglobulin secretion from the rat thyroid gland

Journal of Endocrinology ◽

10.1677/joe.0.1010107 ◽

1984 ◽

Vol 101 (1) ◽

pp. 107-111 ◽

Cited By ~ 8

Author(s):

E. G. Black ◽

M. C. Sheppard ◽

R. Hoffenberg

Keyword(s):

Thyroid Stimulating Hormone ◽

Dependent Manner ◽

Serum Thyroglobulin ◽

Thyroid Cells ◽

Normal Rat ◽

Rat Thyroid ◽

Dose Dependent ◽

Rat Thyroid Gland

ABSTRACT Serum thyroglobulin (Tg), measured by radioimmunoassay, was high in 6-propylthiouracil (PTU)-treated rats but low in thyroxine (T4)-treated animals compared with euthyroid controls. Thyroid-stimulating hormone (TSH) stimulated Tg release in vitro from enzymatically dispersed normal rat thyroid cells in a dose-dependent manner. Thyroid cells prepared from T4-treated animals behaved similarly to cells from control rats, whereas in vitro basal release of Tg from thyroid cells prepared from PTU-treated animals was high and the response to TSH was lost. Our data confirm the TSH dependency of Tg release in vivo and in vitro and our system provides a means of studying the control of Tg secretion in vitro. J. Endocr. (1984) 101, 107–111

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Anoctamin-1/TMEM16A is the major apical iodide channel of the thyrocyte

AJP Cell Physiology ◽

10.1152/ajpcell.00126.2014 ◽

2014 ◽

Vol 307 (12) ◽

pp. C1102-C1112 ◽

Cited By ~ 41

Author(s):

L. Twyffels ◽

A. Strickaert ◽

M. Virreira ◽

C. Massart ◽

J. Van Sande ◽

...

Keyword(s):

Cell Lines ◽

Apical Membrane ◽

Specific Inhibitor ◽

Anion Channel ◽

Thyroid Cell ◽

Anoctamin 1 ◽

Thyroid Cells ◽

Rat Thyroid

Iodide is captured by thyrocytes through the Na+/I− symporter (NIS) before being released into the follicular lumen, where it is oxidized and incorporated into thyroglobulin for the production of thyroid hormones. Several reports point to pendrin as a candidate protein for iodide export from thyroid cells into the follicular lumen. Here, we show that a recently discovered Ca2+-activated anion channel, TMEM16A or anoctamin-1 (ANO1), also exports iodide from rat thyroid cell lines and from HEK 293T cells expressing human NIS and ANO1. The Ano1 mRNA is expressed in PCCl3 and FRTL-5 rat thyroid cell lines, and this expression is stimulated by thyrotropin (TSH) in rat in vivo, leading to the accumulation of the ANO1 protein at the apical membrane of thyroid follicles. Moreover, ANO1 properties, i.e., activation by intracellular calcium (i.e., by ionomycin or by ATP), low but positive affinity for pertechnetate, and nonrequirement for chloride, better fit with the iodide release characteristics of PCCl3 and FRTL-5 rat thyroid cell lines than the dissimilar properties of pendrin. Most importantly, iodide release by PCCl3 and FRTL-5 cells is efficiently blocked by T16Ainh-A01, an ANO1-specific inhibitor, and upon ANO1 knockdown by RNA interference. Finally, we show that the T16Ainh-A01 inhibitor efficiently blocks ATP-induced iodide efflux from in vitro-cultured human thyrocytes. In conclusion, our data strongly suggest that ANO1 is responsible for most of the iodide efflux across the apical membrane of thyroid cells.

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THE EFFECT OF PROPYLTHIOURACIL AND THYROID-STIMULATING HORMONE ON THE SURVIVAL OF RAT THYROID CELLS IN VIVO AND IN VITRO

Journal of Endocrinology ◽

10.1677/joe.0.0410577 ◽

1968 ◽

Vol 41 (4) ◽

pp. 577-591 ◽

Cited By ~ 6

Author(s):

J. W. SPEIGHT ◽

W. I. BABA ◽

G. M. WILSON

Keyword(s):

Toxic Effect ◽

Tritiated Thymidine ◽

Thyroid Stimulating Hormone ◽

Thyroid Cells ◽

Rat Thyroid ◽

Stimulating Hormone

SUMMARY The persistence of tritiated DNA ([3H]DNA) in the thyroids of rats given propylthiouracil (PTU) or PTU plus thyroxine was compared with that in control animals who received either no drugs or thyroxine alone. When only PTU was given, large goitres developed from which [3H]DNA was lost more rapidly than from thyroids of control animals. Administration of thyroxine with PTU led to only slight thyroidal enlargement, but the persistence of [3H]DNA was similarly reduced. The results suggested that PTU might have a toxic effect, reducing the lifespan of thyroid cells and this was further investigated using monolayer thyroid cultures. Thyroid-stimulating hormone (TSH) accelerated the incorporation of tritiated thymidine ([3H]TdR) into cultures, but when PTU was also given the uptake was retarded. PTU alone was less effective in inhibiting [3H]TdR incorporation. The persistence of [3H]DNA in thyroid cultures was unaffected by PTU and was decreased by TSH. When PTU and TSH were given together there was a greatly increased loss of isotope from the cells.

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Regulation of thymosin beta10 expression by TSH and other mitogenic signals in the thyroid gland and in cultured thyrocytes

Acta Endocrinologica ◽

10.1530/eje.0.1400597 ◽

1999 ◽

pp. 597-607 ◽

Cited By ~ 7

Author(s):

G Viglietto ◽

D Califano ◽

P Bruni ◽

G Baldassarre ◽

MT Vento ◽

...

Keyword(s):

Thyroid Gland ◽

Actin Polymerization ◽

Mrna Level ◽

Thyroid Cell ◽

Dependent Manner ◽

Follicular Cells ◽

Thyroid Cells ◽

Rat Thyroid

OBJECTIVE: To investigate the expression of thymosin beta10 - a small conserved acidic protein involved in the inhibition of actin polymerization - in human and experimental thyroid goiters as well as the regulation exerted by TSH on thymosin beta10 expression in thyroid follicular cells both in vivo and in vitro. DESIGN: To this aim, we have used 5 bioptic specimens from patients affected by thyroid goiter, a well known experimental model of thyroid goitrogenesis (rat fed with the drug propylthiouracil) and a cultured rat thyroid cell line (PC Cl 3 cells) as a model system. RESULTS: We report that the mRNA expression of thymosin beta10 is markedly enhanced in human goiters compared with normal thyroid. In vivo results showed that the steady-state level of thymosin beta10 mRNA is up-regulated in the thyroid gland of propylthiouracil-fed rats in parallel with follicular cell proliferation: iodide administration to goitrous rats, which induced a marked involution of thyroid hyperplasia, reduced the mRNA level of thymosin beta10. Finally, in vitro studies showed that in cultured rat thyrocytes, the expression of thymosin beta10 mRNA is induced in a time- and dose-dependent manner by the activation of pathways which are mitogenic for thyroid cells (i.e. the protein kinase (PK) A and PKC pathways). CONCLUSION: Taken together, the findings reported here demonstrate that thymosin beta10 expression is regulated by extracellular signals that stimulate growth of thyroid cells both in vitro and in vivo, and suggest a role for this protein in thyroid diseases characterized by proliferation of follicular cells.

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FOXE1-Dependent Regulation of Macrophage Chemotaxis by Thyroid Cells In Vitro and In Vivo

International Journal of Molecular Sciences ◽

10.3390/ijms22147666 ◽

2021 ◽

Vol 22 (14) ◽

pp. 7666

Author(s):

Sara C. Credendino ◽

Marta De Menna ◽

Irene Cantone ◽

Carmen Moccia ◽

Matteo Esposito ◽

...

Keyword(s):

Thyroid Cancer ◽

Immune Cells ◽

Cancer Susceptibility ◽

Macrophage Infiltration ◽

M2 Macrophage ◽

Thyroid Cells ◽

Transcriptional Alterations ◽

Cancer Phenotypes

Forkhead box E1 (FOXE1) is a lineage-restricted transcription factor involved in thyroid cancer susceptibility. Cancer-associated polymorphisms map in regulatory regions, thus affecting the extent of gene expression. We have recently shown that genetic reduction of FOXE1 dosage modifies multiple thyroid cancer phenotypes. To identify relevant effectors playing roles in thyroid cancer development, here we analyse FOXE1-induced transcriptional alterations in thyroid cells that do not express endogenous FOXE1. Expression of FOXE1 elicits cell migration, while transcriptome analysis reveals that several immune cells-related categories are highly enriched in differentially expressed genes, including several upregulated chemokines involved in macrophage recruitment. Accordingly, FOXE1-expressing cells induce chemotaxis of co-cultured monocytes. We then asked if FOXE1 was able to regulate macrophage infiltration in thyroid cancers in vivo by using a mouse model of cancer, either wild type or with only one functional FOXE1 allele. Expression of the same set of chemokines directly correlates with FOXE1 dosage, and pro-tumourigenic M2 macrophage infiltration is decreased in tumours with reduced FOXE1. These data establish a novel link between FOXE1 and macrophages recruitment in the thyroid cancer microenvironment, highlighting an unsuspected function of this gene in the crosstalk between neoplastic and immune cells that shape tumour development and progression.

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In Vitro Culture of Human Thyroid Cells: Preliminary Findings on the Role of the Pathological Condition of the Donors

Alternatives to Laboratory Animals ◽

10.1177/026119299702500208 ◽

1997 ◽

Vol 25 (2) ◽

pp. 153-160

Author(s):

Francesca Mattioli ◽

Marianna Angiola ◽

Laura Fazzuoli ◽

Francesco Razzetta ◽

Antonietta Martelli

Keyword(s):

Pathological Condition ◽

Primary Cultures ◽

S Phase ◽

Human Thyroid ◽

Thyroid Cells ◽

Toxicological Studies ◽

Predictive Indicator

Although primary cultures of human thyroid cells are used for endocrinological and toxicological studies, until now no attention has been paid toward verifying whether the hormonal conditions to which the gland was exposed in vivo prior to surgery could influence in vitro responses. Our findings suggest that the hormonal situation in vivo cannot be used as a predictive indicator of triiodothyronine and thyroxine release and/or S-phase frequency in vitro, either with or without the addition of bovine thyrotropin.

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Trace Amine-Associated Receptor 1 Trafficking to Cilia of Thyroid Epithelial Cells

Cells ◽

10.3390/cells10061518 ◽

2021 ◽

Vol 10 (6) ◽

pp. 1518

Author(s):

Maria Qatato ◽

Vaishnavi Venugopalan ◽

Alaa Al-Hashimi ◽

Maren Rehders ◽

Aaron D. Valentine ◽

...

Keyword(s):

Cell Surface ◽

Cell Lines ◽

Human Thyroid ◽

Apical Plasma Membrane ◽

Thyroid Cell ◽

Thyroid Cells ◽

Trace Amine ◽

Rat Thyroid

Trace amine-associated receptor 1 (rodent Taar1/human TAAR1) is a G protein-coupled receptor that is mainly recognized for its functions in neuromodulation. Previous in vitro studies suggested that Taar1 may signal from intracellular compartments. However, we have shown Taar1 to localize apically and on ciliary extensions in rodent thyrocytes, suggesting that at least in the thyroid, Taar1 may signal from the cilia at the apical plasma membrane domain of thyrocytes in situ, where it is exposed to the content of the follicle lumen containing putative Taar1 ligands. This study was designed to explore mouse Taar1 (mTaar1) trafficking, heterologously expressed in human and rat thyroid cell lines in order to establish an in vitro system in which Taar1 signaling from the cell surface can be studied in future. The results showed that chimeric mTaar1-EGFP traffics to the apical cell surface and localizes particularly to spherical structures of polarized thyroid cells, procilia, and primary cilia upon serum-starvation. Moreover, mTaar1-EGFP appears to form high molecular mass forms, possibly homodimers and tetramers, in stably expressing human thyroid cell lines. However, only monomeric mTaar1-EGFP was cell surface biotinylated in polarized human thyrocytes. In polarized rat thyrocytes, mTaar1-EGFP is retained in the endoplasmic reticulum, while cilia were reached by mTaar1-EGFP transiently co-expressed in combination with an HA-tagged construct of the related mTaar5. We conclude that Taar1 trafficking to cilia depends on their integrity. The results further suggest that an in vitro cell model was established that recapitulates Taar1 trafficking in thyrocytes in situ, in principle, and will enable studying Taar1 signaling in future, thus extending our general understanding of its potential significance for thyroid autoregulation.

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