The growth and morphology of FRTL-5 thyroid epithelial cells grown as multicellular spheroids in vitro

Summary FRTL-5 cells, a diploid line of differentiated rat thyroid epithelial cells, have been grown as multicellular spheroids in spinner culture. Spheroids were initiated by seeding FRTL-5 cells either into Lab-Tek dishes or culture flasks with a 0.5% agar base. Thyroid stimulating hormone (TSH, >1.0 mU/ml) was required for initial cell aggregation and spheroid growth. After 1 wk cellular aggregates were transferred to suspension culture in spinner flasks. As with FRTL-5 monolayer cultures, continued spheroid growth required the addition of TSH to the culture medium. The most unique characteristic of the FRTL-5 spheroids was the development of central lumina similar to thyroid follicles in vivo. Follicular structures were absent from spheroids not stimulated with TSH. In the presence of TSH epithelial cells seem metabolically active with morphological evidence of biosynthesis of thyroglobulin-like material and basal laminar-like components. In contrast, all evidence of cellular metabolic activity is absent from cells in spheroids maintained in the absence of TSH. Thus, nontransformed FRTL-5 cells grown as three-dimensional multicellular spheroids responded to hormonal manipulation in a manner comparable to follicular epithelial cells in vivo. This spheroid model might therefore prove to be a very effective tool for investigating aspects of thyroid physiology and pathology in vitro. This work was supported by Grant CA-11198 and CA-20329 awarded by the National Institutes of Health, and a Biomedical Research Support Grant awarded to R. T. Mulcahy.     

Thyroid cell proliferation in response to forced expression of gap junction proteins

Gap junctions are known to play a role in the control of cell proliferation, and connexins (Cx) are considered to be tumor suppressors. However, the effects of Cx on cell proliferation are dependent on the Cx which is expressed and on the cell type under consideration. We previously found that restoration of cell-to-cell communication by stable transfection of two independent thyroid-derived cell lines, FRTL-5 and FRT cells, with the Cx32 gene induced a marked reduction of their proliferation rate. This study aimed i) at determining whether Cx43, which is coexpressed with Cx32 by thyroid epithelial cells, exerts the same action as Cx32 on cell proliferation and ii) at identifying alterations of the cell cycle control system that might account for the Cx32-induced proliferation slowdown in thyrocytes. In contrast with previous data on different epithelial cell types, we report that restoration of intercellular communication in FRTL-5 and FRT cells by stable expression of Cx43 did not modify their proliferation properties. Cell cycle analyses revealed that the Cx32-induced proliferation slow-down was related to a lengthening of the G1 phase. The level of expression of two regulatory proteins of the Cip/Kip cyclin-dependent kinase inhibitor family, p27kip1 and p2cip1, was increased in the two cell lines expressing Cx32. In conclusion, Cx32 and Cx43, physiologically coexpressed by thyrocytes, have a differential impact on thyroid cell proliferation in vitro. The cyclin-dependent kinase inhibitors, p27kip1 and p21cip1 might represent cell cycle effectors relaying the down-regulatory effect of Cx32 on the proliferation of thyroid epithelial cells.     

Heregulin-dependent autocrine loop regulates growth of K-ras but not erbB-2 transformed rat thyroid epithelial cells

The EGF-like family of proteins, such as epidermal growth factor (EGF), transforming growth factor α (TGFα), amphiregulin (AR), betacellulin (BTC), cripto-1 (CR-1), and heregulin (HRG), plays an important role in the pathogenesis of several human carcinomas as autocrine growth factors. Differentiation and proliferation of rat thyroid cells in culture (FRTL-5 cells) are regulated by thyrotropin (TSH); withdrawal of TSH from culture medium produces growth arrest, whereas its addition to quiescent cells stimulates cell entry into S phase. Instead, transformed thyroid cell lines as FRTL-5H2 cell line, overexpressing erbB-2, Kimol cells, transformed by the wild-type K-ras and A6 clone, transformed by a temperature sensitive K-ras mutant, can grow without addition of TSH to the culture medium. In order to identify whether EGF-like growth factors and corresponding receptors (erbB-2, erbB-3, and erbB-4) could be involved in the autonomous growth of these transformed rat thyroid epithelial cells, Northern blot for mRNA analysis and Western blot for protein expression were performed. In contrast to normal control FRTL-5 cells, both K-ras and erbB-2-transformed cells expressed elevated levels of erbB-2 receptor. Moreover, both K-ras transformed cells, Kimol and A6 cells, but no FRTL-5H2 cells, were found able to express also high levels of erbB-4 receptor and HRG/NDF ligand. Treatment of K-ras transformed thyroid cells with neutralizing antibody against HRG/NDF reduced by 50% cell proliferation. These data indicate that unlike the erbB-2 overexpressing FRTL-5 cells, in K-ras rat thyroid epithelial cells, the growth factor heregulin signals through the heterodimer erbB-2/erbB-4 receptors in an autocrine fashion. J. Cell. Physiol. 176:383–391, 1998. © 1998 Wiley-Liss, Inc.     

Astereological analysis of FRTL-5 cells as an effect of thyrotropin and irradiation

FRTL-5 cell line is a cloned epithelial follicular cell line from Fischer rat thyroids. This cell line expresses many of the thyroid differentiated markers in vitro. Their growth and function depend on thyrotropin (TSH) as the main regulatory hormone. In this astereological analysis, the authors concentrate on FRTL-5 nuclei as the most vulnerable part of the cell. Using morphometrical variables, they wished to discover the morphologically identifiable sign of transformation of FRTL-5 cells after irradiation and to study the effect of different TSH concentrations. FRTL-5 cells were grown in a medium of 4 different concentrations of TSH (0, 0.1, 1, 10 mU/ml) and irradiated with 0 Gy, 2 Gy, and 4 Gy. The results showed that the nuclear-cytoplasmic ratio decreases after irradiation with doses of 4 Gy or if TSH was included in the medium. The nuclear maximum diameter of FRTL-5 cells increased with higher concentrations of TSH more obviously after irradiation with 4 Gy than with 2 Gy. On the basis of astereological analysis, it was concluded that different concentrations of TSH and irradiation exert an effect especially upon FRTL-5 cell nuclei. The possible transformation of FRTL-5 cells after culturing in TSH medium and after irradiation could be confirmed by injection into an animal of the Fischer strain.     

Ischemia-responsive protein (irp94) is up-regulated by endoplasmic reticulum stress

The expression of the ischemia-responsive protein (irp94) was enhanced by endoplasmic reticulum (ER) stress inducing drugs such as brefeldin A (BFA), calcium ionophor A23187, dithiothreitol (DTT) and tunicamycin in fisher rat thyroid epithelial cell line (FRTL-5 cells). In particular, irp94 mRNA expression was increased dose dependently by tunicamycin, and there was increased irp94 expression when the cells were incubated with the thyroid-stimulating hormone (TSH) together.     

Synthesis of extracellular matrix glycoproteins by a differentiated thyroid epithelial cell line

We examined the synthesis of extracellular matrix macromolecules by the differentiated rat thyroid epithelial cell line FRTL-5. As shown by electron microscopy, the extracellular material produced by these cells is deposited at the basolateral surface and focally organized in the form of a basement membrane. Biochemical and biosynthetic studies demonstrated that laminin, type IV collagen, and fibronectin are synthesized and deposited in the culture monolayer. Secretion of fibronectin into the culture medium also occurred. By immunofluorescence we observed some peculiarities in the distribution patterns of the basement membrane glycoproteins; while fibronectin and laminin had an almost superimposable distribution, type IV collagen displayed a rather different pattern. Type IV collagen and laminin localization at sites where extracellular material was detected was confirmed by immuno electronmicroscopy using the protein A-colloidal gold technique. The results indicate that under appropriate culture conditions the differentiated thyroid epithelial cell line FRTL-5 synthesizes, secretes and organizes an extracellular matrix where some basement membrane glycoproteins are present.     

Interleukin-1 receptors on human thyroid cells and on the rat thyroid cell line FRTL-5.

Cellular binding of interleukin-1 (IL-1) was tested on monolayers of human thyrocytes in secondary culture, on long-term cultures of human thyrocytes, and on the rat thyroid cell line FRTL-5. The human thyrocytes in secondary culture showed specific binding of human 125I-rIL-1 alpha. Scatchard plots of data obtained at 4 degrees C indicated the presence of a single population of receptors with a Kd of 30 to 170 pM and 2,000 to 6,000 receptors per cell. Incubation at room temperature resulted in internalization of the receptor-ligand complex. Parallel experiments were performed with the IL-1 receptor-positive murine T-cell lines EL-4 and NOB-1. The IL-1 receptors on these cells had Kd values one fifth to one tenth those on human thyroid cells in secondary culture. Both rIL-1 alpha and rIL-1 beta inhibited 125I-rIL-1 alpha binding to human thyrocytes and the murine T cells. In contrast to the cells in secondary culture, there was no specific binding of 125I-rIL-1 alpha to long-term cultivated human thyroid cells or to the FRTL-5 cells. We concluded that recently described differences in the response to IL-1 of different thyroid cell culture systems are most likely caused by differences in expression of IL-1 receptors.     

Megalin (gp330) is an endocytic receptor for thyroglobulin on cultured fisher rat thyroid cells

We recently reported that megalin (gp330), an endocytic receptor found on the apical surface of thyroid cells, binds thyroglobulin (Tg) with high affinity in solid phase assays. Megalin-bound Tg was releasable by heparin. Here we show that Fisher rat thyroid (FRTL-5) cells, a differentiated rat thyroid cell line, can bind and endocytose Tg via megalin. We first demonstrated that FRTL-5 cells express megalin in a thyroid-stimulating hormone-dependent manner. Evidence of Tg binding to megalin on FRTL-5 cells and on an immortalized rat renal proximal tubule cell line (IRPT cells), was obtained by incubating the cells with 125I-Tg, followed by chemical cross-linking and immunoprecipitation of 125I-Tg with antibodies against megalin. To investigate cell binding further, we developed an assay in which cells were incubated with unlabeled Tg at 4 degrees C, followed by incubation with heparin, which released almost all of the cell-bound Tg into the medium. In solid phase experiments designed to illuminate the mechanism of heparin release, we demonstrated that Tg is a heparin-binding protein, as are several megalin ligands. The amount of Tg released by heparin from FRTL-5 and IRPT cells, measured by enzyme-linked immunosorbent assay (ELISA), was markedly reduced by two megalin competitors, receptor-associated protein (RAP) and 1H2 (monoclonal antibody against megalin), indicating that much of the Tg released by heparin had been bound to megalin ( approximately 60-80%). The amount inhibited by RAP was considered to represent specific binding to megalin, which was saturable and of high affinity (Kd approximately 11.2 nM). Tg endocytosis by FRTL-5 and IRPT cells was demonstrated in experiments in which cells were incubated with unlabeled Tg at 37 degrees C, followed by heparin to remove cell-bound Tg. The amount of Tg internalized (measured by ELISA in the cell lysates) was reduced by RAP and 1H2, indicating that Tg endocytosis is partially mediated by megalin.     

Activation of MHC-restricted rat T cells by cloned syngeneic thyrocytes

We have previously demonstrated that rat thyrocytes express MHC class II Ag (RT1.B&D) in response to IFN-gamma. To determine whether MHC class II-positive thyrocytes can be recognized by MHC-restricted T cells, we used our clone of rat thyroid cells (1B-6) derived from the Fisher rat thyroid cell line (FRTL-5) and known to express MHC class II Ag in response to recombinant rat IFN-gamma. CD4+ and CD8+ normal syngeneic Fisher rat spleen T cells were selected by flow cytometry and averaged greater than 96% purity. We demonstrated that irradiated MHC class II-positive but not class II-negative 1B-6 thyrocytes stimulated CD4+ T cells in a primary sensitization reaction over 4 days. In contrast, CD8+ T cells had no response in similar experiments. This stimulation of CD4+ T cells was dose dependent for 1B-6 thyrocytes and was abrogated by anti-rat MHC class II mAb (MRC OX-6). Autoreactive (Fisher) and alloreactive (Buffalo) T cell lines and isolated CD4+ T cells derived from these lines, which were developed against Fisher rat spleen cells, similarly recognized MHC class II Ag expressed on 1B-6 cells but had no detectable response to 1B-6 MHC class II-negative thyrocytes or MHC class II-positive human thyroid cells. The CD4+ T cell recognition of 1B-6 cells via MHC class II Ag supports our previous data with autologous human thyroid T cell co-cultures and is indicative of an autospecific role for thyrocytes in the development of autoimmune thyroiditis.     

High-efficient nonviral transfection of the rat thyroid cell line FRTL-5

FRTL-5 cells are used in many laboratories as an in vitro system of thyroid follicular cells since they share many properties of human thyrocytes. However, the use of FRTL-5 cells for experimental modifications is limited by low transfection efficiencies of lipid-based transfections and the need for cumbersome viral transduction protocols. A new technology - nucleofection - has become available for cell lines that are difficult to transfect. Here, we report the application and optimization of this method in FRTL-5 cells. Using the green fluorescent protein (GFP) as a reporter gene, FRTL-5 cells were easily transfectable with efficiencies over 60%. In addition, the simultaneous transfer of siRNA against GFP was feasible and allowed suppression of GFP over at least 4 days. Furthermore nucleofection was successful for establishing stable FRTL-5 cell clones. In conclusion, this optimized fast and efficient nucleofection protocol offers new properties for the experimental use of FRTL-5 cells.     

Inhibitory effect of IL-1 on the TSH dependent growth of rat thyroid cells (FRTL-5)

Using a functioning rat thyroid cell line (FRTL-5), we examined the effects of some cytokines, particularly interleukin-1 (IL-1) on the growth of thyroid cells. In 5H medium, namely Coon's modified Ham's F-12 medium supplemented with 5% calf serum and a five-hormone preparation consisting of insulin, hydrocortisone, transferrin, glycyl-L-histidyl-L-lysine acetate and somatostatin, IL-1 enhanced the growth of FRTL-5 cells detected by [3H]TdR incorporation. However, in 6H medium (5H medium plus bovine TSH), IL-1 inhibited the growth of FRTL-5 cells. Both effects were neutralized by the addition of anti-IL-1 antibody. Furthermore, IL-1 inhibited the growth of FRTL-5 cells induced by forskolin which is known as an adenylate cyclase activator. FRTL-5 cells have specific IL-1 receptors detected by the binding of 125I-labeled IL-1 alpha. By Scatchard plot analysis, the numbers and the dissociation constants of IL-1 receptors on FRTL-5 cells were shown to be 5225/cell and 8.69 x 10(-10) M. Interleukin-2, interleukin-6 and interferon-gamma (IFN-gamma) had no significant effects on the cell growth in 6H medium, while IFN-gamma and insulin-like growth factor I stimulated cell growth somewhat in 5H medium. These results suggest that IL-1 plays a regulatory role in the growth of thyroid cells through binding to the IL-1 receptors.     

Association of the changes in cytosolic Ca2+ and iodide efflux induced by thyrotropin and by the stimulation of alpha 1-adrenergic receptors in cultured rat thyroid cells

Thyrotropin causes a time- and concentration-dependent increase in cytosolic Ca2+ in FRTL-5 rat thyroid cells as measured by Quin2 fluorescence; the half-maximal response occurs in response to 1 X 10(-7) M thyrotropin. The effect of added thyrotropin is the same whether cells have been previously and chronically exposed to thyrotropin or whether they have been thyrotropin "starved" for several days. The thyrotropin effect on cytosolic Ca2+ has no relationship to intracellular cAMP levels with respect to dose and time course. Norepinephrine (1 X 10(-7) M) also causes increases in cytosolic Ca2+ in FRTL-5 thyroid cells. With the use of a variety of adrenergic inhibitors, norepinephrine was found to exert its effect via an alpha 1-adrenergic receptor. The exposure of FRTL-5 cells to physiological thyrotropin concentrations enhances the effect on cytosolic Ca2+ level induced by norepinephrine in vitro; the shape of the dose-response curve indicates a cooperative effect of the thyrotropin and norepinephrine. The increase in cytosolic Ca2+ seems to be derived from an intracellular pool rather than from the extracellular space. It is not prevented by nifedipine, a blocker of Ca2+ channels; it is present in cells exposed to ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid; and it is not associated with increased Ca2+ uptake into the cell. the thyrotropin- and norepinephrine-induced increase in cytosolic Ca2+ parallels the efflux of iodide and the organification of thyroglobulin in a dose-dependent manner.     

Identification of ERp29, an endoplasmic reticulum lumenal protein, as a new member of the thyroglobulin folding complex

Folding and post-translational modification of the thyroid hormone precursor, thyroglobulin (Tg), in the endoplasmic reticulum (ER) of the thyroid epithelial cells is facilitated by several molecular chaperones and folding enzymes, such as BiP, GRP94, calnexin, protein disulfide isomerase, ERp72, and others. They have been shown to associate simultaneously and/or sequentially with Tg in the course of its maturation, thus forming large heterocomplexes in the ER of thyrocytes. Here we present evidence that such complexes include a novel member, an ER-resident lumenal protein, ERp29, which is present in all mammalian tissues with exceptionally high levels of expression in the secretory cells. ERp29 was induced upon treatment of FRTL-5 rat thyrocytes with the thyroid-stimulating hormone, which is essential for the maintenance of thyroid cells and Tg biosynthesis. Chemical cross-linking followed by the cell lysis and immunoprecipitation of ERp29 or Tg revealed association of these proteins and additionally, immunocomplexes that also included major ER chaperones, BiP and GRP94. Sucrose density gradient analysis indicated co-localization of ERp29 with Tg and BiP in the fractions containing large macromolecular complexes. This was supported by immunofluorescent microscopy showing co-localization of ERp29 with Tg in the putative transport vesicular structures. Affinity chromatography using Tg as an affinity ligand demonstrated that ERp29 might be selectively isolated from the FRTL-5 cell lysate or purified lumenal fraction of rat liver microsomes along with the other ER chaperones. Preferential association with the urea-denatured Tg-Sepharose was indicative of either direct or circuitous ERp29/Tg interactions in a chaperone-like manner. Despite the presence of the C-terminal ER-retrieval signal, significant amounts of ERp29 were also recovered from the culture medium of stimulated thyrocytes, indicating ERp29 secretion. Based on these data, we suggest that the function of ERp29 in thyroid cells is connected with folding and/or secretion of Tg.