The promoter of the human sodium/iodide-symporter gene responds to retinoic acid.

It was shown previously that hNIS mRNA expression is stimulated by retinoic acid (RA) in human follicular thyroid carcinoma cell lines FTC-133 and FTC-238, and patients with thyroid carcinomas lacking iodide uptake respond to RA treatment with increased radioiodide transport. Here, in transient transfection experiments using FTC-238 cells, hNIS promoter/luciferase reporter constructs showed an up to 2.5-fold increase in transcriptional activity after incubation with 1 microM RA. Stimulation by 10 nM T3 was up to 2.4-fold. Deletion or block mutation of a putative nuclear receptor recognition site, 'DR10', abolished RA and T3 responses. Four copies of the DR10 cloned 5' to the thymidine kinase promoter gave a 2.6-fold and a 1.4-fold increase in transcriptional activity after RA and T3 stimulation, respectively. In electrophoretic mobility shifts, a wildtype DR10 oligonucleotide, but not block mutants of either DR10 halfsite, interacted with nuclear receptors. Thus, RA redifferentiation of advanced thyroid carcinomas may reinduce iodide uptake by stimulating hNIS expression and thereby make tumours accessible for radioiodide therapy again.

Thyroid hormone receptors and type I iodothyronine 5'-deiodinase activity of human thyroid toxic adenomas and benign cold nodules.

The majority of thyroid adenomas are of clonal origin. In a subset of toxic adenomas (TAs) and cold nodules (CNs) activating mutations in the thyrotropin (TSH) receptor or G s -alpha gene may explain the altered functions in these benign tumours. The present study was undertaken to investigate the status of functional thyroid hormone receptors, major thyroid hormone signal mediators, in both the human TAs and CNs in comparison with a normal thyroid tissue from the same patient. Electrophoretic mobility shift assays using a DR4 ("direct repeats" 4), a thyroid hormone responsive element (TRE) of human type I iodothyronine 5'-deiodinase demonstrated the DNA-binding of thyroid hormone receptors (TRs) in thyroid tissue nuclear extracts. A significant increase (p < 0.05) in the functional binding properties of TRs to the DR4 thyroid hormone responsive element was found in TAs when compared to normal thyroid tissue. Contrary, a marked diminution in the TR-TRE complex formation was found in CNs in comparison with normal thyroid tissue. In addition, functional activity of the iodothyronine 5'-deiodinase (5'DI) was analyzed in benign tumours, thyroid TAs and CNs in comparison with that of normal thyroid tissue. A significantly increased (p < 0.01) activity of 5'DI was demonstrated in TAs, and in contrast, decreased values of the enzyme activity were found in CNs when compared to a normal tissue. From the data it is suggested that both the status of TR-TRE complex formation and the activity of the 5'DI may be altered in benign tumours of human thyroid gland.

Clinical impact of retinoids in redifferentiation therapy of advanced thyroid cancer: final results of a pilot study.

Differentiated thyroid cancer is a malignant tumour that has a fairly good prognosis, with patients surviving for many years. Multimodal therapy with surgery, radioiodine therapy and TSH suppressive medication is of proven efficacy. However, loss of differentiation is observed in up to one-third of patients with differentiated thyroid cancer, paralleled by an increase in tumour grading and loss of thyroid-specific functions (thyrotropin receptor, iodine accumulation). Such tumours may no longer be amenable to standard treatment protocols, including TSH suppression and radioiodide therapy. Retinoic acids have been shown to exert re-differentiating effects on thyrocytes in various experimental studies and case reports, and it was on this basis that this pilot study was initiated. Patients with advanced thyroid cancer and without the therapeutic options of operation or radioiodide therapy were treated with 13- cis-retinoic acid at a dosage of 1.5 mg/kg body weight daily over 5 weeks. Parameters for assessment of the therapeutic effect were serum thyroglobulin (TG) levels, radioiodine uptake, and tumour size prior to and after retinoid treatment. Fifty patients were evaluated for response, classified as reduction in tumour size and TG levels, stable disease or disease progression. Thirteen patients showed a clear increase in radioiodine uptake, and eight a mild increase. TG levels were unchanged or decreased in 20 patients. Tumour size was assessable in 37 patients; tumour regression was observed in six, and there was no change in 22. In total, a response was seen in 19 patients (38%). Response to retinoid therapy did not always correlate with increased radioiodine uptake, so other direct antiproliferative effects have to be assumed. The encouraging results of the study and the low rate of side-effects with good tolerability of retinoids warrant further studies with altered inclusion criteria and employment of other redifferentiating drugs or combinations of agents.

Regulation of the sodium/iodide symporter by retinoids--a review.

Decrease or loss of iodide uptake, due to impaired expression and/or function of the sodium/iodide-symporter (NIS), is a major obstacle to the treatment of advanced thyroid carcinomas by radioiodide therapy. Several approaches are being evaluated to optimise or restore sufficient iodide transport in those cases, among them retinoid therapy. Retinoids with their growth-inhibiting and differentiation-inducing properties have been repeatedly used for treatment and chemoprevention of various cancers. In thyroid carcinoma cell lines they trigger changes in gene expression that may be interpreted as partial redifferentiation. Especially, they stimulate NIS mRNA expression and iodide uptake in human follicular thyroid carcinoma cells. Moreover, they also increase NIS expression and function in human mammary tumour cells. In a clinical pilot study to evaluate the feasibility of retinoid redifferentiation in the case of otherwise untreatable thyroid cancers, 21 of 50 patients showed an increase of radioiodide uptake after 5 weeks. This indicates that increasing NIS activity and radioiodide uptake by retinoic acid redifferentiation may be a therapeutic alternative for thyroid cancers refractory to other therapeutic modalities and probably also for mammary cancer.

Retinoic acid redifferentiation therapy for thyroid cancer.

For the treatment of differentiated thyroid cancer, surgery, radioiodide therapy, and thyrotropin-suppressive thyroxine application represent established therapeutic measures of proven efficiency, affording a good prognosis for this disease. However, in up to 30% of the cases, dedifferentiation is observed, giving rise to tumors that are refractory to conventional treatment. Eventually, this may lead to the most malignant human tumor, anaplastic thyroid carcinoma, with a life expectancy of only a few months after diagnosis. Among novel approaches for the treatment of dedifferentiated thyroid carcinomas, retinoic acid redifferentiation therapy was evaluated in several in vitro and in vivo studies. Cell culture experiments in thyroid carcinoma lines show that RA treatment affects thyroid specific functions (type I 5'-deiodinase, sodium/iodide-symporter), cell-cell or cell-matrix interaction (intercellular adhesion molecule-1, E-cadherin), differentiation markers (alkaline phosphatase, CD97), growth, and tumorigenicity. The observed changes, which involve multiple parameters that characterize a mature, functional thyrocyte, may be interpreted as partial redifferentiation. In clinical pilot studies, about 40% of the patients responded to RA application with an increased radioiodide uptake. In an evaluation of 20 RA-treated patients with well-documented data sets, 8 exhibited a decrease (4) or stabilization (4) in tumor size and/or in serum thyroglobulin levels in addition to enhanced radioiodide transport. This indicates that these patients with a long history of unresponsiveness to other treatment may have experienced an actual therapeutic benefit. These data suggest that RA redifferentiation therapy, considering especially its comparatively mild side effects, may soon represent an alternative therapeutic approach to otherwise untreatable thyroid tumors.

Innovative strategies for the treatment of thyroid cancer.

Normally, thyroid cancer is a disease with a good prognosis, but about 30% of the tumours dedifferentiate and may finally develop into highly malignant anaplastic thyroid carcinomas with a mean survival time of less than 8 months. Due to the loss of thyroid-specific functions associated with dedifferentiation, these tumours are inaccessible to standard therapeutic procedures such as radioiodide therapy and thyroxine-mediated thyrotrophin suppression. Medullary thyroid carcinomas are also highly aggressive. Here, therapy is limited to surgery, and no alternative is left if patients do not respond to this standard procedure. Obviously, new approaches would be desirable. Several novel approaches are currently being tested for the treatment of thyroid cancer. Many of them utilise methods of gene therapy, but follow different strategies: (1) reintroduction of the tumour suppressor p53 into a background lacking functional p53; (2) suicide gene therapy with ganciclovir and a transduced gene for herpes simplex virus thymidine kinase controlled by the thyroglobulin promoter; (3) strengthening of the antitumour immune response by expression of an adenovirus-delivered interleukin-2 (IL-2) gene; (4) induction of an immune response by DNA vaccination against the tumour marker calcitonin; (5) transduction of the thyroid sodium/iodide transporter gene to make tissues that do not accumulate iodide treatable by radioiodide therapy; (6) blocking of the expression of the oncogene c-myc by antisense oligonucleotides. While these approaches are still tested in vitro or in animal models, first results from pilot studies concerning other novel treatment modalities are available: (7) radioimmunotherapy exploits the carcinoembryonic antigen expressed on medullary thyroid carcinomas to target a radiolabelled antibody to the tumour; and (8) retinoic acid is used for a redifferentiation therapy in the case of thyroid cancer. Hopefully, one or the other of these novel strategies may probably extend after some time the current therapeutic repertoire for thyroid cancers and provide a perspective for otherwise untreatable patients.

An interdisciplinary approach to breast and PCA. International Symposium: Breast and PCA: Genes, Hormones and the Environment, Garmisch-Partenkirchen, Germany, 22-24 April 1999.

Breast and prostate cancer (PCA) are among the leading cancer forms in the developed world. The 'International Symposium: Breast and PCA: Genes, Hormones and the Environment', and interdisciplinary meeting organized by K. Badenhoop (University Hospital, Frankfurt, Germany), J. Köhrle (University Hospital, Würzburg, Germany) and W-D. Schleuning (Schering AG, Berlin, Germany), was intended to promote the exchange of new concepts and emerging paradigms between basic science and clinical research, and to establish interactions with researchers in industry in this field.

Increased I-131 uptake in local recurrence and distant metastases after second treatment with retinoic acid.

We present a case of increased I-131 uptake in a patient with papillary thyroid carcinoma with local recurrence and distant metastases after a second treatment with retinoic acid as a sign of redifferentiation of the tumor cells. When fine-needle aspiration cytology before and after a second course of retinoic acid treatment were compared, signs of tumor cell redifferentiation were found. This was accompanied by biochemical reexpression of thyroid marker proteins.

Regulation of CD97 protein in thyroid carcinoma.

CD97 is a dimeric glycoprotein belonging to the secretin receptor superfamily and is abundantly expressed in cells of hematopoietic origin. The aim of this study was to analyze the expression of the CD97 protein in thyroid carcinomas and the role of all-trans-retinoic acid (RA) in the regulation of CD97 protein in monolayer culture of the human follicular thyroid carcinoma cell line FTC-133. In normal thyroid tissue, no immunoreactivity of CD97 could be found, whereas in differentiated thyroid carcinomas, CD97 expression was either lacking or low. Undifferentiated anaplastic thyroid carcinomas revealed high CD97 expression. The expression of CD97 protein seems to be correlated to the postoperative histopathological classification staging. Approximately 50% of FTC-133 cells expressed the CD97 protein under basal culture conditions. No differences were found in the number of CD97-positive cells after TSH, forskolin, and insulin treatment compared to control values. Epidermal growth factor treatment led to an increase in CD97 immunostaining (up to 90%), whereas phorbol 12-myristate 13-acetate slightly decreased the immunoreactivity of CD97 (from 50% to 30%). Under basal conditions, RA treatment for 72 h led to a decrease in total cell number by 33% and in CD97-positive cells from 50% to 30%. TSH, forskolin, phorbol 12-myristate 13-acetate, and insulin showed no effect after 72-h pretreatment with RA, whereas epidermal growth factor treatment led to a slight increase in the number of the CD97-positive cells (from 30% to 40%) compared to the control value. These data suggest that CD97 expression may play an important role in the dedifferentiation of thyroid tumors, and RA might interfere with this process in thyroid carcinoma by suppressing the dedifferentiation marker CD97.

Reverse transcriptase-polymerase chain reaction analysis of thyrocyte-relevant genes in fine-needle aspiration biopsies of the human thyroid.

Currently, fine-needle aspiration cytology is a valuable tool in the routine diagnosis of suspicious thyroid nodules. We present a very sensitive method for the molecular analysis of the expression of several genes important for normal thyroid function in parallel to the cytological diagnosis. We adapted reverse transcriptase polymerase chain reaction (RT-PCR) to amplify thyroid-typical mRNAs in samples of thyroid carcinoma cells as small as those obtained by fine-needle aspiration biopsy (FNAB), ie, 100-1000 cells, and applied this procedure to four routinely taken FNABs. Gene products such as thyroglobulin (Tg), thyroid-stimulating hormone-receptor (TSHr), sodium/iodide-symporter (NIS), type I iodothyronine-5'-deiodinase (DI), and type II iodothyronine-5'-deiodinase (DII) were analyzed. To establish RT-PCR protocols, serial dilutions of follicular thyroid carcinoma cells, FTC-133, which express these genes at low levels, were initially used for RNA isolation. Successful RNA isolation and reverse transcription were checked by the amplification of beta-actin mRNA. We detected the mRNAs coding for Tg in as little as 10 cells, for NIS in 100 cells, and for TSHr, DI, and DII in 10,000 cells. After preparing cytological smears of four routinely taken FNABs, all above-mentioned thyroid-typical mRNAs were observed by using the material remaining in the needle for RNA isolation followed by RT-PCR. This method offers the possibility of obtaining two different types of information from the same routinely taken thyroid FNAB: the cytological diagnosis and the expression pattern of several diagnostically relevant genes. Therefore, a more specific diagnosis could be rendered in the preoperative state, and may lead to more specific therapy.

Implications of the molecular characterization of the sodium-iodide symporter (NIS).

The recently cloned sodium-iodide symporter (NIS) represents a key molecule for thyroid function by efficiently accumulating iodide from the circulation into the thyrocyte against an electrochemical gradient. This uptake requires energy, is coupled to the action of Na+/K+-ATPase, and stimulated by TSH, the main hormone regulating thyroid-specific functions. NIS mutations are found in congenital hypothyroidism, and potential defects in the NIS gene, its expression, or function of the NIS protein are currently under investigation in various thyroid diseases. Increased NIS expression has been found in autonomous adenoma and Graves' disease, decreased levels of NIS protein and/or mRNA were observed in Hashimoto's disease, cold nodules, most thyroid cancers and cell lines derived therefrom. Autoantibodies directed against NIS have been identified in autoimmune thyroid disease and blocking antibodies isolated from sera of patients with Hashimoto's disease inhibit NIS function in NIS-transfected CHO cells. NIS mRNA expression can be up-regulated by retinoic acid in human thyroid carcinoma cell lines whereas retinoic acid treatment decreases NIS expression and function in differentiated rat thyroid FRTL-5 cells. Apart from thyrocytes, NIS is also expressed in other tissues known to transiently accumulate radioiodide, albeit at much lower levels, requiring RT-PCR for detection of the transcript. Diagnostic and therapeutic implications of the recent cloning of the human NIS gene such as development of NIS-directed drugs, ligands, antibodies, vaccines, gene therapeutic approaches combining NIS targeting and expression together with the long-established, efficient and safe method of radioiodide therapy are discussed both for application to thyroid related diseases and carcinoma, and non-thyroid benign and malignant diseases. Apart from these therapeutic and diagnostic perspectives the availability of the NIS gene will also open new opportunities to develop sensitive and homologous diagnostic test systems to identify factors involved in autoimmune thyroid disease, evolution of goitre, adenoma and thyroid cancer as well as NIS-directed new drugs. Advanced and sophisticated molecular diagnostic approaches (RT-PCR from fine needle aspirations, screening for mutations, analysis of gene defects) are already developed for NIS and will complement or overcome some established procedures in thyroid diagnostics.

Redifferentiation therapy with retinoids: therapeutic option for advanced follicular and papillary thyroid carcinoma.

During the course of tumor progression the differentiated morphologic and functional characteristics of differentiated thyroid carcinomas (DTC) disappear. This corresponds to more aggressive growth, metastatic spread, and loss of iodine uptake. Experimental data give strong evidence that differentiated functions of iodine metabolism can be reinduced by retinoic acids. Results of a study performed in patients with advanced DTC are presented. Twenty patients with DTC (eight follicular, seven papillary, five oxyphilic) were selected for treatment with retinoic acid 1.5 mg/kg body weight/day over 5 weeks. All patients had advanced tumor stages with prior operative and radioiodine treatment. Extensive tumor invasion, distant metastatic spread, or insufficient or no radioiodine uptake precluded any conventional therapeutic option. The aim was to assess the changes under retinoid treatment. Iodine uptake increased in eight patients (three follicular, three papillary, two oxyphilic). Thyroglobulin (TG) as parameter for tumor mass and differentiation increased in 12 (63%) patients, decreased in 6 (32%), and did not change in 1 (5%). Retinoids do have an effect on differentiation status of DTC, reinducing iodine uptake in 50% of patients. TG levels do not always parallel a response in iodine uptake.

Functional retinoid and thyroid hormone receptors in human thyroid-carcinoma cell lines and tissues.

Thyroid carcinomas no longer accessible to radio-iodide or TSH-suppressive T4 therapy, due to loss of thyroid-specific functions, might be sufficiently re-differentiated by retinoic acid (RA) to be treated by conventional methods again. To help evaluate the feasibility of RA re-differentiation therapy in thyroid carcinomas, we examined the functionality of RA receptors (RARs/RXRs), central RA signal mediators, in human thyroid-carcinoma cell lines as model systems. [3H]-RA binding assays with nuclear extracts from follicular thyroid-carcinoma cell lines FTC-133 and -238 revealed high-affinity binding sites for RA. Electrophoretic mobility shift and super-shift assays using a DR2 ("direct repeat" 2) RA response element demonstrated DNA-binding of RARalpha, RARgamma, RXRalpha and RXRbeta in nuclear extracts of FTC-133 and anaplastic HTh74 cells. Use of a DR5 RA response element revealed no difference in DNA binding. In supershift assays with a DR4 T3 response element, we found DNA-binding by TRalpha1, TRalpha2, and TRbeta. Northern-blot analysis showed low expression of RXRbeta mRNA in FTC-133 and of TRalpha1 mRNA in FTC-133 and FTC-238 cells. Using RT-PCR, we detected mRNA for RARalpha, RARbeta, RARgamma, RXRalpha, and RXRbeta in the 4 cell lines and in human thyroid-carcinoma samples. RARbeta mRNA was reduced in FTC-238 cells and RXRbeta mRNA was decreased in anaplastic C643 cells and 9 of 12 tumor samples. Differential RA regulation of RA-receptor-mRNA expression was observed in the various cell lines. Thus, RA and T3 nuclear receptors are present in thyroid-carcinoma cell lines or tissues, albeit with cell-line and tumor-dependent variations; in the cell lines, they were shown to be functional with respect to DNA and/or ligand binding.

Adjuvant arthritis in the rat is associated with decreased binding of nuclear receptors to thyroid hormone responsive element in spleen extracts.

In vertebrates, thyroid hormone and its cognate nuclear receptors are involved in a complex arrangement of physiological and developmental function. Since thyroid hormone has also been shown to affect immune responses, we investigated the DNA binding status of T3 receptors of spleen nuclear extracts in a) rats with adjuvant arthritis (AA); b) adrenalectomized rats (ADX), and c) animals with adjuvant arthritis followed by adrenalectomy (AA + ADX). A marked diminution in the functional binding of nuclear thyroid hormone receptors to DR4 thyroid hormone responsive DNA element was found in the spleens of AA and AA + ADX rats when compared to a control group or ADX rats. The data based on in vivo experiments suggest that the nuclear receptor--thyroid hormone responsive element complex status within the cell nucleus may be altered in adjuvant arthritis.

Retinoic acid increases sodium/iodide symporter mRNA levels in human thyroid cancer cell lines and suppresses expression of functional symporter in nontransformed FRTL-5 rat thyroid cells.

Decreased iodide uptake in de-differentiated thyroid carcinomas impedes radioiodide therapy. RTPCR analysis revealed reduced expression of Na+/I- symporter (NIS) mRNA in human thyroid carcinomas as compared to normal thyroid. However, in follicular thyroid carcinoma cell lines FTC-133 and FTC-238, treatment with 1 microM all-trans retinoic acid (RA) markedly increased NIS mRNA levels. Anaplastic thyroid carcinoma cell lines HTh74 and C643 showed basal expression of NIS mRNA, but no RA-stimulation. All four cell lines contained the approximately 80 kD NIS protein as judged by Western blot, although they did not accumulate iodide. In contrast, in nontransformed rat FRTL-5 cells, 1 microM RA downregulated NIS mRNA levels, inhibited the TSH- or forskolin-triggered induction of NIS message after TSH-depletion, and reduced iodide uptake to 38% after 5 d. This divergent RA-responsivity of NIS may provide the means to target radioiodide to thyroid carcinomas by upregulating iodide transport into tumor tissue while simultaneously inhibiting iodide accumulation in normal thyrocytes and may thus re-establish the potential for radioiodide therapy.

The promoter of the human type I 5'-deiodinase gene--mapping of the transcription start site and identification of a DR+4 thyroid-hormone-responsive element.

The selenoenzyme thyroxine 5'-deiodinase type I deiodinates the prohormone thyroxine to the active thyroid hormone 3,3',5-triiodothyronine. It is thus one of the key enzymes involved in the triiodothyronine-mediated control of growth, differentiation and basal metabolism in vertebrates. We report here the identification of the transcription start site and the cloning of 1500 bases of the upstream regulatory region of the human 5'-deiodinase gene. They contain a complex triiodothyronine-responsive element at nucleotides -696 to -673, consisting of an ideal direct repeat (DR) of two AGGTCA half-sites with a spacing of four nucleotides (DR+4) and a third putative AGTTCA half-site with a spacing of another two nucleotides (DR+2). The whole DR+4+2 specifically bound to thyroid hormone receptor and retinoid X receptor in electrophoretic mobility shift assays. The DR+4+2 mediates triiodothyronine-responsiveness in cotransfection experiments of constructs containing the 5'-deiodinase upstream promoter and enhancer region fused to luciferase or chloramphenicol acetyltransferase reporter genes with expression plasmids of thyroid hormone receptor subtypes. Also, an about 2.5-fold induction of the 5'-deiodinase-promoter-luciferase-reporter construct by all-trans retinoic acid was observed in a cotransfection assay with retinoic acid receptors. Point mutation analysis of the DR+4+2 type hormone-responsive element, however, revealed that it does not alone mediate the retinoic acid effect. The transcription start point of the 5'-deiodinase gene was mapped to nucleotides -23 and -24. No CAAT or TATA box is located within the usual distance to the transcription initiation site. Two GC boxes were found at nucleotides -68 to -63 and -39 to -34. Transfection analysis revealed that the proximal 105 nucleotides in the 5'-flanking region of the 5'-deiodinase gene act as a functional core promoter. This data indicates that triiodothyronine, the end product of thyroid hormone synthesis, positively regulates one of the key enzymes in its production.

Structure of the human type I iodothyronine 5'-deiodinase gene and localization to chromosome 1p32-p33.

The human type I iodothyronine 5'-deiodinase gene encodes a member of the family of selenocysteine-containing deiodinases. These enzymes catalyze the activation of the prohormone thyroxine to 3,3',5-triiodothyronine or the degradation of thyroxine and triiodothyronine to inactive metabolites. Here we report the isolation of two genomic type I 5'-deiodinase clones from a chromosome 1-specific gridded cosmid library, the localization of the gene to chromosome 1p32-p33 by fluorescence in situ hybridization, and the determination of the complete structure of the 17.5-kb gene.

Expression of selenoproteins in various rat and human tissues and cell lines.

Various rat and human tissues and cell lines naturally exposed to endogenous or exogenous oxidative stress were examined for their pattern of selenoprotein transcripts. Selenoprotein P mRNA was mainly expressed in rat kidney, testis, liver and lung. In testis, a high phospholipid hydroperoxide glutathione peroxidase (PHGPx) but only a weak cytosolic glutathione peroxidase (cGPx) signal was obtained. In kidney, spleen, heart, liver and lung cGPx mRNA levels were higher than those of PHGPx and for both only weak signals were obtained with brain mRNA. The Northern blot results concerning the tissue distribution of cGPx in the rat were fully supported by activity measurements. None of the human tissues revealed a PHGPx mRNA signal, whereas selenoprotein P transcripts were present in all human tissues with the highest abundance in heart, liver, and lung, tissues which also exhibited strong cGPx signals. The gastrointestinal glutathione peroxidase (GPx-GI) was only expressed in human liver and colon liver. Liver, the organ that showed the broadest repertoire of selenoproteins, has to cope with reactive oxygen intermediates produced during detoxification reactions. Human cell lines of the myeloic system that may be exposed to oxidative stress during inflammatory processes showed distinct cGPx signals: epithelial cells showed low cGPx signals. Similar cGPx mRNA levels were found in normal human thyroid tissue and thyroid carcinoma cells. Among the human cell lines selenoprotein P expression was detected in HepG2 and HTh74 thyroid cells. Our data confirm the necessity of getting specific information on distinct tissue- and cell-specific patterns of selenoprotein expression as endpoints of selenium supply and biological function of the selenoprotein family. Analysis of total selenium contents of tissues or body fluids only provides integrative information on the global selenium status of individuals.