Growth stimulating antibody, as another predisposing factor of Graves' disease (GD): analysis using monoclonal TSH receptor antibodies derived from patients with GD

TSH receptor antibody (TRAb) is clinically classified into thyroid stimulating antibody (TSAb) and thyroid-stimulation blocking antibody (TSBAb). Although the former is considered to cause Graves' disease (GD), its activity does not necessarily reflect hormone production and goiter size. Moreover, uptake of 99mTcO4(-), the best indicator for GD, is correlated with activity of TSH binding inhibitor immunoglobulin better than activity of TSAb. Because uptake of 99mTcO4(-) reflects thyroid volume, these observations suggest that there exist TRAb with thyrocyte growth stimulating activity (GSA) other than TSAb. In this study, we analyzed GSA of monoclonal TRAb established from patients with GD or idiopathic myxedema (IME). GSA was measured as the degree of FRTL-5 cell growth stimulated by each TRAb. The signaling pathways of the cell growth were pharmacologically analyzed. The cell growth stimulated by TSH was strongly suppressed by protein kinase A (PKA) inhibitor, but was not affected by extracellular signal regulated kinase kinase (MEK) inhibitor. Although TSAb from GD stimulated the cell growth, both inhibitors suppressed it. Surprisingly, the cell growth was also induced by TSBAb from GD and was only suppressed by MEK inhibitor. TSBAb from IME did not have GSA and attenuated the cell growth stimulated by TSH. We concluded that 1; in GD, not only TSAb but some TSBAb could stimulate thyrocyte growth. 2; TSBAb might be classified with respect to their effects on thyrocyte growth; i.e., thyrocyte growth stimulating antibody and thyrocyte growth-stimulation blocking antibody.     

Immunoglobulins of untreated Graves' patients with or without thyrotropin receptor antibody (determined by porcine thyrocytes) universally elicit potent thyroid hormone-releasing activity in cultured human thyroid follicles.

Thyrotropin receptor antibody (TRAb), comprising thyrotropin binding inhibitor immunoglobulin (TBII) and thyroid-stimulating antibody (TSAb), both of which are conventionally determined using porcine thyrocytes in Japan, is not always positive in patients with untreated Graves' disease. To elucidate whether immunoglobulin G (IgG) obtained from TBII/TSAb-positive (+) or negative (-) Graves' disease patients are responsible for hyperthyroidism, we investigated the thyroid hormone-releasing activity (THRA) of these IgGs in human thyroid follicles in suspension culture, in which bovine thyrotropin (bTSH) is detectable even at 0.1 microU/mL. Human thyroid follicles, obtained from Graves' disease patients by subtotal thyroidectomy, were cultured in serum-free F-12/RPMI-1640 medium supplemented with bTSH or purified Graves' IgGs. After preculturing for 3 days, 125I was added, and after an additional 3 days of culture, 1251 incorporated into the thyroid follicles and organic 125I released into the culture medium (mainly 1251 -T4 + 125I-T3) were counted. Seventy TBII(+)/TSAb( + )-, 3 TBII( + )/TSAb( - )-, and 3 TBII( - )/TSAb( + )- patients with untreated Graves' disease were all positive for THRA, which became undetectable in spontaneous remission obtained after several years of medical treatment. The THRA was equivalent to 0.8-230 microU/mL bTSH. Furthermore, 2 TBII(-)/TSAb(-) patients were significantly positive for THRA. This TBII(-)/TSAb(-)IgG stimulated human thyrocytes to produce cyclic adenosine monophosphate (cAMP), and this was partially inhibited by antihuman IgG antibody. The THRA induced by TBII(+)/TSAb(+) IgGs as well as TBII(-)/TSAb(-) IgG was inhibited by blocking-type TRAb obtained from TBII(+) patients with myxedema. There was a significant correlation between THRA and TSAb. These in vitro findings suggest that all IgGs obtained from untreated Graves' patients (n = 78) elicit potent THRA in human thyroid follicles in suspension culture. Because the TBII(-)/TSAb(-) IgGs can stimulate cAMP production in human but not in porcine thyrocytes, they probably recognize epitope(s) of TSH-binding sites specific to the human thyrotropin (hTSH) receptor. Furthermore, we have demonstrated that the thyroid gland of hyperthyroid Graves' patients is stimulated by IgG(s) equivalent to at least 0.8 microU/mL bTSH (about 5 microU/mL hTSH) in vitro.     

Appearance of anti TSH-receptor antibodies and clinical Graves' disease after radioiodine therapy for hyperfunctioning thyroid adenoma

Radioiodine treatment use is frequent in patients with benign hyperfunctioning thyroid diseases and the side-effects are rare. In this paper we described the appearance of TSH-receptor antibodies and the concomitant development of persistent hyperthyroidism in a patient with hyperfunctioning thyroid adenoma after 131I treatment. A 70-year-old man presented a hyperfunctioning thyroid adenoma with suppressed uptake in the adjacent normal gland. Antibodies against the thyroglobulin (TgAb), thyroid peroxidase (TPOAb) and TSH-receptor (TRAb) were absent. One year after remission by radioiodine therapy the patient developed severe and persistent hyperthyroidism associated with diffuse 131I uptake in the gland. TgAb and TPOAb remained absent, but TRAb were present. Although spontaneous development of Graves' disease cannot be excluded, the time sequence and the negative familial and personal history for autoimmune diseases suggest a possible connection between the two phenomena. The release of TSH-receptor antigen from follicular cells damaged by 131I may have triggered the autoimmune response turning a toxic nodular goiter patient into a Graves' disease patient.     

EVALUATION OF TSH RECEPTOR ANTIBODY BY ''NATURAL IN VIVO HUMAN ASSAY'' IN NEONATES BORN TO MOTHERS WITH GRAVES'' DISEASE

Neonatal thyrotoxicosis induced by transferred TSH receptor antibody (TRAb) is the ideal human in-vivo experimental system for the evaluation of TRAb. The clinical significance of circulating TRAb in Graves' disease was evaluated by this 'natural in-vivo human assay'. TRAb activity in vitro was measured by radioreceptor assay (thyrotrophin-binding inhibitor immunoglobulin, TBII) and sensitive cAMP accumulation assay using FRTL-5 cells (thyroid-stimulating antibody, TSAb). Further, the binding-stimulation index (B-S index) was newly introduced, which was the most useful indicator for prediction of neonatal thyrotoxicosis, calculated as the product of TBII and TSAb (Tamaki et al., 1988a). Maternal serum TRAb indices showed highly significant correlations with the serum free T4 index (FT4I) and free T3 index (FT3I) in neonates (5-10 days after birth) born to 20 mothers with Graves' disease who had positive TBII and/or TSAb (FT4I: r = 0.825 for TBII, r = 0.908 for TSAb, r = 0.944 for the B-S index, P less than 0.001; FT3I: r = 0.622 for TBII, P less than 0.01, r = 0.812 for TSAb, r = 0.791 for the B-S index, P less than 0.001; n = 20). In contrast, in 57 untreated adult patients with hyperthyroid Graves' disease, the FT4I and FT3I levels were not correlated with any of the TRAb indices. The linear regression relationship between the B-S index and FT4I found in neonates was applied to values in adult patients with Graves' disease, and the patients were divided into three groups on the basis of the 95% confidence limit: high, normal, and low responders of thyroid hormone (FT4I) secretion to the B-S index. FT4I and the ratio of FT4I to the B-S index were highest and the TRAb indices were lowest in the high responders, while FT4I and the FT4I/B-S index ratio were lowest and the TRAb indices were highest in the low responders. The FT4I/B-S index ratio was inversely correlated with the titres of antithyroid microsomal antibody in all the adult patients with untreated Graves' disease (r = -0.288, P less than 0.05). The results suggest that in-vitro assays using animal thyroid cells and cAMP as an index of response are suitable for detecting circulating thyroid stimulating activity in vivo. Secretion of thyroid hormones in Graves' disease may be regulated not only by circulating thyroid-stimulating antibodies but also by intrathyroidal stimulatory factors or by inhibitory or destructive factors.     

Goiter associated with acromegaly: sonographic and scintigraphic findings of the thyroid gland.

Elevation in serum human growth hormone (GH) level is known to be a factor that causes goiter development. The present study was designed to analyze sonographic and scintigraphic appearances of the thyroid in patients with acromegaly. The records of 48 consecutive patients with acromegaly were examined. Two patients had a history of operation for thyroid cancer. One had an atrophic thyroid gland after 131I treatment for Graves' disease. Goiter was palpable in 39 of the remaining 45 patients. Neither ultrasonography (US) nor scintigraphy was performed in 17 patients, including 6 with no palpable goiter and 11 with small diffuse goiter (group 1). Of the remaining 28 patients who underwent US, 14 had a moderately or markedly enlarged diffuse goiter (group 2), 13 were diagnosed as having adenomatous goiter (group 3), and 1 had a solitary cystic nodule. Among 11 patients in group 3 who underwent 123I or 99mTc thyroid scintigraphy, 6 showed uneven uptake, and 2 with undetectably reduced levels of thyrotropin (TSH) showed localized functioning areas. The mean serum TSH concentration in group 3 was significantly lower than that in group 1 or 2 (p<0.01). The duration of illness as acromegaly was significantly longer in group 2 and 3 as compared with group 1 (p<0.05). These results suggest that long-term stimulation by GH and insulin-like growth factor-I of thyroid follicular cells might be responsible for thyroid enlargement, presence of functioning lesions, slight overactivity of the thyroid, and the subsequent formation of multiple nodules in acromegalic patients. In conclusion, excluding two patients with thyroid cancer and one with Graves' disease, goiter was palpable in 39 of the 45 patients with acromegaly, among whom 14 (13 adenomatous goiters and 1 solitary cystic nodule) showed nodular enlargement.     

Fetal and neonatal hyperthyroidism and hypothyroidism due to maternal TSH receptor antibodies.

Autoimmune thyroid disease is a generic term that includes Graves' disease and Hashimoto's thyroiditis. In the former, there is overactivity of the thyroid due to the action of a thyroid-stimulating antibody (TSAb). Pathogenesis of Hashimoto's thyroiditis is largely cell-mediated immune destruction of the thyroid. Nonetheless, there may be either a goiter or an atrophic gland. There is evidence that in some patients the lack of goiter is associated with the presence in the blood of an antibody that inhibits the binding of TSH to its receptor. This TSH-binding inhibiting antibody (TBIAb), therefore, prevents TSH from stimulating the thyroid and constitutes an acceptable explanation for an agoitrous state. Collectively, TSAb and TBIAb, both of which are IgG, are known as TSH receptor antibodies (TRAb).     

Sensitive thyrotropin and thyrotropin-receptor antibody determinations one month after discontinuation of antithyroid drug treatment as predictors of relapse in Graves' disease.

OBJECTIVE: After primary successful antithyroid drug treatment (ATDT), Graves' disease has a relapse rate of 30% to 50%. Previous studies have evaluated age, gender, goiter volume, smoking habits, and the presence of thyrotropin-receptor antibodies (TRAb) as predictive markers to facilitate an individualized patient management. Despite higher sensitivity and specificity of the new second generation human TSH-receptor assay, the predictive value of TRAb for relapse of hyperthyroidism is still controversial. In a recent prospective multicenter study we have previously shown that suppressed or low TSH values predict both early (persistence) and late relapse of Graves' disease. We now present a more detailed analysis of the predictive value of TSH and TRAb for recurrent hyperthyroidism. METHODS: Four weeks after withdrawal of ATDT, 96 patients were available for thyroid function tests, including a sensitive third-generation TSH assay and a second-generation recombinant TSH receptor assay. Relapse of Graves' disease was evaluated for a total follow-up of 2 years. RESULTS: Within 2 years, 47 of 96 patients (49%) developed relapse of hyperthyroidism. Nine patients relapsed within the first 4 weeks after withdrawal of ATDT and were thus considered to have persistent Graves' disease. Ten of 15 other patients with TSH levels below 0.3 mU/L without overt hyperthyroidism relapsed within 2 years. Twenty-five of 65 patients with normal TSH (0.3-3.0 mU/L) and 3 of 4 patients with TSH values above 3 mU/L also had recurrent hyperthyroidism. After ATDT cessation, TSH had a positive predictive value of 70% and a negative predictive value of 62% (specificity 85%) for relapse of Graves 'disease. Mean TRAb levels in the group of patients with relapse were significantly higher (11.1 IU/L +/- 0.17) than TRAb values in the remission group (4.5 IU/L +/- 0.6), p < 0.001. Using a cutoff value of 1.5 IU/L, TRAb had low positive and negative predictive values of 49% and 54%, respectively (specificity, 14%), but with a cutoff level of 10 IU/L, predictive values improved to 83% and 62%, respectively (specificity, 92%). Combination of TSH and TRAb determinations did not further improve prediction of relapse. Other factors such as gender, age, goiter volume, smoking habits, presence of thyroid-associated ophthalmopathy, and urinary iodine excretion did not show a significant influence on relapse rate. CONCLUSION: Low TSH values 4 weeks after ATDT withdrawal predict relapse of Graves' disease, both early (persistence) and, to a lesser extend, within 2 years of follow-up. Also, TRAb above 10 IU/L found in a small subset of patients, correlated with a higher relapse rate.     

Toxic multinodular goiter: a variant of autoimmune hyperthyroidism

The aim of this study was to examine whether at least a subgroup of patients with toxic multinodular goiter may have autoimmune thyroid disease. Thyroid-stimulating immunoglobulin (TSI) activity, measured by a sensitive bioassay employing cultured human thyroid cells, was determined in patients with toxic multinodular goiter and other thyroid disorders. All patients with active Graves' disease (n = 47) had detectable serum TSI activity, whereas TSI was undetectable in patients with thyroid disease not believed to be of autoimmune origin: toxic adenoma (n = 13), cold nodule (n = 5), and nontoxic goiter (n = 19), with a single exception in the latter group. Toxic multinodular goiter (n = 26) was diagnosed based on clinical and laboratory evidence of hyperthyroidism associated with a multinodular goiter on palpation and scintiscan. The toxic multinodular goiter group was then subclassified according to scintiscan pattern (type A, diffuse but uneven distribution of technetium uptake; type B, multiple discrete nodules of varying size and function). All but 1 of the 11 TSI-positive toxic multinodular goiter patients had a type A scintiscan pattern. The patients with the type A scintiscan pattern were younger and more often had elevated antithyroid antibody titers, ophthalmopathy, and concurrent development of goiter and hyperthyroidism (rather than long-standing goiter preceding hyperthyroidism) compared to the type B patients. Thus, a subgroup of patients with clinically defined toxic multinodular goiter (type A) probably have autoimmune hyperthyroidism (a variant of Graves' disease), while in another subgroup (type B) hyperthyroidism is not related to an autoimmune etiology (a variant of toxic adenoma).     

The study of direct effect of methimazole on thymidine incorporation in FRTL-5 cells

During the course of treatment of Graves' disease with the anti-thyroid drug, methimazole (MMI), a decrease in a patient's goiter size is sometimes observed. Using rat thyroid cell strain, FRTL-5, the direct effect of MMI on thyroid cell growth was investigated. FRTL-5 cells (2 X 10(5)) were cultured for 48 hours with TSH, (Bu)2 cAMP or forskolin in the presence of [3H]-thymidine. All three stimulators increased cell growth, expressed as [3H]-thymidine incorporation into DNA in a dose-dependent fashion. When FRTL-5 cells were cultured for 48 hours in the presence of MMI at 10(-6)-10(-3) M with these stimulators (TSH 250 microU/ml, (Bu)2 cAMP 10(-3) M, forskolin 10(-5) M), [3H]-thymidine incorporation was suppressed in dose-dependent fashions (MMI 10(-5) M-10(-3) M). From the present study, it is suggested that methimazole directly modulates thyroid cell growth induced by thyroid growth stimulators which are involved in adenylate cyclase-cyclic AMP system and that the site of its action exists beyond cAMP production.     

Transition of nodular toxic goiter to autoimmune hyperthyroidism triggered by 131I therapy.

The use of 131I treatment in nodular toxic goiter is widely accepted. In this article, we describe transition of nodular toxic goiter into an autoimmune toxic goiter with development of thyrotropin receptor antibodies (TRAb) as a side effect of 131I treatment. In this retrospective study, 149 patients with nodular toxic goiter (100 with multinodular goiter, 49 with a solitary autonomously functioning toxic nodule) were studied. Of these 149 patients 100 became permanently euthryoid after 1 dose of 131I, and due to persistent hyperthyroidism, 32 patients needed 2-5 doses to became euthyroid. After becoming euthyroid, none of these 132 patients had relapse of hyperthyroidism in the follow-up period. Based on evaluation of the thyroid hormone variables, 17 of 149 patients had a distinctly different pattern in the changes in thyroid hormones. They developed an increase in FT4I 3-6 months posttreatment after an initial fall in FT4I. Twelve of these 17 patients were treated with antithyroid drugs before the initial 131I dose. On samples of frozen sera (-20 degrees C) anti-thyroid peroxidase (TPO) and TRAb were followed for 6 months after 131I treatment in these 17 patients. A similar follow-up was done in 20 patients (10 with and 10 without antithyroid drug pretreatment), randomly selected from the patients who did not relapse. In the remaining 112 patients, anti-TPO and TRAb levels were measured only before the 131I treatment. Of the 17 patients with relapse, 6 developed TRAb concomitant with recurrence of hyperthyroidism (4% of the study group). In 5 of the 17 patients TRAb values remained absent throughout the follow-up period. The remaining 6 patients had elevated TRAb values before 131I treatment. Among the 132 patients who did not relapse, an additional 7 cases with presence of TRAb were found. A total of 9% of the study group was found to have TRAb before 131I pretreatment. Anti-TPO was found in 20 of 149 patients (13%) before 131I treatment. Complications, either hypothyroidism or TRAb-associated hyperthyroidism, were seen in 8 of 20 patients (40%) with anti-TPO before 131I treatment, compared to 9 of 129 (7%) without (p<0.005). In conclusion, TRAb and a Graves' like hyperthyroidism can be triggered by 131I treatment in patients with nodular toxic goiter. The presence of anti-TPO seem to be a marker of an increased risk of development of TRAb-associated hyperthyroidism as well as hypothyroidism, but both side effects can be seen despite the absence of anti-TPO autoantibodies.     

Further studies on thyroid growth-stimulating immunoglobulins in euthyroid nonendemic goiter

Sixty-two consecutive patients with sporadic euthyroid goiter (57 women and 5 men) from noniodine-deficient areas, including 15 patients with diffuse goiter, 39 patients with multinodular goiter, and 8 patients with a single nodule, were studied for the presence of serum thyroid growth-stimulating immunoglobulins (TGI) by the ultrasensitive cytochemical bioassay based on DNA cytophotometry (Feulgen-cytochemical bioassay). Using strictly specified conditions, 43 patients (67%) were positive. Values tended to be high in diffuse goiter, nodular goiters reccuring after partial thyroidectomy, and those with recent growth. Thirty-seven individual immunoglobulin (Ig)-rich fractions obtained by ammonium-sulfate precipitation from 20 normal subjects, 13 atrophic thyroiditis patients, and 4 dyshormonogenetic goiter patients were tested similarly, and only 3 gave positive growth assays. These results lend further support to our concept that a majority of patients with sporadic nontoxic simple goiters have a variant of thyroid autoimmune diseases separate from lymphocytic thyroiditis. With regard to assays thought to reflect activities of TSH receptor antibodies, none of 20 tested Ig preparations stimulated thyroid cAMP production. The TSH binding inhibition assay gave weak positive activity, but failed to correlate with either TGI or TSH unresponsiveness to TRH. These findings suggest that sporadic goiter TGI is not directed to the TSH-binding site. Dose-response studies performed with Igs of patients with nontoxic goiters and with human TSH standard and goitrous hyperthyroid Graves Igs as controls all revealed bell-shaped responses. Similar maximal values were reached regardless of the growth stimulus applied. However, approximately 10 times more Ig was needed to reach maximal responsiveness in sporadic goiter than in goitrous Graves' disease (i.e. 125-500 micrograms vs. 15-125 micrograms Ig/ml culture fluid). The optimal dose of human TSH ranged from 0.01-1.0 microU/ml. The assays in the present series of the 62 consecutive patients with nontoxic diffuse or nodular goiter were all carried out with a fixed amount of 125 micrograms Ig/ml and considering a value above 5% of cells in the S-phase as a positive assay. Some Ig preparations negative for TGI at this concentration may contain TGI when tested using other doses, and these are a prerequisite to assess the potency of growth antibodies in individual patients.     

CONSISTENCY AND VARIABILITY IN THE CHARACTER OF THYROTROPHIN RECEPTOR ANTIBODIES IN GRAVEs'' DISEASE

At diagnosis there was no correlation between the uptake of pertechnetate by the thyroid and thyrotrophin receptor antibodies (TRAb) measured as TSH binding inhibitory immunoglobulins in a series of 27 patients with Graves' disease. TRAb were detectable initially in 19 patients, in 11 of these there was a significant positive correlation (P less than 0.05) between serial measurements of pertechnetate uptake and TRAb made during 2 years following diagnosis. In five patients pertechnetate uptake fell with time whilst TRAb levels were maintained or fluctuated. In the remaining three of the 19 patients both measurements were low and did not change during treatment. We conclude that TRAb in any individual patient are a mixture of immunoglobulins of variable effectiveness as thyroid stimulators. In a majority of patients the composition of this mixture remains constant during the course of the illness and the clinical state reflects the levels of TRAb in the blood. In a minority, however, the character of these antibodies may alter with time or there is a change in the responsiveness of the thyroid gland. The general lack of correlation between measurements of thyroid stimulating activity and TSH binding inhibitory immunoglobulins in groups of patients is due to differences between patients in the composition of TRAb.     

Affinity purification and diagnostic use of TSH receptor autoantibodies from human serum

Purification of TSH receptor autoantibodies (TRAb) from the serum of patients with Graves' disease (GD) might help to elucidate the nature of these disease causing autoantibodies. We describe here for the first time the successful affinity purification of human TRAb.Affinity purification was performed in a four step procedure with human recombinant TSH receptor (TSH-R) expressed in K562 cells. Purification from six different serum pools from patients with GD and two individual sera (one with only thyroid stimulating antibodies (TSAb) one with only thyroid blocking antibodies (TBAb)) resulted in a purity of 39.2+/-3.8 IU/mg TRAb or 25.7+/-2.1 microg IgG/IU (about 3.5-13.7 microg TRAb/ml serum). The average enrichment based on the respective original serum was 3420-fold (range 1200-10,000). The kDa of the purified TRAb were in the range of 0.7-2.6 x 10(-10)M. All purified TRAb (except from the TBAb serum which showed blocking activity) showed a more than 1000-fold stronger stimulation in the TSAb bioassay based on the IgG content than the original serum, and similar stimulation based on international units (IU/l) TRAb. When labelled purified TRAb were used in a competitive assay as tracer instead of bovine TSH, their binding to the human recombinant TSH-R on tubes was displaced by 99 of 100 GD sera (selected for TBII activity). Correlation to the standard TSH tracer was r=0.92. Interestingly, the use of TRAb tracer derived from a patient with TSAb and a patient with TBAb gave virtually identical results (r=0.93) with these patients, suggesting similar if not identical binding sites for both TRAb subtypes.In conclusion, this is the first report on the purification of human TRAb from the serum of patients with GD. The purified TRAb are of low concentration with high affinity, strong TBII and TSAb activity. Further characterisation may allow new insights in TRAb epitope localisation, the pathology of GD and the differences between TSAb and TBAb. Also, their use as tracer in a competitive assay is the first report on a completely homogenous assay with high sensitivity for TSH-R autoantibodies.     

Characterization of the optimal stimulatory effects of graves' monoclonal and serum immunoglobulin G on adenosine 3',5'-monophosphate production in fRTL-5 thyroid cells: a potential clinical assay

Immunoglobulin G (IgG) preparations derived from the sera of patients with hyperthyroidism due to Graves' disease (TSAb) as well as a monoclonal IgG derived from heterohybridoma fusions of Graves' lymphocytes augmented cAMP levels in a continuous strain of functioning rat thyroid cells (clone FRTL-5) in culture. Optimal stimulation was the same for both types of IgG preparations when measured after 2 h of incubation with 5 X 10(4) cells/well and using cells maintained in a nongrowth, TSH-deficient medium for 7 days. At low IgG concentrations, the stimulatory activities of both preparations exhibited a linear dependence on concentration and similar Ka values (approximately 4 X 10(-8) M) despite the fact that 65% of the Graves' serum IgG preparations had a significantly better ability to inhibit TSH binding to membrane preparations. The Ka value for TSH in the same assay was about 5 X 10(-12) M. Using this cell assay, 90% of a series of hyperthyroid Graves' IgG preparations exhibited stimulating activity, a value comparable to the frequency of positive results found by ourselves and others using human thyroid cell and slice systems. In contrast, only 10% of patients who were euthyroid 1 yr after antithyroid drug withdrawal (n = 21) exhibited stimulating activity, and no stimulating activity was detected in patients with nontoxic nodular goiter (n = 11), toxic adenoma (n = 5), or thyroid carcinoma (n = 6). The studies suggest that an optimized rat FRTL-5 thyroid cell system is a clinically useful and convenient alternative to human thyroid cell and slice systems for detecting TSAbs.     

Graves' ophthalmopathy after total thyroidectomy for papillary carcinoma

We report the case of a 53-year-old woman who underwent two-phase total thyroidectomy (June and December 2001) for a multinodular goiter with incidental discovery at the first procedure of a multicentric papillary carcinoma of the right thyroid lobe. Thyroidectomy was followed by an ablative dose of 131-radioiodine because of the presence of residual tissue in the neck. The various elements of the follow-up are reassuring: no residual tissue was detected at the ultrasonography of the neck and thyroglobulin was undetectable in the absence of antithyroglobulin autoantibodies. In April 2006, the patient developed unilateral Graves’ ophthalmopathy with the appearance of antithyrotropin receptor autoantibodies (TRAb). Ophthalmopathy progressively improved, in parallel to the decrease of TRAb. The parallel trend of TRAb and the ophthalmopathy supports the major role of TRAb in the pathogenesis of thyroid-associated ophthalmopathy. This observation also shows the possibility of developing autoantibodies in the absence of detectable thyroid tissue.     

SHORT- AND LONG-TERM EVALUATION OF NORMAL AND ABNORMAL HUMAN THYROID CELLS IN MONOLAYER CULTURE

We have investigated the TSH responsiveness of normal and abnormal human thyroid cells cultured in the short term with high serum concentrations and for up to 6 months in a low serum, chemically-defined, medium. Cells from normal human thyroid tissue (n = 9), multinodular goitre (n = 6), benign follicular adenomata (n = 6), and differentiated thyroid carcinoma (n = 3) formed confluent monolayers which were sensitive to bovine TSH (bTSH) in concentrations greater than 25 microU/ml when assessed by the intracellular response of cyclic AMP at 7 d of culture. Such sensitivity was less than that observed with a continuously proliferating thyroid cell line (FRTL-5) derived from Fisher rat thyroid and which responded to concentrations of bTSH as low as 5-10 microU/ml. Human cells derived from iodine/antithyroid drug treated Graves' thyroid tissue (n = 6) were less sensitive than normal cells requiring up to 500 microU/ml bTSH to increase intracellular cyclic AMP and poorly differentiated thyroid cancer cells (n = 3) failed to respond to bTSH. Long-term human thyroid cultures of normal and follicular adenoma cells in the chemically-defined medium used for the FRTL-5 cells had absent fibroblast growth and continued in monolayer form without significant follicle formation. These cells remained highly sensitive to bTSH stimulation when tested after 4, 13, and 26 weeks of continuous culture. All such cell preparations failed to proliferate under conditions which favoured the rapid growth of the rat thyroid cells. These data demonstrated that while thyroid cell culture conditions described in the literature do not permit proliferation of human thyroid cells, they do allow an assessment of their functional state in vitro which may lead to a further understanding of thyroid cell pathophysiology.     

Endothelin-1 levels in patients with disorders of the thyroid gland.

The endothelium derived peptide endothelin-1 (ET-1) is the major isoform of the endothelin peptide family, which is produced and secreted in the endothelial cell system. We measured plasma levels in patients with thyroid diseases and investigated associations between laboratory and clinical markers of thyroid metabolism and ET-1 plasma levels. ET-1 plasma levels were determined in patients with Graves' disease (n = 54), endemic goiter (n = 26), patients with Hashimoto's thyroiditis (n = 21) and compared to healthy controls (n = 60). ET-1 plasma levels were significantly elevated in patients with Hashimoto's thyroiditis (p < 0.0001) and in patients with Graves' disease (p = 0.003), when compared to healthy controls. In patients with endemic goiter, no significant differences were found compared to healthy controls (p = 0.298) and when compared to patients with Graves' disease (p = 0.16). We did not observe an association between ET-1 plasma levels and parameters of thyroid disease (e.g. thyroidea-stimulating hormone, thyroxine, volume of the thyroid). Furthermore, patients with and without endocrine thyroid disease showed no significantly different ET-1 plasma levels (p = 0.78). These data suggest that the autoimmunologically induced inflammatory response of the thyroid gland in Hashimoto's thyroiditis and Graves' disease is responsible for increased ET-1 plasma levels. Furthermore, our data do not support a role for ET-1 as a valid quantitative indicator for stage or progression in endemic goiter, Graves' disease or Hashimoto's thyroiditis.     

TSH-receptor autoantibodies - differentiation of hyperthyroidism between Graves' disease and toxic multinodular goitre.

Previous studies indicate pre-existing subclinical Graves' disease in many patients with the scintigraphic diagnosis of toxic multinodular goitre type A, equivalent to the in Germany so-called disseminated thyroid autonomy. Furthermore, after radioiodine treatment an increase or the induction of TSH-receptor antibodies (TRAb) in patients with Graves' disease or toxic multinodular goitre has been repeatedly reported. The distinction between both hyperthyroid conditions, Graves' disease and toxic multinodular goitre type A, depends on the diagnostic power of the TSH-receptor antibody determination. Bioassays using CHO cell lines expressing the hTSH-receptor or a new TBII assay based on competitive binding to recombinant human TSH-receptor showed a higher sensitivity for the detection of TSH-receptor antibodies in patients with Graves' disease than previous assays using solubilized porcine epithelial cell membranes. In up to 50 % of patients with toxic multinodular goitre A without antithyroid drug pretreatment TSH-receptor antibodies were detectable with a high correlation between thyroid-stimulating antibodies in the bioassay and the h-TBII assay. Moreover, in a recent study the development of TSH-receptor antibodies after radioiodine treatment was detectable in 36 % of patients with toxic multinodular goitre type A, whereas TSH-receptor antibodies were not detectable in patients with toxic multinodular goitre type B or in patients with toxic adenoma. In conclusion, thyroid-stimulating antibodies in a bioassay or TSH-receptor antibodies detected with the h-TBII assay have the highest diagnostic power to differentiate Graves' disease from toxic multinodular goitre. Because of its less cumbersome assay technique the h-TBII should be performed in all patients with hyperthyroidism to differentiate Graves' disease from non-autoimmune hyperthyroidism such as toxic multinodular goitre to select the appropriate therapy for these patients.     

Growth Inhibition of Human Thyroid Carcinoma and Goiter Cells In Vitro by the Isoflavone Derivative 7-(O)-Carboxymethyl Daidzein Conjugated to N-t-Boc-Hexylenediamine

Background: Estrogens may enhance thyroid cancer cell growth. We have recently reported that a novel isoflavone-derived anti-estrogenic compound developed in our laboratory, the N-t-boc-hexylenediamine derivative of 7-(O)-carboxymethyl daidzein (cD-tboc), can induce apoptosis and retard growth in human thyroid carcinoma cell lines through inhibitory interaction on estrogen receptor β. Here we tested the hypothesis that cD-tboc can likewise retard cell growth in cultured human thyroid papillary carcinoma cells, normal thyroid cells, and goiter cells removed during thyroidectomy. Methods: In vitro experiments in cultured human thyroid normal, goiter, and papillary thyroid carcinoma (PTC) cells were performed. Estrogen receptors α and β (ERα and ERβ), DNA synthesis and creatine kinase (a marker of estrogenic genomic response), and the effects of cD-tboc on DNA synthesis in cultured human PTC cells were assessed. Results: First, all cell types thus harvested and grown in culture expressed both ERα and ERβ, with a variably higher abundance of ERβ over ERα seen in the goiter and PTC cells, but not in the normal thyroid cells. Second, DNA synthesis and creatine kinase were increased in response to estradiol-17β (E2), the ERα agonist propyl-pyrazole-trisphenol as well as the ERβ agonist diarylpropionitrile. Third, cD-tboc dose-dependently inhibited DNA synthesis in cultured human PTC cells (-65%) and to a lesser extent in goiter cells (～-30%). Conclusion: This study provides the first evidence that cD-tboc can act to inhibit growth in primary cultures of human PTC cells and goiter cells removed during thyroidectomy. Whether this can be utilized for the treatment of human thyroid cancer and/or goiter remains to be explored.     

A sensitive and practical assay for thyroid-stimulating antibodies using crude immunoglobulin fractions precipitated with polyethylene glycol

A simple, sensitive, and practical assay for thyroid-stimulating autoantibodies (TSAb) was developed in which cryopreserved porcine thyroid cells were incubated with crude immunoglobulin fractions sedimented from serum with polyethylene glycol. In the assay, 1.4- to 2.0-fold and 6- to 12-fold increases in cAMP released into Hank's medium without NaCl were found at 1 and 10 microU/ml bovine TSH, respectively. TSAb were detected in 41 (97.6%) of 42 patients with untreated hyperthyroid Graves' disease, 29 (55.8%) of 52 patients with hyperthyroid Graves' disease who were euthyroid while taking antithyroid drugs, 22 (78.6%) of 28 patients with euthyroid Graves' disease, and none of the patients with simple goiter, adenomatous goiter, thyroid adenoma, or thyroid cancer tested. TSAb activities measured using porcine thyroid cells significantly correlated with those measured using human thyroid adenoma cells (r = 0.908; n = 46; P less than 0.001). Thyroid-stimulating activity was also detected in 11 (28.9%) of 38 patients with Hashimoto's thyroiditis. However, the activity was considered to be due to TSH in the patients' sera, because it was completely abolished by pretreatment with anti-TSH antibodies. Serum TSH concentrations lower than 50 microU/ml did not affect the assay result. In Graves' disease after cessation of antithyroid drugs, 85.7% (12 of 14) of TSAb-positive patients relapsed, while 77.8% (14 of 18) of TSAb-negative patients remained in remission. Thus, the assessment of TSAb was useful as an index to predict prognosis.