Thymic hyperplasia in patients with Graves' disease. Identification of thyrotropin receptors in human thymus.

Thymic size and density were studied in 23 untreated patients with Graves' disease and 38 control subjects using computed tomography. Both thymic size and density were higher in untreated patients with Graves' disease than in control subjects in the age-matched group. After treatment with antithyroid drugs, both thymic size and density were significantly reduced, with a concomitant decrease in thyrotropin receptor antibodies. PCR of human thymic cDNA using primers for human thyrotropin receptor amplified a fragment in a size expected for the receptor, and its nucleotide sequence was identical to human thyrotropin receptor cDNA in the thyroid. Northern blot analysis of human thymic poly(A)+ RNA demonstrated the presence of the full length form of thyrotropin receptor mRNA. Western blot analysis of human thymic membrane using anti-thyrotropin receptor peptide antibodies demonstrated a band of 100 kD that was also observed in the thyroid membrane. Immunohistochemistry of thymic tissue using mouse antihuman thyrotropin receptor monoclonal antibodies demonstrated the immunostaining of epithelial cells. These results indicate that thymic hyperplasia is apparently associated with Graves' disease and suggest that thymic thyrotropin receptor may act as an autoantigen that may be involved in the pathophysiology of development of Graves' disease.

Cyclo(His-Pro) concentration. Changes in brain striatum of hyperglycemic rat.

We scrutinized whether the hyperglycemic status changed the concentration of prototype neuropeptides cyclo(His-Pro) and thyrotropin-releasing hormone (TRH) in the rat brain. Streptozocin-induced hyperglycemia caused a significant increase in cyclo(His-Pro) concentration in the striatum but not in the other brain regions, whereas TRH concentration in any brain region did not differ between control and hyperglycemic groups. Insulin injection normalized blood glucose level and prevented an increase in cyclo(His-Pro) concentration after hyperglycemia. These data indicate that hyperglycemia causes a profound alteration in cyclo(His-Pro) concentration in the rat brain striatum.

Thyrotropin-releasing hormone and histidyl-proline diketopiperazine: stimulation of secretion from hypothalamic fragments in vitro by depolarizing agents.

The influence of depolarizing agents on the release of TRH and histidyl-proline diketopiperazine [C(HP)] from rat hypothalami was examined in vitro. Thin hypothalamic fragments from two separate animals were incubated in Krebs-Ringer bicarbonate media. Immunoreactive TRH and C(HP) released into medium were determined by specific RIAs. Potassium and ouabain, a Na+/K+-ATPase inhibitor, stimulated TRH and C(HP) secretion in a graded fashion, but the magnitudes of C(HP) secretory responses were less than those of TRH. The stimulation by KCl and ouabain was inhibited by the addition of verapamil, a Ca2+ channel blocker, or omission of Ca2+ from medium in the presence of EGTA. Veratridine, a Na+ channel activator, also stimulated TRH and C(HP) release from rat hypothalami, and this stimulation was completely blocked by tetrodotoxin, a Na+ channel blocker. The results of this study indicate that TRH and C(HP) release from rat hypothalami are stimulated by membrane depolarization in vitro and depend on Na+ and Ca2+ influx.

Discrete characteristics of antibodies raised against thyrotropin receptor-related peptides whose sequences are not conserved in the luteinizing hormone/chorionic gonadotropin receptor.

In order to identify the specific regions in the human TSH receptor for TSAb and thyroid stimulation-blocking antibody (TSBAb), we produced rabbit antibodies raised against several peptides of the extracellular domain of the human TSH receptor, where sequences are not conserved in the LH/CG receptor, and measured the TSAb activity and TSBAb activity of those antibodies using Chinese hamster ovary cells expressing human TSH receptors. Only antisera from rabbits that were immunized with a peptide of amino acid 32-56, including the small insertion near the N-terminal end of the extracellular domain, showed apparent TSAb activities and have been shown to be significantly precipitated by IgG of patients with Graves' disease. TSAb activity positively correlated with the antibody titers against the peptide in those rabbits. In contrast, antisera from rabbits immunized with a peptide of amino acid 352-378, including a part of the large insertion near the C-terminal end of the extracellular domain, showed the obvious TSBAb activities. TSBAb activity also positively correlated with the degree of antibody titers against the peptide in those rabbits. Moreover, this peptide was significantly immunoprecipitated by the IgG from hypothyroid patients who had TSBAb, and the immunoprecipitation of this peptide positively correlated with TSBAb activities. These results suggest that the epitope responsible for TSAb is quite different from that for TSBAb in the extracellular domain of the human TSH receptor.

A possible direct precursor of thyrotropin-releasing hormone, pGlu-His-Pro-Gly, stimulates prolactin secretion in anorexia nervosa.

TRH is produced from its possible direct precursor, pGlu-His-Pro-Gly (TRH-Gly), by alpha-amidating enzyme. The quantitative response of TRH-Gly-stimulated PRL, TSH, and GH was evaluated in nine patients with anorexia nervosa, six age-matched normal women, eight patients with uremia, five patients with acromegaly, and two patients with prolactinoma. Intravenous injection (500 micrograms) of TRH-Gly caused a 2.6-fold increase in PRL secretion in patients with anorexia nervosa (basal level, 10.0 +/- 1.4 vs. 25.9 +/- 2.5 micrograms/L 15 min after injection; P less than 0.01). In contrast, no significant change was observed in TRH-Gly-stimulated PRL secretion in normal women (basal level, 13.5 +/- 2.3 vs. 15.3 +/- 2.5 micrograms/L 15 min after injection; P greater than 0.05). TRH-Gly did not alter PRL levels in patients with uremia, acromegaly, or prolactinoma. Secretion of TSH, but not GH, was slightly increased by TRH-Gly injection in patients with anorexia nervosa (basal level, 1.41 +/- 0.13 vs. 2.86 +/- 0.22 min/L 30 min after injection; P less than 0.01), whereas no significant secretory response was observed in normal women. These data provide evidence that PRL secretion in anorectic patients is quantitatively different from that in normal persons.

Different posttranslational processing of human preprothyrotropin-releasing hormone in the human placenta and hypothalamus.

We scrutinized the possible existence of human prepro-THR messenger RNA (mRNA) and of its posttranslational processing products in the human placenta. Human placental mRNA of preproTRH was found to have a single species identical to that predicted from the hypothalamic mRNA, and could be reverse transcribed to complementary DNA (cDNA) encoding preproTRH in a size similar to the hypothalamic counterpart by means of reverse-transcriptase-polymerase chain reaction. Five different intervening peptides, designated human TRH-associated peptide (hTAP) [hTAP-1, preproTRH(90-111); hTAP-2, preproTRH(120-132); hTAP-3, preproTRH(141-149); hTAP-4, preproTRH(158-183); hTAP-5, preproTRH(192-224)], and a TRH precursor comprising the TRH progenitor sequence (octa-TRH) were synthesized, and six different antisera raised against individual peptides were used to develop specific RIA systems. Significant concentrations of hTAP-5 and octa-TRH-like immunoreactivities were quantitated in acid extracts of human placentae. In human hypothalamic extracts, immunoreactivities of hTAP-3, hTAP-4, hTAP-5, and octa-TRH, were apparently detected. Chromotographic analysis showed a single peak corresponding to each authentic peptide in RIA systems of hTAPs detected. In placentae, a single peak of octa-TRH-like substance was observed, and two octa-TRH-like substances with different molecular weights detected in hypothalami. The present data indicate that unique posttranslational processing steps of human preproTRH differ in human placentae and hypothalami, and that the human tissues involve profound amounts of several preproTRH-related peptides which do not comprise the TRH progenitor sequence.

Inhibition by staurosporine of TRH-induced refractoriness of inositol phospholipid hydrolysis in rat anterior pituitaries.

To clarify the mechanism(s) underlying the TRH-induced refractory state of the anterior pituitary, we evaluated rat pituitary inositol phospholipid hydrolysis in the presence of staurosporine. TRH caused a time- and dose-dependent accumulation of inositol phosphates in rat anterior pituitary slices. Pretreatment with 550 nmol TRH/l completely abolished the subsequent accumulation of inositol phosphates in response to 140 nmol TRH/l. TRH-stimulated accumulation of inositol phosphates did not occur after pretreatment with 0.2 mumol phorbol ester/l. Refractoriness of inositol phospholipid hydrolysis which was produced by pretreatment with TRH and phorbol ester was inhibited by staurosporine. The present data support the hypothesis that protein kinase C plays a profound role in TRH induction of the refractory state of inositol phospholipid hydrolysis in the anterior pituitary.

Alteration by thyrotrophin-releasing hormone of heterogeneous components associated with thyrotrophin biosynthesis in the rat anterior pituitary gland.

An influence of thyrotrophin-releasing hormone (TRH) on TSH heterogeneity in close association with de-novo biosynthesis was studied in rat anterior pituitary glands. Hemipituitary glands from adult male rats were incubated in Krebs-Henseleit-glucose media containing [3H]glucosamine and [14C]alanine for 3 and 6 h in the presence or absence of 10 ng TRH per ml. Fractions of TSH in the pituitary extracts were obtained using affinity chromatography coupled with an anti-rat TSH globulin. These TSH fractions were analysed by isoelectric focusing. The control pituitary glands were composed of four component peaks (isoelectric point (pI) 8.7, 7.8, 5.3 and 2.5) of [3H]glucosamine and [14C]alanine incorporated into TSH, and the amounts of radioactivity of these components were increased with the incubation time. Of these peaks, radioactive components of pI 8.7 coincided with the non-radioactive TSH components measured by radioimmunoassay. Addition of TRH increased incorporation of [14C]alanine into TSH in each of the components to a greater extent than that of [3H]glucosamine. In addition, new components with pI 7.2, 6.5 and 6.2, each component corresponding to each unlabelled TSH component, were demonstrated in the presence of TRH. Because addition of TRH did not change the amounts of [14C]alanine-labelled TSH in the media, the newly formed components were assumed to be connected with protein synthesis occurring in the anterior pituitary gland, which may be specific substances in response to TRH administration. These results indicate that TRH principally elicits an increase in protein synthesis in TSH at the anterior pituitary level, resulting in an alteration of TSH heterogeneity.

Regulation of rat liver type 1 iodothyronine deiodinase mRNA levels by testosterone.

To investigate the underlying mechanisms of sex-related differences in liver type 1 iodothyronine deiodinase (ID1), we studied the sex-related differences and roles of sex steroids in liver ID1 mRNA levels in the rat. In both euthyroid and thyroidectomized rats, liver ID1 activity and ID1 mRNA levels in female rats were less than those in male rats. A positive correlation was observed between liver ID1 activity and ID1 mRNA levels. Liver ID1 activity and ID1 mRNA levels in male rats decreased after orchiectomy, and were increased to control levels by testosterone administration. Ovariectomy of beta-estradiol administration did not alter liver ID1 activity or ID1 mRNA levels in female rats. ID1 mRNA levels in cultured rat hepatocytes were significantly increased by testosterone, but not by beta-estradiol. These results suggest that the sex-related differences in liver ID1 activity are attributable to differences in ID1 mRNA levels, and that testosterone plays an important role in the sex-related differences in liver ID1 mRNA levels.

Primary culture of cells from hyperfunctioning thyroid adenoma with an activating mutation of G alphas.

We analyzed cultured cells from hyperfunctioning thyroid adenoma and its surrounding thyroid tissue from a Japanese woman and determined the nucleotide sequences of genes encoding the alpha subunit of the stimulatory G-protein 1 (G alphas) and thyrotropin (TSH) receptor in its tumor tissue. Primary culture of cells from hyperfunctioning thyroid adenoma and its surrounding thyroid tissue revealed that cAMP production was constitutively activated while intracellular Ca2+ concentration was suppressed both at the basal level and in the response to TSH stimulation in the cells from tumor tissue compared with those from non-tumor tissue. Nucleotide sequence analysis demonstrated the somatic missense mutation at codon 201 (CGT(Arg)-CAT(His)) of G alphas gene in tumor tissue but not in its surrounding tissue. No mutation was observed in the transmembrane region of TSH receptor. These results suggest that cAMP regulatory cascade is constitutively activated while phospholipase C-Ca2+ signaling cascade is suppressed in hyperfunctioning thyroid adenoma with an activating mutation of G alphas gene in the present case.

Clinical usefulness of thyroid-stimulating antibody measurement using Chinese hamster ovary cells expressing human thyrotropin receptors.

Human thyrotropin (TSH) receptors were expressed in Chinese hamster ovary (CHO) cells using eukaryotic expression plasmid pCXN2, which contains beta-actin promoter. We measured cAMP stimulation in CHO cells expressing human TSH receptors (CHO-hTSH-R cells) by immunoglobulin G (IgG) of patients with Graves' disease and Hashimoto's thyroiditis, and compared the results with a conventional thyroid-stimulating antibody (TS-Ab) assay using porcine thyroid cells and a TSH-binding inhibiting immunoglobulin (TBII) assay. Nineteen untreated patients with Graves' disease, including a case who developed hyperthyroidism after interferon -alpha therapy for chronic hepatitis C, and 13 treated patients with Graves' disease, 10 patients with Hashimoto's thyroiditis and 8 control subjects were studied. In 19 untreated patients with Graves' disease, 17 patients showed positive CHO-hTSH-R cell stimulation, 11 patients showed positive porcine thyroid cell stimulation and 15 patients showed positive TBII. All the untreated patients showed positive results in at least one assay. Although significantly positive correlations were observed among CHO-hTSH-R cell stimulation, porcine thyroid cell stimulation and TBII activities, the IgG of several patients showed significant discrepancy in the assay results. In a patient with interferon-induced hyperthyroidism only CHO-hTSH-R cell stimulation was positive, while porcine thyroid cell stimulation and TBII were negative. After the treatment with propylthiouracil for 6 months, CHO-hTSH-R cell stimulation became negative. The IgG of patients with Hashimoto's thyroiditis did not show significant stimulation of CHO-hTSH-R cells. These results suggest that the CHO-hTSH-R cell stimulation assay is clinically useful for the diagnosis and follow-up of patients with Graves' disease.

Distribution and characterization of cyclo (His-Pro)-like immunoreactivity in the human gastrointestinal tract.

Cyclo (His-Pro) [C(HP)] has been measured by radioimmunoassay in perchloric acid extracts of human gastrointestinal (GI) tract structures derived from autopsy sources and fresh colonic biopsies. C(HP) was identified in all regions of the human GI tract, ranging in concentrations from 599 +/- 102 pg/mg protein in stomach, to 127 +/- 26 pg/mg protein in esophagus. The mean concentration of C(HP) from colonic biopsies was 335 +/- 30 pg/mg protein, statistically similar to values derived from postmortem sources. Since C(HP) concentrations are within the range of other gut peptide modulators, cyclo (His-Pro) is speculated to play a role as a new paracrine modulator of human GI tract function(s).

Inhibitory effects of okadaic acid on thyrotropin and prolactin secretion from rat anterior pituitaries.

The present study was undertaken to elucidate the effects of okadaic acid, a potent inhibitor of protein phosphatases, on thyrotropin (TSH) and prolactin (PRL) secretion, and on the hydrolysis of inositol phospholipids in rat anterior pituitaries. Preincubation of anterior pituitaries with okadaic acid caused a dose dependent decrease in TRH- and K(+)-induced TSH secretion, whereas basal secretion of TSH was not affected by pretreatment with okadaic acid. In contrast, okadaic acid resulted in a marked inhibition in both basal, and TRH- and K(+)-stimulated PRL release from anterior pituitaries. In addition, pretreatment with okadaic acid caused a slight, but significant decrease in the formation of [3H]inositol phosphate ([3H]IP) in rat anterior pituitaries. The present study suggests that okadaic acid blocks the release of TSH and PRL by inhibiting Ca2+ influx and that inhibitory effects of okadaic acid on PRL release are, at least in part, due to the inhibition of inositol phospholipid hydrolysis.

Recognition by anti-idiotypic anti-thyrotropin-releasing hormone (TRH) antibody of rat TRH receptors.

We asked whether anti-idiotypic antibodies raised against anti-TRH antibody could bind to TRH receptors in the rat anterior pituitary and brain. Six rabbits were immunized with IgG from a rabbit anti-TRH antiserum. One anti-idiotypic antibody caused strong, dose-dependent inhibition in anti-TRH antibody-binding to [125]I-TRH. This inhibition was not observed after treatment with goat anti-rabbit IgG antibody. The anti-idiotypic anti-TRH antibody significantly immunoprecipitated digitonin-solubilized pituitary TRH receptors. When eluates of digitonin-solubilized membranes which were adsorbed by either an anti-idiotypic anti-TRH IgG-, normal rabbit IgG-linked affinity column or control column were analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis and visualized by silver stain, only the former eluate showed two bands under nonreducing conditions; one corresponded to a molecular weight marker of 200K, the other to 100K. Western blotting analysis with an anti-idiotypic anti-TRH antiserum showed a single band of molecular weight 56K under reducing conditions. The present study indicates that one can make anti-idiotypic antibodies that specifically recognize TRH receptors.

Thyroid hormones regulate the formation of inositol phosphate in response to thyrotropin-releasing hormone in rat anterior pituitaries.

The effects of thyroid hormones on TSH secretion and inositol phospholipid hydrolysis in response to thyrotropin-releasing hormone (TRH) in rat anterior pituitaries were examined. Experimental hypothyroidism caused a significant increase in [3H]inositol phosphate ([3H]IP) formation in response to TRH in rat anterior pituitaries with a concomitant elevation of blood TSH. In contrast, administration of thyroxine (T4) to hypothyroid rats resulted in a complete restoration of blood TSH and TRH-stimulated [3H]IP formation to the euthyroid control value. Furthermore, in vitro pre-treatment of anterior pituitaries with triiodothyronine (T3) produced a dose-dependent decrease in both TSH secretion and the formation of [3H]IP in response to TRH. These results indicate that thyroid hormones regulate TRH receptor-linked inositol phospholipid hydrolysis in the rat anterior pituitary, suggesting that negative feedback action of thyroid hormone occurs at post receptor event in the rat anterior pituitary, which may, to a certain extent, be responsible for the underlying mechanism of T3 inhibition of TSH secretion.

Stimulation by a TRH precursor, TRH-Gly, of TSH and PRL secretion in rats: effect of starvation.

The hypophysial activities of a possible direct precursor of thyrotropin (TSH)-releasing hormone (TRH), TRH-Gly, were evaluated in estrogen, progesterone-primed rats under urethane anesthesia. Intravenous administration of TRH-Gly in doses of 2-200 micrograms caused a significant and dose-dependent increase in blood TSH and prolactin (PRL). The stimulatory activity of TRH-Gly was 170 to 400-times less potent than that of TRH. The lower potency was confirmed by the action of TRH-Gly on the anterior pituitary cells in vitro. In starved rats, TRH-Gly apparently stimulated TSH and PRL secretion in a dose-dependent manner, and the stimulatory activity increased in starved rats as compared to normal controls. TRH-Gly did not affect [3H-MeHis]TRH binding in pituitary plasma membranes. These data imply that large amounts of TRH-Gly may have significant biological activities and these are potentiated in the starved condition.

Okadaic acid inhibits the release of TSH in response to TRH and K+ from rat anterior pituitaries.

The effects of okadaic acid, a non-phorbol-12-tetradecanoate-13-acetate (non-TPA)-type tumor promoter and a potent inhibitor of protein phosphatases, on thyroid-stimulating hormone (TSH) secretion from the rat anterior pituitary were examined. Preincubation of anterior pituitaries with okadaic acid caused a time- and concentration-related decrease in a subsequent thyrotropin-releasing hormone (TRH)-stimulated TSH secretion, whereas it did not cause any changes in basal secretion of TSH. In addition, okadaic acid inhibited a subsequent high K(+)-induced TSH secretion. In contrast, ionomycin-induced TSH secretion was not inhibited by pretreatment with okadaic acid. The present results suggest that okadaic acid may block the release of TSH by inhibition of Ca2+ influx through voltage-sensitive and/or receptor-operated Ca2+ channels.

Activation of the thyrotropin-releasing hormone (TRH) receptor by a direct precursor of TRH, TRH-Gly.

We studied the mechanism by which thyrotropin-releasing hormone (TRH)-Gly stimulated prolactin and thyrotropin (TSH) secretion in pituitary, using a pituitary mammotropic cell line, GH3 cells, and a cell line stably expressing a human TRH receptor (TRH-R). In GH3 cells expressing endogenous TRH-R, an addition of TRH-Gly evoked an immediate rise of intracellular calcium concentration, indicating that TRH-Gly reacted directly without converting from TRH-Gly to TRH. In order to determine whether this reaction might occur through TRH-R, we established a cell line stably expressing a human TRH-R, by transfecting a human TRH-R cDNA into Chinese hamster ovary cells (CHO cells). In this cell line, 10 nM TRH elevated intracellular calcium significantly; the Kd for MeTRH was 1.7 nM. One micromolar and 100 nM TRH-Gly also elevated intracellular concentration of calcium significantly, but not in CHO cells which were not transfected with the TRH-R cDNA. Competition studies further revealed that TRH-Gly displaced MeTRH binding (IC50, 12 microM). These data indicate that at high concentration, TRH-Gly interacts directly with TRH-R to activate signal transduction pathway, and that release of prolactin and TSH induced by TRH-Gly in vitro may be due, at least in part, to the direct effect of TRH-Gly on the TRH-R.

Thyroid hormone affects the hydrolysis of inositol phospholipids in the rat hypothalamus.

We have attempted to elucidate the effect of thyroid hormone on phospholipase C-linked inositol phospholipid hydrolysis in the rat hypothalamus. Hypothalamic slices of each animal, euthyroid control, hypothyroid, and thyroxine (T4)-supplemented hypothyroid rats were labeled with [3H]myoinositol in the presence of 5 mM LiCl, and then incubated for 60 min in KHG buffer containing either vehicle or 1 mM ouabain, a Na-K ATPase inhibitor. Hypothyroidism caused a significant increase in both basal and ouabain-stimulated accumulation of [3H]inositol phosphate ([3H]IP) in hypothalamic slices, whereas supplement with T4 to hypothyroid rats resulted in a complete restoration of hypothalamic [3H]IP formation to the value of euthyroid control. The present results indicate that thyroid hormone affects phospholipase C-linked inositol phospholipid hydrolysis in the hypothalamus, suggesting that negative feedback action of thyroid hormone may occur at a post-receptor site in the hypothalamus.

Expression and nocturnal increase of type II iodothyronine deiodinase mRNA in rat pineal gland.

It has been demonstrated that thyroxine deiodinating activity is present in rat pineal gland, and its activity increases significantly during the night time. We have studied whether mRNA for type II iodothyronine deiodinase is expressed in rat pineal gland and whether the nocturnal rise of pineal T4 deiodinating activity is due to the change in type II iodothyronine deiodinase mRNA level. Reverse transcription-polymerase chain reaction amplification and Northern blot analyses have demonstrated that type II iodothyronine deiodinase mRNA is expressed in rat pineal gland and its mRNA level increases markedly at midnight. These results suggest that the nocturnal rise in pineal T4 deiodinating activity is due to the change in type II iodothyronine deiodinase mRNA level.