Human thyroid-stimulating hormone synthesis in human embryonic kidney cells and related N-glycoprofiling analysis for carbohydrate composition determination.

A strain of embryonic human kidney cells (HEK293) was transiently co-transfected with the expression vectors coding for the α- and ß-subunits of human thyroid-stimulating hormone (hTSH), and, for the first time, a human cell-derived recombinant hTSH was synthesized and extensively characterized. The purification strategy involving two steps provided an overall yield of 55% and a purity level > 90%. The purified material (hTSH-HEK) was analyzed and compared to a CHO-derived recombinant preparation (hTSH-CHO) and to a pituitary-derived (hTSH-Pit) preparation. The three preparations showed an equivalent purity (> 95%) with a hTSH-HEK molecular mass 2.1% lower than that of hTSH-CHO and 2.7% higher than that of hTSH-Pit. Remarkable differences were found in the carbohydrate moiety, the lowest sialic acid content and highest fucose content being observed in hTSH-HEK. In vivo biological activity was confirmed for the three preparations, the hTSH-HEK bioactivity being 39 and 16% lower than those of hTSH-CHO and hTSH-Pit, respectively. The hTSH-HEK circulatory half-life (t 1/2) was also shorter than those of hTSH-CHO (1.5-fold) and hTSH-Pit (1.2-fold). According to these findings, HEK-293-derived hTSH can be considered to be useful for clinical applications, in view as well of its human origin and particular carbohydrate composition.

Effect of transcription factor ZBTB20 on mouse pituitary development.

Pituitary, a critical component in the neuroendocrine system, plays an indispensable role in the regulation of body growth. The transcriptional factor ZBTB20 is widely expressed in brain tissues and participates in hippocampal development; however, the detailed molecular mechanism remains unknown. Therefore, the aim of this study was to investigate the effect of ZBTB20 on mouse pituitary development and related mechanisms in ZBTB20 gene knockout mice. The expressional profiles of ZBTB20 in various neuroendocrinal cells during the different developmental stages (from E10 to P0) were described by immunofluorescence staining. A ZBTB20 gene knockout mouse model was then generated. Real-time polymerase chain reaction and western blotting assays were used to detect the levels of five hormones: growth hormone (GH), prolactin (PRL), luteinizing hormone (LH), follicle-stimulating hormone (FSH), and thyroid-stimulating hormone (TSH). ZBTB20 protein expression was identified from E14 until birth. A majority of the pituitary endocrinal cells were ZBTB20-positive. In ZBTB20 knockout mice, the level of GH decreased by half and PRL expression was eliminated. No significant change was observed in the other three hormones (LH, FSH, and TSH). ZBTB20, an important transcriptional factor in pituitary development, is mainly responsible for the terminal differentiation of prolactin-secreting cells, thereby regulating the secretion of the pituitary hormones.

Luteal expression of thyroid hormone receptors during gestation and postpartum in the rat.

BACKGROUND: Progesterone (P4) is the main steroid secreted by the corpora lutea (CL) and is required for successful implantation and maintenance of pregnancy. Although adequate circulating levels of thyroid hormone (TH) are needed to support formation and maintenance of CL during pregnancy, TH signaling had not been described in this gland. We determined luteal thyroid hormone receptor isoforms (TR) expression and regulation throughout pregnancy and under the influence of thyroid status, and in vitro effects of triiodothyronine (T3) exposure on luteal P4 synthesis. METHODS: Euthyroid female Wistar rats were sacrificed by decapitation on gestational day (G) 5, G10, G15, G19, or G21 of pregnancy or on day 2 postpartum (L2). Hyperthyroidism and hypothyroidism were induced in female Wistar rats by daily administration of thyroxine (T4; 0.25 mg/kg subcutaneously) or 6-propyl-2-thiouracil (PTU; 0.1 g/L in drinking water), respectively. Luteal TR expression of mRNA was determined using real-time reverse-transcription quantitative polymerase chain reaction, and of protein using Western blot and immunohistochemistry. Primary cultures of luteal cells and of luteinized granulosa cells were used to study in vitro effects of T3 on P4 synthesis. In addition, the effect of T3 on P4 synthesis under basal conditions and under stimulation with luteinizing hormone (LH), prolactin (PRL), and prostaglandin E2 (PGE2) was evaluated. RESULTS: TRα1, TRα2, and TRß1 mRNA were present in CL, increasing during the first half and decreasing during the second half of pregnancy. At the protein level, TRß1 was abundantly expressed during gestation reaching a peak at G19 and decreasing afterwards. TRα1 was barely expressed during early gestation, peaked at G19, and diminished thereafter. Expression of TRß1 and TRα1 at the protein and mRNA level were not influenced by thyroid status. T3 neither modified P4 secretion from CL of pregnancy nor its synthesis in luteinized granulosa cells in culture. CONCLUSIONS: This study confirms for the first time the presence of TR isoforms in the CL during pregnancy and postpartum, identifying this gland as a TH target during gestation. TR expression is modulated in this tissue in accordance with the regulation of P4 metabolism, and the abrupt peripartum changes suggest a role of TH during luteolysis. However, TH actions on the CL do not seem to be related to a direct regulation of P4 synthesis.

Enhancement of human thyrotropin synthesis by sodium butyrate addition to serum-free CHO cell culture.

The influence of sodium butyrate (NaBu) on the synthesis of recombinant human thyrotropin (r-hTSH) by CHO cells was investigated for the first time. A volumetric productivity of ~10 µg hTSH/mL was repeatedly obtained, with a 3.3-fold increase over a control culture carried out in the absence of NaBu. Since NaBu can induce CHO cell apoptosis and cell growth arrest, the increase in specific productivity was even higher, i.e., ca. 5-fold. Analysis of the N-glycan composition of r-hTSH obtained with the addition of NaBu to the culture medium showed an approximately 12 % increase in the amount of sialic acid, as well as in total carbohydrate, partly due to the increase in the site occupancy from 2.77 to 2.93 glycans per mole of hTSH. The two hormone preparations were characterized by N-glycan structural analysis, which showed that NaBu increased the bi-antennary structures by ca. 13 % while decreasing the tri-antennary structures by approximately the same amount. The in vivo biological activity and pharmacokinetic behavior (clearance) were found to be similar for the two hormone preparations.

Hypo- and hyperthyroidism affect NEI concentration in discrete brain areas of adult male rats.

To date, there has been only one in vitro study of the relationship between neuropeptide EI (NEI) and the hypothalamic-pituitary-thyroid (HPT) axis. To investigate the possible relationship between NEI and the HPT axis, we developed a rat model of hypothyroidism and hyperthyroidism that allows us to determine whether NEI content is altered in selected brain areas after treatment, as well as whether such alterations are related to the time of day. Hypothyroidism and hyperthyroidism, induced in male rats, with 6-propyl-1-thiouracil and l-thyroxine, respectively, were confirmed by determination of triiodothyronine, total thyroxine, and thyrotropin levels. All groups were studied at the morning and the afternoon. In rats with hypothyroidism, NEI concentration, evaluated on postinduction days 7 and 24, was unchanged or slightly elevated on day 7 but was decreased on day 24. In rats with hyperthyroidism, NEI content, which was evaluated after 4 days of l-thyroxine administration, was slightly elevated, principally in the preoptic area in the morning and in the median eminence-arcuate nucleus and pineal gland in the afternoon, the morning and afternoon NEI contents being similar in the controls. These results provide the bases to pursue the study of the interaction between NEI and the HPT axis.

Improved bioprocess with CHO-hTSH cells on higher microcarrier concentration provides higher overall biomass and productivity for rhTSH.

Since the recombinant thyroid-stimulating hormone (rhTSH) is secreted by stably transfected Chinese hamster ovary (CHO-hTSH) cells, a bioprocess consisting of immobilizing the cells on a substrate allowing their multiplication is very suitable for rhTSH recovering from supernatants at relative high degree of purity. In addition, such a system has also the advantage of easily allowing delicate manipulations of culture medium replacement. In the present study, we show the development of a laboratory scale bioprocess protocol of CHO-hTSH cell cultures on cytodex microcarriers (MCs) in a 1 L bioreactor, for the preparation of rhTSH batches in view of structure/function studies. CHO-hTSH cells were cultivated on a fetal bovine serum supplemented medium during cell growth phase. For rhTSH synthesis phase, 75% of supernatant was replaced by animal protein-free medium every 24 h. Cell cultures were monitored for agitation (rpm), temperature (°C), dissolved oxygen (% DO), pH, cell concentration, MCs coverage, glucose consumption, lactate production, and rhTSH expression. The results indicate that the amount of MCs in the culture and the cell concentration at the beginning of rhTSH synthesis phase were crucial parameters for improving the final rhTSH production. By cultivating the CHO-hTSH cells with an initial cell seeding of four cells/MC on 4 g/L of MCs with a repeated fed batch mode of operation at 40 rpm, 37 °C, 20% DO, and pH 7.2 and starting the rhTSH synthesis phase with 3 × 10(6) cells/mL, we were able to supply the cultures with enough glucose, to maintain low levels of lactate, and to provide high percent (∼80%) of fully covered MCs for a long period (5 days) and attain a high cell concentration (∼9 × 10(5) cells/mL). The novelty of the present study is represented by the establishment of cell culture conditions allowing us to produce ∼1.6 mg/L of rhTSH in an already suitable degree of purity. Batches of produced rhTSH were purified and showed biological activity.

Prepro-orexin and feeding-related peptide receptor expression in dehydration-induced anorexia.

Food-restricted animals present metabolic adaptations that facilitate food-seeking behavior and decelerate energy utilization by reducing the hypothalamus-pituitary-thyroid (HPT) axis function. Stress by dehydration induces an anorexic behavior in rats, loss of weight and reduced food intake when compared to ad libitum fed animals, however these alterations are accompanied by HPT axis changes such as increased serum thyrotropin levels and enhanced expression of thyrotropin-releasing hormone (TRH) in the paraventricular nucleus of the hypothalamus, which is considered as anorexigenic peptide. In contrast, a pair-fed group conformed by forced-food-restricted animals (FFR) (eating the exact same amount of food as dehydration-induced anorexic rats--DIA rats) present decreased TRH mRNA levels. NPY synthesis in the arcuate nucleus and orexin-expressing neurons from the lateral hypothalamic area (LHA) are activated during food restriction. These brain structures project into PVN, suggesting that NPY and orexins are possible factors involved in TRHergic neuron activation in DIA rats. Leptin signaling is another likely factor to be involved in TRH differential expression. Therefore, to gain more insight into the regulation of the feeding behavior in the experimental models, we analyzed Y1, Y5, Ox1-R and Ob-R(b) mRNA levels in PVN and prepro-orexin in LHA, since their signaling to the PVN might be altering TRH synthesis and feeding in DIA animals. Prepro-orexinergic cells were activated in FFR animals; Ox1-R and Y1 expression was reduced in FFR vs. controls or DIA group. Compensatory changes in PVN receptor expression of some feeding-related peptides in anorexic rats may alter TRHergic neural response to energy demands.

Influence of a reduced CO2 environment on the secretion yield, potency and N-glycan structures of recombinant thyrotropin from CHO cells.

A consistent increase of approximately 60% in the secretion yield of CHO-derived hTSH was observed by changing cell culture CO2 conditions from 5% CO2 to an air environment. The overall quality of the products obtained under both conditions was evaluated in comparison with a well-known biopharmaceutical (Thyrogen). The N-glycans identified were of the complex type, presenting di-, tri- and tetra-antennary structures, sometimes fucosylated, 86-88% of the identified structures being sialylated at variable levels. The three most abundant structures were monosialylated glycans, representing approximately 69% of all identified forms in the three preparations. The main difference was found in terms of antennarity, with 8-10% more di-antennary structures obtained in the absence of CO2 and 7-9% more tri-antennary structures in its presence. No remarkable difference in charge isomers was observed between the three preparations, the isoelectric focusing profiles showing six distinct bands in the 5.39-7.35 pI range. A considerably different distribution, with more forms in the acidic region, was observed, however, for two native pituitary preparations. All recombinant preparations showed a higher in vivo bioactivity when compared to native hTSH. Different production processes apparently do not greatly affect N-glycan structures, charge isomer distribution or bioactivity of CHO-derived hTSH.

Long-term effect of norepinephrine on thyroglobulin gene expression in FRTL-5 cells.

Many types of evidence support a role of the sympathetic nervous system in the regulation of thyroid function, although there is no general consensus on the type of influence that catecholamines exert. Depending on the experimental approach, epinephrine and norepinephrine (NE) can stimulate, inhibit, or fail to act on thyroid function. The aim of this study was to determine the effect of NE on thyroglobulin (Tg) synthesis and gene expression in FRTL-5 cells. Tg content, measured by immunoprecipitation with a specific antibody, showed that NE caused a 45% inhibition of thyrotropin (TSH) effect. The content of Tg mRNA was analyzed by Northern blot, the relative inhibition in total Tg mRNA levels from NE-treated cells, compared to TSH alone, ran parallel with inhibition in Tg content, while total RNA did not change after incubation with NE. There was no alteration in Tg mRNA stability by NE. When plasmids harboring different sequences of Tg promoter fused to the CAT reporter gene were transfected into FRTL-5 cells, TSH treatment stimulated promoter activity while NE diminished this effect by 43%-55%. Northern blots were performed to analyze mRNA for thyroid transcription factors (TTF1, TTF2, Pax8), and no significant changes were observed with the different treatments. In conclusion these results suggest that NE inhibits Tg synthesis at the transcriptional level.

[Regulation of thyrotropin synthesis and secretion]. / Regulação da síntese e secreção de tireotrofina.

The set point of thyrotropin (TSH) secretion is determined by the balance of a positive regulation of thyrotropin releasing hormone (TRH) and the strong negative regulation exerted by thyroid hormones. In addition, there are other regulators superimposed on this main axis such as somatostatin and dopamine, which act as inhibitors of TSH secretion, and central alpha-adrenergic pathways that are predominantly stimulatory and involved in the cold-induced thyroid activation. Nutritional status and leptin also regulate TSH by stimulating TRH neurons through direct and indirect mechanisms. Stress is also involved in lowering TRH/TSH secretion possibly through glucocorticoids, cytokines and opioids. Recently, a new regulatory pathway has been proposed, via peptides produced in pituitary, acting in an autocrine/paracrine manner. Among those, more consistent data are available on neuromedin B, gastrin-releasing peptide and pituitary leptin, which act as local inhibitors of TSH release. Neonatal programming of TSH secretion set point is also discussed.

Regulação da síntese e secreção de tireotrofina / Regulation of thyrotropin synthesis and secretion

A secreção de tireotrofina (TSH) é determinada pelo efeito estimulatório do hormônio hipotalâmico estimulador de tireotrofina (TRH) e pela retroalimentação negativa exercida pelos hormônios tireóideos (HT). Superpostos, atuam outros reguladores e aferências do sistema nervoso central. Somatostatina e dopamina inibem a secreção de TSH, já as vias alfa-adrenérgicas centrais são predominantemente estimuladoras e participariam no estímulo da secreção de TSH pelo frio. O estado nutricional modula o eixo através da leptina, por vias diretas e indiretas. O estresse induz redução da secreção de TSH, e discute-se a participação dos glicocorticóides, citocinas e opiáceos. Recentemente, evidenciou-se que fatores locais produzidos na adenohipófise podem atuar de forma autócrina/parácrina, modulando a secreção de TSH. Dentre estes, destacam-se a neuromedina B e o peptídeo liberador de gastrina, que atuam como inibidores locais da secreção de TSH. Discute-se ainda, as alterações do TSH decorrentes da programação neonatal, por hormônios ou desnutrição.

Hepatic hemangioendothelioma associated with production of humoral thyrotropin-like factor.

We report on 7 patients referred for treatment of hepatic hemangioendothelioma with increased thyrotropin levels. The serum thyroxine level was decreased in 4 and increased in 2. Immunohistochemistry showed positive staining of tumor, but not of normal liver tissue, for thyrotropin. We propose secretion by the tumor of a thyrotropin-like factor.

Thyroid function in post-weaning rats whose dams were fed a low-protein diet during suckling.

This study was designed to evaluate the thyroid and pituitary hormone levels in post-weaning rats whose dams were fed a low-protein diet during suckling (21 days). The dams and pups were divided into 2 groups: a control group fed a diet containing 22% protein that supplies the necessary amount of protein for the rat and is the usual content of protein in most commercial rat chow, and a diet group fed with a low-protein (8%) diet in which the protein was substituted by an isocaloric amount of starch. After weaning all dams and pups received the 22% protein diet. Two hours before sacrifice of pups aged 21, 30 and 60 days, a tracer dose (0.6 microCi) of 125I was injected (i.p.) into each animal. Blood and thyroid glands of pups were collected for the determination of serum T4, T3 and TSH and radioiodine uptake. Low protein diet caused a slight decrease in radioiodine uptake at 21 days, and a significant decrease in T3 levels (128 +/- 14 vs 74 +/- 9 ng/dl, P < 0.05), while T4 levels did not change and TSH was increased slightly. At 30 days, T3 and TSH did not change while there was a significant increase in both T4 levels (4.8 +/- 0.3 vs 6.1 +/- 0.2 micrograms/dl, P < 0.05) and in radioiodine uptake levels (0.34 +/- 0.02 vs 0.50 +/- 0.03%/mg thyroid, P < 0.05). At 60 days serum T3, T4 and TSH levels were normal, but radioiodine uptake was still significantly increased (0.33 +/- 0.02 vs 0.41 +/- 0.03%/mg thyroid, P < 0.05). Thus, it seems that protein malnutrition of the dams during suckling causes hypothyroidism in the pups at 21 days that has a compensatory mechanism increasing thyroid function after refeeding with a 22% protein diet. The radioiodine uptake still remained altered at 60 days, when all the hormonal serum levels returned to the normal values, suggesting a permanent change in the thyroid function.

Thyroid function in post-weaning rats whose dams were fed a low-protein diet during suckling

This study was designed to evaluate the thyroid and pituitary hormone levels in post-weaning rats whose dams were fed a low-protein diet during suckling (21 days). The dams and pups were divided into 2 groups:a control group fed a diet containing 22 per cent protein that supplies the necessary amount of protein for the rat and is the usual content of protein in most commercial rat chow, and a diet group fed a lowprotein (8 per cent) diet in which the protein was substituted by an isocaloric amount of starch. After weaning all dams and pups received the 22 per cent protein diet. Two hours before sacrifice of pups aged 21, 30 and 60 days, a tracer dose (0.6 mui) ofl25I was injected (ip) into each animal. Blood and thyroid glands of pups were collected for the determination of serum T4, T3 and TSH and radioiodine uptake. Low protein diet caused a slight decrease in radioiodine uptake at 21 days, and a significant decrease in T3 levels (l28 ñ 14 vs 74 ñ 9 ng/dl, P<0.05), while T4 levels did not change and TSH was increased slightly. At 30 days, T3 and TSH did not change while there was a significant increase in both T4 levels (4.8 ñ 0.3 vs 6.1 ñ 0.2 mug/dl, P<0.05) and in radioiodine uptake levels (0.34 ñ 0.02 vs 0.50 ñ 0.030 per cent/mg thyroid, P<0.05). At 60 days serum T3, T4 and TSH levels were normal, but radioiodine uptake was still significantly increased (0.33 ñ 0.02 vs 0.41 ñ 0.03 per cent/mg thyroid, P<0.05). Thus, it seems that protein malnutrition of the dams during suckling causes hypothyroidism in the pups at 21 days that has a compensatory mechanism increasing thyroid function after refeeding with a 22 per cent protein diet. The radioiodine uptake still remained altered at 60 days, when all the hormonal serum levels returned to the normal values, suggesting a permanent change in the thyroid function.

Changes in thyrotroph and somatotroph cell populations induced by stimulation and inhibition of their secretory activity.

The populations of cells which produce immunoreactive growth hormone (GH) and thyroid stimulating hormone (TSH) in the rat pituitary gland do not occur in fixed percentages but vary greatly under different physiological and experimental conditions. These variations can be directly correlated to the levels of stimulation and/or inhibition of the specific secretory activity. In both types of cell, sustained stimulation with trophic hormones or blockage of the feedback mechanisms induces remarkable growth in the specific cell population. Conversely, the interruption or inhibition of the stimulus thwarted the hormonal secretion and caused a massive degeneration of redundant cells. The stimulation of both GH and TSH cells is accompanied by an enhanced secretory activity as judged by their higher concentrations in serum and hypertrophy of the cytoplasmic organelles involved in synthesis and intracellular processing of the hormones. By contrast, interruption of the stimulus is followed by a variable degree of disruption of the cytoplasmic organization, including a sizable degeneration of cells. In stimulated rats, the concentrations of both GH and TSH decreased significantly in pituitary tissue due to mobilization of the hormonal stores contained in secretory granules. On the other hand, the withdrawal of stimuli blocked the hormonal release; this is reflected by the accumulation of both hormones and secretory granules in pituitary tissue. The strict correlation between the size of the GH and TSH populations with stimulation and inhibition of hormonal secretory activity reported in this investigation further supports the critical role played by the cell renewal process in endocrine secretion.

La glándula tiroides...se autoregula? / The thyroid gland...itself autorregulation?

El aporte de yodo es fundamental para el normal funcionamiento de la glándula tiroides. Analizar el proceso de síntesis de las hormonas tiroideas es de vital importancia para comprender el mecanismo de autoregulación. Esta glándula posee un mecanismo intrínseco de regulación de su propio crecimiento y funcionamiento, el mismo está asociado a la concentración intratiroidea de yoduros y compuestos yodados. Estos compuestos son sintetizados por la misma glándula y parte de ellos son derivados del ácido araquidónico. El análisis de estos hechos permiten entender la etiología de disfunciones tiroideas durante el stress o la ingesta de altas concentraciones de yodo con tejido glandular normal.

La glándula tiroides...se autoregula? / The thyroid gland...itself autorregulation?

El aporte de yodo es fundamental para el normal funcionamiento de la glándula tiroides. Analizar el proceso de síntesis de las hormonas tiroideas es de vital importancia para comprender el mecanismo de autoregulación. Esta glándula posee un mecanismo intrínseco de regulación de su propio crecimiento y funcionamiento, el mismo está asociado a la concentración intratiroidea de yoduros y compuestos yodados. Estos compuestos son sintetizados por la misma glándula y parte de ellos son derivados del ácido araquidónico. El análisis de estos hechos permiten entender la etiología de disfunciones tiroideas durante el stress o la ingesta de altas concentraciones de yodo con tejido glandular normal. (AU)

Low TRH-TSH responses in human essential hypertension.

Thirty female and male essential hypertensive patients and eighteen normotensive controls were submitted to the TRH-TSH conventional test (200 ug intravenously, bolus injection of TRH). Supramaximal doses of 400 and 600 ug were repeated with a week interval to each subject. Hypertensives showed a significant lower response to both conventional and supramaximal TRH doses. Hypothalamic-pituitary-thyroid axis abnormalities, secondary to TRH-receptor alterations, could account for this result.