Dexamethasone stimulates thyrotropin-releasing hormone production in a C cell line

The hypothalamic peptide hormone TRH is also found in other tissues, including the thyroid. While TRH may be regulated by T3 in the hypothalamus, other regulators of TRH have not been identified and the regulation of TRH in nonhypothalamic tissues is unknown. We recently demonstrated the biosynthesis of TRH in the CA77 neoplastic thyroidal C cell line. We studied the regulation of TRH by dexamethasone in this cell line because glucocorticoids have been postulated to inhibit TSH secretion by decreasing TRH in the hypothalamus. Furthermore, TRH in the thyroid inhibits thyroid hormone release. Thus by regulating thyroidal TRH, glucocorticoids could also directly affect thyroid hormone secretion. Treatment of CA77 cells for 4 days with dexamethasone produced dose-dependent increases in both TRH mRNA and cellular and secreted TRH. Increases in TRH mRNA and peptide levels could be seen with 10(-9) M dexamethasone. A 4.8-fold increase in TRH mRNA and a 4-fold increase in secreted peptide were seen with 10(-7) M dexamethasone. Dexamethasone treatment did not increase beta-actin mRNA levels or cell growth. These results suggest that glucocorticoids may be physiological regulators of TRH in normal C cells. In addition to their inhibitory effects on TSH, glucocorticoids may decrease thyroid hormone levels by increasing thyroidal TRH. Since the glucocorticoid effects on C cell TRH are the converse of what is expected for hypothalamic TRH, glucocorticoid effects in these two tissues may be mediated by different regulators.     

Early changes in brush border disaccharidase kinetics in rat jejunum following subcutaneous administration of tetraiodothyronine: a quantitative histochemical study on villi revealing normal morphology

In order to test the influence of thyroid hormones on small intestine function, adult female Wistar rats were injected daily with either 100 microgram/100 g body weight tetraiodothyronine or placebo. After 12 days, jejunal segments were removed and processed for morphometric analysis of mucosal architecture and quantitative histochemical determinations of the apparent Km- and Vmax-values of lactase/beta-glucosidase and neutral alpha-glucosidase at constant basal and apical measuring positions along the villi. The villus-crypt-architecture was the same in both experimental groups. At the cellular level, however, application of tetraiodothyronine resulted in a marked decrease in the apparent Vmax of lactase/beta-glucosidase at both villus positions, maintaining the normal activity gradient along the villi. In comparison with the controls, a less pronounced but significant reduction in activity was also demonstrated for the neutral alpha-glucosidase. Substrate affinity, however, was only increased for this enzyme, the apparent Km of lactase/beta-glucosidase not being affected by the hormone. The results indicate a direct effect of tetraiodothyronine on jejunal brush border disaccharidases of the rat. The alternative mechanism, an effect mediated by an altered enterocyte turnover is unlikely to occur.     

Effects of glucocorticoid and thyroid hormones on regulatory enzymes of fatty acid synthesis and glycogen metabolism in developing fetal rat lung

Although glucocorticoid and thyroid hormones are known to act synergistically to stimulate surfactant production, they have opposite effects on other parameters of fetal lung maturation. We recently reported that the developmental increases in de novo fatty acid synthesis and glycogen accumulation in fetal rat lung were accelerated by dexamethasone but prevented by triiodothyronine and that the dexamethasone-induced increases were diminished when the two hormones were administered together. We have now examined the effects of maternal administration of these hormones on activities of enzymes of lung fatty acid synthesis and glycogen metabolism in the rat. There was a developmental increase in fatty-acid synthase activity between 19 and 21 days gestation. This activity was increased by dexamethasone but decreased by triiodothyronine. When the two hormones were administered together the stimulatory effect of dexamethasone was decreased from 56% to 29%. The stimulatory effect on fatty-acid synthase was also observed in fetal lung explants cultured in the presence of dexamethasone. This shows that the effect of the hormone was directly on the fetal lung. Dexamethasone had no effect on liver fatty-acid synthase. There was a developmental decrease in acetyl-CoA carboxylase activity but it was not affected by the hormones. These data show that the developmental and hormone-induced changes in fetal lung de novo fatty acid synthesis are mediated by fatty-acid synthase. Although there were developmental changes in fetal lung 6-phosphofructokinase, glycogen synthase and glycogen phosphorylase activities, these enzymes were not affected by the hormones.     

Testicular lipogenic enzymes--direct effects of dexamethasone in vivo

Specific activities of NADP-Isocitrate dehydrogenase, ATP-citrate lyase, Malate dehydrogenase and Malic enzyme were studied in dexamethasone injected and adrenalectomized prepubertal and adult rat testis. 30 days after adrenalectomy the specific activity of NADP-Isocitrate dehydrogenase increased but the specific activities of the other three enzymes decreased in both age groups. An opposite effect was observed after dexamethasone injection to intact animals. The changes observed in the specific activities of enzymes of adrenalectomized and dexamethasone treated animals reverted back to normal after dexamethasone replacement and withdrawal, respectively in adult animals. However, dexamethasone injected intact prepubertal animals did not revert back to normal after the hormone withdrawal.     

Organ culture of suckling rat intestine: comparative study of various hormones on brush border enzymes

Jejunal mucosa of 6 d-old rats were cultured for 24 and 48 h in the presence of thyroxine, insulin, pentagastrin, glucagon, epidermal growth factor (EGF) or dibutyryl-A-3:5-MP cyclic with or without dexamethasone (DX). The enzymes were assayed on the purified brush borders. The various agents added alone to the basic culture medium had no effect with the exception of DX on the levels of enzyme activities. Dexamethasone alone induced sucrase, stimulated maltase, and protected other brush border enzyme activities (aminopeptidase, lactase, and alkaline phosphatase). When added to DX-supplemented medium, only the following factors modified the levels of enzymatic activities observed with DX alone. Insulin (10(-6) M) increased maltase, alkaline phosphatase, and lactase activity to a greater extent than DX at 24 h culture, the effect being maintained at 48 h on alkaline phosphatase only. At 48 h culture, both EGF (10(-8) M) and dbcAMP (10(-3) M) decreased DX-induced sucrase activity. The latter agent also depressed DX-stimulated aminopeptidase activity.     

A case of the syndrome of inappropriate secretion of TSH.

A girl aged 4 years with goiter and accelerated physical and skeletal growth was found to be hyperthyroid on the basis of elevated serum thyroid hormone level, nevertheless both the basal TSH and TSH responsiveness to TRH were maintained within the normal range. Serum TSH was suppressed by exogenous T3 and dexamethasone administration, but not significantly changed after propylthiouracil (PTU) treatment. The diurnal rhythmicity of anterior pituitary hormones was preserved with the high nocturnal peak of TSH and prolactin. Clinically, neither thyrotoxic signs nor evidences of pituitary tumor were observed. Her accelerated growth and elevated thyroid hormone level appeared to be induced by inappropriate secretion of TSH. In view of the literature, this is the first case of the syndrome of inappropriate secretion of TSH excluding the neoplastic origin in Japan.     

The effect of thyroid hormone and glucocorticoids on carp growth hormone-releasing factor (GRF)-induced growth hormone (GH) release in rainbow trout (Oncorhynchus mykiss).

1. The effect of thyroid hormone and glucocorticoids on carp growth hormone-releasing factor (GRF)-induced growth hormone (GH) secretion was studied on rainbow trout using a dispersed pituitary cell culture system. 2. A combined administration of lower doses (0.01 microM) of 3,5,3'-triiodo-L-thyronine (T3) and dexamethasone (Dex) significantly increased spontaneous as well as carp GRF-induced GH release. 3. Lower doses of Dex alone had no effect, and T3 had a marginal effect on GH release. Higher doses of either Dex or T3 potentially reduced GH release. 4. This study indicates an important role of thyroid hormone and/or glucocorticoids in the hypothalamic regulation of GH secretion in fish.     

Normal and glucocorticoid-induced development of the human small intestinal xenograft

The aim of this study was to determine whether intestinal xenografts could recapitulate human in utero development by using disaccharidases as markers. Twenty-week-old fetal intestine was transplanted into immunocompromised mice and was followed. At 20-wk of gestation, the fetal human intestine was morphologically developed with high sucrase and trehalase but had low lactase activities. By 9-wk posttransplantation, jejunal xenografts were morphologically and functionally developed and were then monitored for 相似文献   

Cortisone and thyroxine modulate intestinal lactase and sucrase mRNA levels and activities in the suckling rat.

Glucocorticoids and thyroxine modulate postnatal intestinal sucrase and lactase activities. Whether changes in enzyme activity are accompanied by changes in enzyme mRNA levels were determined in day 6 rats given thyroxine, cortisone, or thyroxine plus cortisone and killed 3 days later. Cortisone induced precocious expression of jejunal sucrase activity which was enhanced when cortisone plus thyroxine was administered; sucrase mRNA changed in parallel. Jejunal lactase activity was unaffected by thyroxine and was increased after cortisone, but not after thyroxine plus cortisone. Jejunal lactase mRNA levels increased equally after cortisone or after cortisone plus thyroxine. Thus, cortisone induces coordinated increases in sucrase and lactase activities and in corresponding mRNA levels. Thyroxine only enhances cortisone induced sucrase expression and antagonizes cortisone by depressing lactase activity post-translationally.     

Toxicity of gentamicin in organ culture of fetal rat intestine.

The effect of gentamicin in the culture of fetal rat intestine was studied. Fetal rat intestine was cultured with gentamicin or kanamycin at the concentration between 4 to 200 micrograms/ml. Kanamycin did not have influence on lactase, maltase and ALP activities. On the other hand, gentamicin caused decrease of lactase and ALP activities at the concentration of 40 and 200 micrograms/ml compared with the activities at 4 micrograms/ml. Maltase activities did not decrease with gentamicin. Our data suggest that gentamicin could affect lactase and ALP activities and lower concentration should be used in the culture.     

Mechanisms of action of thyroid hormones in the skeleton

Background

Thyroid hormones regulate skeletal development, acquisition of peak bone mass and adult bone maintenance. Abnormal thyroid status during childhood disrupts bone maturation and linear growth, while in adulthood it results in altered bone remodeling and an increased risk of fracture

Scope of Review

This review considers the cellular effects and molecular mechanisms of thyroid hormone action in the skeleton. Human clinical and population data are discussed in relation to the skeletal phenotypes of a series of genetically modified mouse models of disrupted thyroid hormone signaling.

Major Conclusions

Euthyroid status is essential for normal bone development and maintenance. Major thyroid hormone actions in skeletal cells are mediated by thyroid hormone receptor α (TRα) and result in anabolic responses during growth and development but catabolic effects in adulthood. These homeostatic responses to thyroid hormone are locally regulated in individual skeletal cell types by the relative activities of the type 2 and 3 iodothyronine deiodinases, which control the supply of the active thyroid hormone 3,5,3’-L-triiodothyronine (T3) to its receptor.

General Significance

Population studies indicate that both thyroid hormone deficiency and excess are associated with an increased risk of fracture. Understanding the cellular and molecular basis of T3 action in skeletal cells will lead to the identification of new targets to regulate bone turnover and mineralization in the prevention and treatment of osteoporosis. This article is part of a Special Issue entitled Thyroid hormone signaling.     

Isolated ACTH deficiency associated with transient thyrotoxicosis and hyperprolactinemia

A 43-year-old woman with isolated ACTH deficiency in association with transient thyrotoxicosis is reported. The initial evaluation revealed that plasma ACTH and cortisol did not respond to corticotropin-releasing hormone (CRH) in the presence of hyperthyroxinemia and hyperprolactinemia. During the replacement therapy with dexamethasone, she developed transient hypothyroxinemia with persistent hyperprolactinemia. Although thyroid open biopsy did not show any evidence of autoimmune thyroiditis or subacute thyroiditis, the data appear to provide other evidence of a possible relationship between acute adrenal insufficiency and transient thyroid dysfunction.     

Evaluation ofKluyveromyces marxianus for the production of lactase simultaneously to pectinase or inulinase

Summary Five strains ofK. marxianus were evaluated for the production of intracellular lactase, intra and extracellular pectinase and intra and extracellular inulinase. The strain NRRL-Y-1109 showed the highest lactase activity, but the strain CDBB-L-278 produced notably higher activities of inulinase and pectinase than the rest of the strains tested. The strain CDBB-L-278 was selected for the simultaneous production of two enzymes. Two enzymes fermentations were achieved with productions of 44% lactase and 53% pectinase, or 26% lactase and 47% inulinase compared to the single enzyme levels.     

The effects of ACTH and dexamethasone upon plasma thyroid hormone levels and heat production in the domestic fowl

Treatment with long acting ACTH (20 IU kg-1) produces a large and sustained elevation of plasma corticosterone in the domestic fowl. Both ACTH treatment and administration of dexamethasone produce significant reductions in plasma concentrations of T4 and T3, and these changes are accompanied by a sustained hyperglycaemia. Despite the changes in circulating thyroid hormones only a small reduction in heat production (-14%) was induced by either treatment and mainly during the dark period. Whilst there may be some causal relationship between increased corticosterone secretion, decreased plasma thyroid hormone levels and reduced metabolic heat production it is unlikely that these responses alone account for the adjustments in energy expenditure observed in short term food deprivation.     

Thyroid hormone and DNA binding properties of a mutant c-erbA beta receptor associated with generalized thyroid hormone resistance

We have previously reported a family, Kindred A, with autosomal dominant generalized thyroid hormone resistance in which affected members were found to have a mutation in the carboxy-terminal domain of the c-erbA beta thyroid hormone receptor. In the current study, the thyroid hormone and DNA-binding properties of this mutant receptor were determined using c-erbA beta protein synthesized in vitro. Both the wild-type human placental c-erbA beta and Kindred A receptors bound [125I]-triiodothyronine, although the Kindred A receptor had decreased affinity for the hormone. The affinity for triiodothyronine was 4.5 x 10(9) M-1 and 2.3 x 10(10) M-1 for the mutant and wild-type receptors, respectively. No abnormality of DNA-binding was detected with the Kindred A receptor using a sensitive avidin-biotin DNA-binding assay with DNA fragments containing thyroid hormone response elements. The Kindred A mutant receptor which displays abnormal triiodothyronine-binding but normal DNA-binding activities in vitro acts as a dominant negative inhibitor of thyroid hormone action in man.