The effect of glucocorticoids on adipocyte corticotropin receptors and adipocyte responses

A specific and sensitive assay for determining the binding of adrenocorticotropin (ACTH) to isolated rat adipocytes has been developed and utilized to study the effect of glucocorticoids on ACTH receptor. Measurement of the binding of tritiated ACTH (spec. act. 90 Ci/mmol) to adipocytes isolated from normal, adrenalectomized, and adrenalectomized dexamethasone-treated rats indicated that there are no differences among these three populations in either the magnitude or the affinity of the binding reaction. The binding interaction was found to be of high affinity (K_d = 5.23 + 1.92 · 10^?9 M) and paralleled closely the stimulation of lipolysis (K_m = 2.09 ± 0.35 · 10^?9 M). About 16 300 receptors were calculated to be present per adipocyte. Hormone-induced cyclic 3′,5′-adenosine monophosphate production remained intact after adrenalectomy, thereby confirming that receptors are not lost during steroid deprivation. The lipolytic response did, however, become less sensitive to both ACTH and epinephrine following adrenalectomy. Pre-treatment of adrenalectomized rats with dexamethasone resulted in an increase in basal and hormone-stimulated levels of cyclic AMP and glycerol production to super-normal values. In adipocyte ghost preparations, ACTH and epinephrine sensitive adenylate cyclase activity was not decreased by adrenalectomy and dexamethasone administration did not result in a selective enhancement of ACTH sensitive adenylate cyclase activity. Our results indicate that glucocorticoids do not cause their permissive effects by specific regulation of the ACTH receptor on the adipocyte.     

Inactivation of hepatic glucocorticoid receptors by heparin

Heparin dramatically enhanced the rate of unbound glucocorticoid receptor inactivation in vitro in a concentration, time and temperature-dependent manner. Control specific binding decreased only about 25% after incubation for 6 h at 4°C. However in the presence of heparin (40 μg per ml cytosol) receptor binding decreased about 75%. At 25°C liver receptor specific binding was found to have a half0life of about 60 min in control cytosol. However, in the presence of heparin (40 μg per ml cytosol) the glucocorticoid receptor had a half-life of only 15 min at 25°C. Interestingly, 10 mM molybdate (with or without 5 mM dithiothreitol) greatly inhibited heparin-dependent receptor inactivation at 4°C. Dithiothreitol (alone) significantly stabilized receptor binding in control samples at 4°C, but provided no protection from heparin-dependent receptor inactivation. Heparin had no apparent inactivating effect on prebound glucocorticoid receptor complexes at 4°C. Interestingly however, heparin altered the sedimentation coefficient of prebound hepatic glucococorticoid-receptor complexes in low salt gradients from 7–8 S to about 3–4 S. When molybdate plus dithiothreitol were added with heparin, the sedimentation coefficient was found to be approx. 6—7 S. These results demonstrate that heparin, which is often used pharmacologically and which occurs naturally in animal tissues, has significant effects on liver glucocorticoid receptors in vitro.     

Effects of a high-salt diet on adipocyte glucocorticoid receptor and 11-β hydroxysteroid dehydrogenase 1 in salt-sensitive hypertensive rats

High-salt diets decrease insulin sensitivity in salt-sensitive hypertensive rats, and glucocorticoids promote adipocyte growth and may have pathophysiological roles in the metabolic syndrome. The aim of this study was to clarify the relationship between high-salt diet and the adipocyte glucocorticoid hormones in salt-sensitive hypertensive rats. Six-week-old Dahl salt-sensitive (DS) hypertensive rats and salt-resistant (DR) rats were fed a high-salt diet or a normal-salt diet for 4 weeks. Fasting blood glucose (FBG), serum adiponectin, plasma insulin, and corticosterone in plasma and in visceral adipose tissues, 11β-hydroxysteroid dehydrogenase 1 (11β-HSD1) activities in adipose tissues and glucose uptake in isolated muscle were measured. Animals underwent an oral glucose tolerance test (OGTT). The expression of mRNA for glucocorticoid receptor (GR), 11β-HSD1 and tumor necrosis factor-α (TNF-α) in adipose tissues were measured using a real-time PCR. A high-salt diet did not influence FBG; however, decreased 2-deoxy glucose uptake and plasma insulin during OGTT in DS rats. The high-salt diet increased significantly adipose tissue corticosterone concentration and 11β-HSD1 activities, gene expression for GR, 11β-HSD1 and TNF-α in adipose tissues in DS rats compared with DR rats (p < 0.05). The high-salt diet did not influence plasma corticosterone and serum adiponectin concentration in DS and DR rats. These results suggest that changes in GR and 11β-HSD1 in adipose tissue may contribute to insulin sensitivity in salt-sensitive hypertensive rats.     

In vitro biosynthesis of the C-glycosidic bond in aloin

Biosynthetic studies with cell-free extracts from Aloe arborescens Mill. demonstrate the transfer of the glucose moiety from UDP-glucose to aloe emodin anthrone, forming the C-glycosidic linkage in the anthracene derivative aloin. The pH-dependence and the specificity of UDP-glucose and aloe emodin anthrone for the biosynthesis of the C-glycosidic bond in aloin are shown.Abbreviations ADP-Glc adenosine-5-diphosphate glucose - AEA aloe emodin anthrone (1,8-dihydroxy-3-(hydroxymethyl)-9(10 H)-anthracenone) - CoASAc acetyl coenzyme A - GDP-Glc guanosine-5-diphosphate glucose - Glc glucose - Glc-1-P glucose-1-phosphate - HPLC high performance liquid chromatography - TLC thin layer chromatography - UDP-Gal uridine-5-diphosphate galactose - UDP-Glc uridine-5-diphosphate glucose     

Synthesis of novel arylpyrazolo corticosteroids as potential ligands for imaging brain glucocorticoid receptors

Corticosteroids regulate a variety of essential physiological functions, such as mineral balance and stress. The great interest in these steroids, especially the glucocorticoids, stems from roles they are thought to play in neuropsychiatric disorders, such as severe depression and anxiety.The development of glucocorticoid receptor (GR) ligands which are appropriately labeled with short-lived positron-emitting radioisotopes would allow the non-invasive in-vivo imaging and mapping of brain GRs by means of positron emission tomography (PET). In this context we have synthesized a series of novel arylpyrazolo steroids exhibiting different substitution patterns at the D-ring of the steroid skeleton, as ligands for brain GRs. Special attention was given to 4-fluorophenyl pyrazolo steroids, which are known to display high binding affinity toward the GR. The compounds were evaluated in a competitive radiometric receptor binding assay to determine their relative binding affinities (RBA) to the GR. Some compounds show good binding affinities of up to 56% in comparison to dexamethasone (100%). In initial experiments, selected candidates were labeled with the positron emitter fluorine-18 and in one case with the gamma-emitter iodine-131.     

Identification and characterization of glucocorticoid receptors in liver of nude mice

Glucocorticoids regulate the expression of many liver-specific genes via glucocorticoid receptors. The presence of glucocorticoid receptors in liver has been reported in many mammalian species but not in nude mice. In the present study, we demonstrate the presence of specific glucocorticoid receptors in nude mouse liver. The binding of ligands to these receptors could be completely inhibited by RU486, and partially blocked by hydrocortisone and progesterone, whereas estrogen and testosterone had no effect. Hydrocortisone down-regulated the level of glucocorticoid receptors in livers of nude mice and correspondingly enhanced the activities of tyrosine aminotransferase and -glutamyltransferase. Our results indicate that glucocorticoid receptors in nude mouse liver are specific, fully functional, and present at levels 28.5-fold higher than in the liver of normal inbred mice. We suggest that the nude mouse is a valuable model for studies of hepatic glucocorticoid action and may provide a clue to a putative hepatic-thymic interaction.     

Glucocorticoid hormone receptors in rat pancreas

Although glucocorticoiods influence pancreatic function, it has not been established whether they act directly at the level of the pancreas, or indirectly by causing metabolic changes in other target tissues. As a step in elucidating the actions of glucocorticoids on the pancreas, a search was conducted for glucocorticoid hormone receptors in this tissue. Uptake and binding studies indicated that there were glucocorticoid hormone receptors in the high-speed cytosolic extract of rat pancreas. These receptors appear to be similar to other rat glucocorticoid receptors: they bind glucocorticoids rapidly in a reversible manner at 0°C, competitive binding analysis studies show that they have a preference for glucocorticoids and, like receptors, bind the synthetic steroids triamcinolone acetonide and dexamethasone with a higher affinity than corticosterone. Scatchard analysis demonstrated that there are 1.37 · 10^?13 mol glucocorticoid-binding sites/mg cytosolic protein. This demonstration of a glucocorticoid hormone receptor in pancreatic cytosol suggests that some of the effects glucocorticoids exert on pancreatic function are a consequence of their direct actions on this target tissue.     

The composition and fluidity of adipocyte membranes prepared from young and adult rats

Membranes from adipocytes of adult and young rats have been compared. Phospholipid fatty acids from adult rats were more saturated than those from young rats. This difference was associated with a decreased fluidity in the membranes of the adult rats, which was inferred from measurements of fluorescence polarisation of the fluorescent probe, 1,6-diphenylhexa-1,3,5-triene.     

Cytokines and glucocorticoid receptors are associated with the antidepressant-like effect of alarin

Little is known about the physiological or pharmacological properties of alarin, a new neuropeptide belonging to the galanin family. We previously showed that alarin has an antidepressant-like effect and is associated with a decrease in the hyperactivity of hypothalamic–pituitary–adrenal (HPA) axis that is observed in patients with depression using unpredictable chronic mild stress (UCMS) mouse model of depression. However, the mechanisms underlying these effects have not been uncovered. Inflammatory cytokines are reportedly associated with depression. Animal studies and cytokine immune therapy in humans suggest that pro-inflammatory cytokines induce depressive symptomatology and potently activate the HPA axis, whereas anti-inflammatory cytokines may decrease activation. Thus, we first determined the levels of inflammatory cytokines in the blood and brain to evaluate whether the antidepressant-like effect of alarin in UCMS-treated mice is related to its regulation of these inflammatory cytokines. Pro-inflammatory cytokines disrupt the function and/or expression of glucocorticoid receptors (GRs), which mediate the negative feedback of glucocorticoids on the HPA axis to keep it from being overactivated. We next explored the expression level of GRs in the brains of mice subjected to UCMS and to the administration of alarin. We found that intracerebroventricular administration of alarin significantly ameliorated depression-like behaviors in the UCMS-treated mice. Alarin restored the UCMS-induced an increase in the levels of the pro-inflammatory cytokines interleukin (IL)-6 and tumor necrosis factor α and a decrease in the anti-inflammatory cytokine IL-10 level in the blood, prefrontal cortex, hippocampus and hypothalamus. Alarin also reversed the UCMS-induced down-regulation of GR expression in these brain regions. Thus, the antidepressant-like effects of alarin may be mediated by restoring altered pro-inflammatory and anti-inflammatory cytokine levels and GR expression to decrease HPA axis hyperactivity. Our findings provide additional knowledge to interpret the pathophysiology of depression.     

Nonactivated and activated glucocorticoid receptor complexes from human salivary gland adenocarcinoma cell line

[³H]Triamcinolone acetonide glucocorticoid receptor complexes from human salivary gland adenocarcinoma cells (HSG cells) were shown to be activated with an accompanying decrease in molecular weight in intact cells, as analyzed by gel filtration, DEAE chromatography, the mini-column method and glycerol gradient centrifugation. Glucocorticoid receptor complexes consist of steroid-binding protein (or glucocorticoid receptor) and non-steroid-binding factors such as the heat-shock protein of molecular weight 90 000. To determine whether the steroid-binding protein decreases in molecular weight upon activation, affinity labeling of glucocorticoid receptor in intact cells by incubation with [³H]dexamethasone 21-mesylate, which forms a covalent complex with glucocorticoid receptor, was performed. Analysis by gel filtration and a mini-column method indicated that [³H]dexamethasone 21-mesylate-labeled receptor complexes can be activated under culture conditions at 37°C. SDS-polyacrylamide gel electrophoresis of [³H]dexamethasone 21-mesylate-labeled steroid-binding protein resolved only one specific 92 kDa form. Furthermore, only one specific band at 92 kDa was detected in the nuclear fraction which was extracted from the cells incubated at 37°C. These results suggest that there is no change in the molecular weight of steroid-binding protein of HSG cell glucocorticoid receptor complexes upon activation and that the molecular weight of nuclear-binding receptor does not change, although the molecular weight of activated glucocorticoid receptor complexes does decrease. Triamcinolone acetonide induced an inhibitory effect on DNA synthesis in HSG cells. Dexamethasone 21-mesylate exerted no such effect and blocked the action of triamcinolone acetonide on DNA synthesis. These results suggests that dexamethasone 21-mesylate acts as antagonist of glucocorticoid in HSG cells. The fact that dexamethasone 21-mesylate-labeled receptor complexes could be activated and could bind to DNA or nuclei aas well as triamcinolone acetonide-labeled complexes suggests that dexamethasone 21-mesylate-labeled complexes can not induce specific gene expression after their binding to DNA.     

Isolation and characterization of rat liver nuclear glucocorticoid receptor

The rat liver nuclear glucocorticoid receptor has a molecular weight of 90 000. Using antibody bound to the stationary matrix, the cytosol and nuclear glucocorticoid receptors from rat liver were purified. The translocation of glucocorticoid receptor from rat liver cytosol into the nucleus was studied using immunoaffinity chromatography. Immediately after the intraperitoneal injection of rats with the hormone, the receptor translocation started and was complete within 10 min. The 90 000 dalton nuclear receptor component is identical to the 90 000 dalton cytosol component. They have identical molecular weights in the same gel electrophoresis system and produce identical peptide fragments after digestion with Staphyolococcal aureus V8 protease. The receptor component enriched by immunoaffinity chromatography from cytosol of adrenalectomised rats contained mainly a 45 000 dalton component.     

Cytosol induces apparent selectivity of glucocorticoid receptor binding to nucleic acids of different secondary structure

Unpurified rat liver glucocorticoid-receptor complexes within cytosol show a distinct binding preference for double-stranded DNA over single-stranded DNA; the binding to Escherichia coli rRNA is negligible. Extensive purification of the receptor abolishes its ability to distinguish among DNAs of different secondary structure and the affinity of the purified receptor toward RNA is greatly enhanced, reaching 30–50% of that of DNA. The purification effect is reversible: after cytosol addition to purified receptor preparation the binding preference restores. NaCl does not mimic the effect of cytosol. The flow-through fraction of a phosphocellulose column retains the ability of crude cytosol to produce selective decrease in the receptor binding to single-stranded DNA. This effect may also be observed by using two types of DNA-cellulose bearing double-stranded or denatured DNA, pretreated with crude cytosol. Additionally, pretreatment of immobilized DNA with even low cytosol concentrations has been shown to markedly enhance receptor binding, although this enhancement was lacking specificity with respect to DNA secondary structure. The nature of cytosolic active principle and some possible regulatory implications are discussed.     

In vitro modulatory effects of functionalized pyrimidines and piperidine derivatives on Aryl hydrocarbon receptor (AhR) and glucocorticoid receptor (GR) activities

The development of biologically active molecules based on molecular recognition is an attractive and challenging task in medicinal chemistry and the molecules that can activate/deactivate certain receptors are of great medical interest. In this contribution, selected pyrimidine/piperidine derivatives were synthesized and tested for the ability to activate/deactivate Aryl hydrocarbon receptor (AhR) and Glucocorticoid receptor (GR). Tested compounds are shown to activate the receptors but to much lesser extent than positive controls, dioxin and dexamethasone for Ahr and GR, respectively. However, some of them antagonized the positive controls action. Although further in vivo studies are needed to fully characterize the bioactivities of these compounds, the reported in vitro evidences demonstrate that they might be used as the modulators of AhR and GR activities.