Comparison of the biopotency of corticosterone and dexamethasone acetate in glucocorticoid receptor down regulation in rat liver

The effects of long treatment with dexamethasone 21-acetate and corticosterone on the glucocorticoid receptor in rat liver cytosol were compared. Dexamethasone acetate (5 micrograms/ml or 10 micrograms/ml water) or corticosterone (100 micrograms/ml water) was given to adrenalectomized animals as drinking solution for 6 days, and glucocorticoid receptor concentration was determined at 0, 12, 24, 48 and 72 h after steroid withdrawal. Dexamethasone acetate caused a dose dependent depletion of cytosol receptor. There was no measurable binding at time 0; the values of Bmax for the glucocorticoid receptor with decreased at 12, 24 and 48 h after the steroid withdrawal. Increased dissociation constant (Kd) were calculated for 12 and 24 h samples. The effect of corticosterone on receptor depletion was less pronounced. Bmax for the receptor was decreased at 0, 12, 24 h after steroid withdrawal with no change in Kd. The extent of steroids-induced receptor depletion showed good correlation with the induction of tyrosine aminotransferase (TAT), however, maximum TAT activity measured immediately after withdrawal of dexamethasone acetate was lower than that found after a single injection of dexamethasone acetate. We conclude that both steroids cause down regulation of the glucocorticoid receptor in rat liver cytosol, with both the extent and the duration of depletion being dependent on the biopotency of the glucocorticoid.     

The responses of rat liver glucocorticoid receptors and genes for tyrosine aminotransferase, alpha-2-macroglobulin and gamma-fibrinogen to adrenalectomy-, dexamethasone- and inflammation-induced changes in the levels of glucocorticoids and proinflammatory cytokines

The responses of liver glucocorticoid receptor (GR) and genes coding for a glucocorticoid-inducible tyrosine aminotransferase (TAT) and two acute-phase proteins (APP) [alpha2-macroglobulin (alpha2-M) and gamma-fibrinogen (Fb)] to changes in glucocorticoid (GC) and proinflammatory (AP) cytokine contents have been examined in rats after single or combined treatments with turpentine oil, dexamethasone (Dex) and adrenalectomy. Activation of two APP genes in turpentine-induced inflammation was accompanied by an increase in the level of GR mRNA and a preferential translocation of GR-GC complexes to the nucleoplasm, while the expression of TAT remained unaltered. Dex alone caused a decrease in the levels of GR and Fb mRNAs, activation of TAT and alpha2-M genes, a decrease in the affinity of hormone binding sites and redistribution of translocated GR-Dex complexes within the nuclei. Inflammation potentiated the effect which Dex alone exerted on the GR content and the number of GR binding sites but counteracted its influence on the affinity of GR binding sites and nuclear distribution of GR-Dex complexes. Adrenalectomy promoted a fall in TAT mRNA, no changes in the GR and Fb mRNA, a decrease in the affinity of GR hormone binding sites and redistribution of GR-hormone complexes within the nuclei. The AP cytokines released in response to inflammation exerted a counteracting effect on the adrenalectomy-induced changes in the affinity of hormone binding sites and nuclear distribution of GR-hormone complexes. They potentiated a fall of TAT mRNA but promoted full expression of the Fb gene. These results argue strongly for the influence of AP cytokines on the functional state of the GR and GC signaling pathways.     

Duration of antagonizing effect of RU486 on the agonist induction of tyrosine aminotransferase via glucocorticoid receptor

The duration of the antagonizing activity of RU486 on tyrosine aminotransferase (TAT) induction and the glucocorticoid receptor in rat liver was studied. A single dose of RU486 (10 mg/kg) caused occupation of the cytosol glucocorticoid receptor in rat liver at 1h. During this time no nuclear binding of [³H]dexamethasone ([³H]Dex) receptor complex was recorded, and TAT induction was completely blocked. TAT inducibility recovery parallelled receptor binding in both the cytosol and the nuclei, reaching maximum at 12 h. In contrast, nuclear binding recovered in 24 h, and [³H]Dex receptor binding in cytosol 48 h after RU486 application. It is concluded that the inhibitory effect of a single dose of RU486 on TAT induction is of rather short duration. At concomitant presence of agonist and antagonist in vivo, no direct correlation between agonist receptor occupancy and TAT induction could be observed.     

Effects of prenatal dexamethasone on spatial learning and response to stress is influenced by maternal factors

The present study investigated the effect of prenatal dexamethasone (Dex) exposure on early perinatal events, hippocampal function, and response to stress. Pregnant rats received Dex in the evening water (2.5 microg/ml) or tap water (Veh) from gestational day 15 until delivery. On the day of parturition, pups were randomized, cross-fostered, and reduced to eight or nine per dam. Four groups resulted: Veh-Veh (offspring exposed to Veh in utero, rearing mother treated with Veh during gestation), Veh-Dex, Dex-Veh, and Dex-Dex. Spatial visual memory was evaluated with the Morris water maze. The corticosterone response to restraint stress was examined, and the expression of hippocampal glucocorticoid and mineralocorticoid receptors mRNA was determined by in situ hybridization. Exposure to Dex caused restlessness in mothers, low birth weights, and poor weight gain in the offspring. The Dex-Dex males had impaired spatial learning, inability to rapidly terminate the adrenocortical response to stress, and decreased hippocampal glucocorticoid receptor (GR) mRNA expression. In contrast, Dex-exposed animals reared by Veh-treated mothers had adequate spatial learning, enhanced glucocorticoid feedback, and increased hippocampal GR mRNA. We conclude that the environment provided by a healthy mother during the postnatal period can prevent the detrimental effects of prenatal Dex administration on cognition, GR mRNA expression of the hippocampus, and the quality of the stress response.     

Glucocorticoid receptor-Hsp90 interaction in the liver cytosol of cadmium-intoxicated rats

The influence of cadmium on the rat liver glucocorticoid receptor (GR) binding capacity, on the cytosolic level of 90 kDa heat shock protein (Hsp90), and on the association of the two proteins was investigated. The results showed that the mode of metal application led to diverse alterations in hormone binding to the GR. Reduction of the GR binding capacity observed afterin vitro treatment was proportional to the applied metal concentrations. In animals administered different doses of cadmium, GR binding capacity was not reduced, except in those that received the highest dose. A concomitant elevation of Hsp90 level was detected both in the cytosol and within the GR untransformed heterocomplexes. The results suggest that cadmium-induced reduction of the GR binding capacity seenin vitro was prevented in intact animals by the elevated level of Hsp90 within the GR heterocomplexes. This revised version was published online in July 2006 with corrections to the Cover Date.     

Hyperthermic stress modulates the functions of rat liver glucocorticoid receptor

A mild whole body hyperthermic stress causes a rapid and reversible reduction of rat liver glucocorticoid receptor (GR) binding capacity and affects the stability of the GR-DNA complexes formed after thermal transformation of the receptor. These changes appear to be physiologically relevant, since they are accompanied by a decrease in dexamethasone induction of hepatic tyrosine aminotransferase (TAT). In spite of the decreased rate of the GR degradation in liver cytosol of hyperthermic as compared to control rats, the total amount of the GR and its proteolytic products recognized by BuGR2 monoclonal antibody was found to be lower in the former cytosol, but higher in the respective nuclei.     

Regulatory effects of growth hormone, glucocorticoids, and thyroid hormone on the estrogen receptor level in the rat liver.

The multihormonal regulation of the estrogen receptor in the liver of female rats was studied under in vivo conditions. The steroid receptor level was assayed by hormone binding and specific mRNA analyzed by solution hybridization using a 35S-labeled RNA probe complementary to the ligand-binding domain of the estrogen receptor gene. Serum growth hormone levels were measured and correlated to the effects of glucocorticoid and thyroid hormone administration on the estrogen receptor expression. In animals subjected to adrenalectomy plus thyroidectomy, the estrogen receptor concentration was reduced from 59 fmol/mg cytosol protein to 10 fmol/mg protein (i.e., with 87% relative to control animals). Adrenalectomy or thyroidectomy alone caused a decrease with 14% and 66%, respectively. Substitution with 10 micrograms betamethasone and 1 microgram triiodothyronine daily for 9 days completely restored the receptor content to control levels. Substitution with either hormone alone increased, but only partially restored receptor levels. The effect of betamethasone alone was dose dependent from 10 micrograms/d to 100 micrograms/d. This dose dependence was not seen when the animal simultaneously received 1 microgram of triiodothyronine. Superphysiologic doses of triiodothyronine did not raise estrogen receptor levels above those seen in animals treated with physiologic doses. High doses of triiodothyronine (greater than 20 micrograms/d) decreased serum growth hormone levels. The estrogen receptor mRNA levels in livers from hypophysectomized animals were increased after treatment with growth hormone (2.5-fold), thyroid hormone (two-fold), and glucocorticoids (1.5-fold). The results obtained indicate a very complex regulation of liver estrogen receptor.(ABSTRACT TRUNCATED AT 250 WORDS)     

Differential dynamics of receptor down-regulation and tyrosine aminotransferase induction following glucocorticoid treatment

Autoregulation of glucocorticoid receptor (GR) concentration in vivo may be an important determinant of steroid sensitivity. The dynamics of GR regulation were assessed and compared to regulation of tyrosine aminotransferase (TAT) expression in liver tissue taken from rats treated with a single 50 mg/kg i.v. dose of methylprednisolone. Plasma methylprednisolone concentrations were determined by HPLC analysis. Receptor and TAT message levels were determined by quantitative Northern hybridization. Methylprednisolone plasma kinetics showed a half-life of 0.6 h. Receptor occupancy occurred rapidly and cytosolic GR reappeared over 2–12 h. TAT activity rose between 2 and 6 h and then dissipated. Reduction in receptor mRNA levels occurred very rapidly, being detectable by 30 min following steroid administration. A down-regulated steady-state in GR message expression was reached by 2 h post-injection, and was maintained throughout the 18 h examined in this study. Comparison of methylprednisolone kinetics demonstrated that down-regulation was maintained long after drug was eliminated. In contrast, TAT message induction occurred with a sharp peak; maximal induction occurred between 5–6 h and return to baseline at approx. 8–10 h post-induction. This study shows that unlike TAT induction, GR message repression in vivo does not require continual presence of hormone.     

Insulin modulates rat liver glucocorticoid receptor

This investigation used cytosol fraction of rat liver to examine the effects of insulin (INS) on functional properties of glucocorticoid receptor (GR). Male Wistar rats (220-250 g b.wt.) were injected with INS (50 microg/200 g b.wt, i.p.) and 18 h after INS administration used for experiments. INS-stimulated dissociation of G-R complexes was significantly increased by 133% compared to control level. However, INS treatment significantly stimulated stability of GR protein by 138% above control value. Furthermore, results show that INS stimulated activation of formed cytosol [3H] TA-R complexes by 143% in respect to control. [3H]TA-R complexes from INS treated animals could be activated and accumulated at higher rate in cell nuclei of control animals. The physiological relevance of the data was confirmed by INS-related stimulation of Tryptophan oxigenase (TO) activity. It was observed that INS stimulated TO activity while INS injected to adrenalectomized rats, exhibited less effects compared to control. The results indicate that a glucocorticoid hormone (CORT) enhances INS induced stimulation of TO activity, as evidenced by enhanced enzyme activity. Presented data suggest: that INS treatment leads to modifications of the GR protein and the nuclear components and that INS activates the rat liver CORT signaling pathway which mediates, in part, the activity of TO.     

Compared intracellular localization of the glucocorticosteroid and progesterone receptors: an immunocytochemical study

The intracellular distribution of the glucocorticosteroid and progesterone receptors (GR and PR, respectively) was studied immunohistochemically. In control adrenalectomized (Adx) rat liver, immunostaining of paraffin sections revealed GR in cell nuclei, with a wide range of intensity between individuals. Following dexamethasone (Dex) treatment, the nuclear staining was uniformly high in all animals; the cytoplasmic staining was always weak and remained unchanged after Dex treatment. In frozen sections, the GR immunoreactivity in cell nuclei was weak in the absence and very strong in the presence of Dex, while no GR-specific cytoplasmic staining was observed. In frozen sections fixed in vapor of formaldehyde to avoid any artifactual redistribution of the receptor, some GR immunostaining was observed in the cytoplasm and the nucleus. In contrast, in paraffin as well as in frozen sections of chick oviduct, fixed by immersion or in vapor, PR was exclusively nuclear, including in the absence of progesterone, and the intensity of immunostaining was not modified by progesterone treatment. In order to verify if loss of nuclear receptors during tissue preparation could explain the differences in nuclear immunostaining observed between hormone-free and hormone-occupied GR, and between GR and PR, frozen sections of Adx rat liver and chick oviduct were preincubated at 4 degrees C in buffer solutions before the fixation procedure. It was found that hormone-free GR diffused out of the nucleus faster than hormone-occupied GR nuclei, and that nuclear GR diffused faster than nuclear PR. Based on these results, we propose that, during the fixation procedure, the fraction of nuclear GR which diffuses out of the nucleus is much smaller in the presence than in the absence of Dex. This lesser loss of nuclear GR after Dex treatment results in an increase of immunostaining after hormonal administration, which might have been erroneously interpreted as a sign of translocation from cytoplasm to nucleus. That the nuclear PR detection is not modified by progesterone treatment may be explained by its reduced diffusibility as compared to nuclear GR. This hypothesis does not rule out the existence of some cytoplasmic GR, whose significance remains unclear, but it offers a unified mechanism of action for all steroid hormone receptors. In the case of glucocorticosteroids, as already proposed for estradiol and progesterone, no step of cytoplasm to nucleus translocation would be required for hormone action, and transformation-activation would occur in the nucleus, resulting in tighter binding of the hormone receptor complexes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Dexamethasone regulation of cFos mRNA in osteoprogenitors

The glucocorticoid, dexamethasone (Dex), has a beneficial effect on osteogenesis by increasing the activation and differentiation of osteoblastic cells. We investigated the effect of Dex on osteoblasts and detected changes in pattern of expression of cFos mRNA. cFos is an early response gene that is expressed as unspliced and spliced mRNAs. We analyzed the regulation of cFos mRNA in correlation with the cell proliferation status and following the induction by Dex. Treatment of osteoblastic cells with Dex for 30 min resulted in elevated levels of spliced form of cFos mRNA, which was maintained with extended treatment of cultured cells for 24 h. In addition, we demonstrated interaction between glucocorticoid receptor (GR) and cFos mRNA. This study provides evidence for the action of Dex on osteoblasts through dynamic cell responses involving with cFos.     

Dexamethasone treatment affects nuclear glucocorticoid receptor and glucocorticoid response element binding activity in liver of rats (Rattus norvegicus) during aging

Aging is associated with marked changes in the biochemical processes of many organs. Basal and glucocorticoid induced of liver nuclear glucocorticoid receptor (GR) on the level of protein expression and DNA-binding activity were investigated at different ages (3, 6, 12, 18 and 24 months old) in two groups of rats in: untreated and dexamethasone treated. The results showed a significant decline of GR protein immunopurified from untreated rats of advanced age. In dexamethasone-treated rats, the quantity of GR protein was lower than in controls at all ages. The interactions of liver nuclear proteins with radioactively labelled synthetic oligonucleotide analogue containing consensus GRE sequence were analysed during aging. The results showed that GRE binding activity demonstrated a decrease both in untreated and in dexamethasone treated rats. However, relative to untreated rats, dexamethasone treatment resulted in a significant increase in GRE binding at all ages, except that of three months old animals. In conclusion, the observed alterations in GR protein expression and its DNA binding activity may play a role in the changes of the cell response to glucocorticoid during aging.