UNIPROT:P01189 - FACTA Search

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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have recently shown that susceptibility to streptococcal cell wall (SCW)-induced arthritis in Lewis (LEW/N) rats is related to a lack of glucocorticoid restraint of inflammation while the relative SCW arthritis resistance in histocompatible Fischer (F344/N) rats is related to their greater hypothalamic-pituitary-adrenal (HPA) axis response. The difference in pituitary-adrenal responsiveness results from decreased inflammatory mediator-induced hypothalamic corticotropin-releasing hormone (CRH) biosynthesis and secretion in LEW/N rats. Because CRH not only activates the pituitary-adrenal axis, but also is associated with behavioral responses that are adaptive during stressful situations, we wished to determine if the differential LEW/N and F344/N CRH responsiveness to inflammatory mediators could also be associated with differences in neuroendocrine and behavioral responses to physical and emotional stressors. In this study, LEW/N rats exhibited significant differences compared to F344/N rats, in plasma adrenocorticotropin hormone (ACTH) and corticosterone responses during exposure to an open field, swim stress, restraint or ether. Furthermore, hypothalamic paraventricular CRH mRNA expression was also significantly lower in LEW/N compared to F344/N rats after restraint. These differences in neuroendocrine responses were associated with differences in behavioral responses in LEW/N compared to F344/N rats in the open field. Outbred HSD rats, which have intermediate and overlapping arthritis susceptibility compared to LEW/N and F344/N rats, exhibited intermediate and overlapping plasma corticosterone and behavioral responses to stressful stimuli compared to the two inbred strains. These data suggest that the differences in CRH responses in these strains may contribute to the behavioral and neuroendocrine differences we have observed. Therefore these strains may provide a useful animal model for studying the relationship between behavior, neuroendocrine and inflammatory responses.
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PMID:Corticotropin releasing hormone related behavioral and neuroendocrine responses to stress in Lewis and Fischer rats. 131 94

Expression of genes encoding pro-opiomelanocortin (POMC), glucocorticoid receptors and 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) was studied in sheep fetuses during development. POMC mRNA was present in the anterior pituitary by day 60 of gestation (term approximately 145 days), and its relative amount did not change significantly until after days 125-130. The amount of POMC mRNA in the pituitary increased significantly at days 138-143, remained high at term and increased further in newborn lambs. In contrast, POMC mRNA could not be detected in the hypothalamus and adrenal glands of fetuses at all ages studied. These results suggest that the prepartum rise in plasma adrenocorticotrophin (ACTH) concentrations in sheep fetuses is due to increased expression of POMC gene in the pituitary. The number of glucocorticoid receptors, but not the amount of glucocorticoid receptor mRNA changed significantly with gestational age in the hypothalamus, anterior pituitary and adrenal glands of the fetus. Changes in glucocorticoid receptor content of fetal tissues may reflect alterations in translation of glucocorticoid receptor mRNA, subsequent modifications, or glucocorticoid receptor turnover or a combination of these factors. However, in newborn lambs, amounts of glucocorticoid receptor mRNA increased significantly in the hypothalamus and pituitary but decreased to undetectable amounts in the adrenal glands, indicating that tissue-specific factors may influence expression of glucocorticoid receptor gene in neonatal sheep. The interconversion of cortisol and cortisone requires 11 beta-HSD. Since cortisone is biologically inactive, 11 beta-HSD may regulate the activity of intracellular cortisol. We cloned and sequenced a cDNA encoding sheep 11 beta-HSD. By northern blot analysis, this cDNA detected a single 1.8 kb transcript in the fetal and adult sheep liver, lung, hypothalamus, anterior pituitary and placenta. This could not be detected in the adrenal glands and kidneys, but a smaller (1.5 kb) transcript was present in the fetal and adult kidneys. During fetal development, the relative amount of 11 beta-HSD mRNA did not change significantly in the kidney and lung, but increased in lungs from newborn lambs. In contrast, amounts of hepatic 11 beta-HSD mRNA not only increased significantly in the fetus at term but also displayed a further increase in the newborn. These results clearly indicate that expression of ovine 11 beta-HSD gene in the fetus and newborn is regulated in a tissue-specific and developmentally programmed manner.
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PMID:Regulation of gene expression in the ovine fetus. 133 59

Previous studies indicated that acute exposure of adrenal cells to adrenocorticotropic hormone (ACTH) markedly stimulates steroidogenic capacity in vitro but also inhibits cell proliferation. However, in vivo, ACTH is known to stimulate adrenal cell growth. To address this discrepancy, we determined the effect of long-term (9-11 days) continuous or intermittent exposure to ACTH on human fetal adrenal cell proliferation and steroidogenesis. Adrenal glands from fetuses 18-22 wk gestation were studied. Fetal zone cells were plated either on plastic or on an extracellular matrix (ECM) in the presence and absence of basic fibroblast growth factor (bFGF) (0.5 ng/ml) and 1 or 10 nM ACTH. As determined by cell counting, bFGF stimulated cell proliferation during 9 days in culture. In the presence of bFGF, the average doubling time decreased from 44 to 30 h on plastic and from 37 to 26 h on ECM. Under these conditions, ACTH did not inhibit cell proliferation. Proliferation of fetal adrenal corticosteroid-producing cells in the ACTH-treated cultures also was assessed by histochemical staining for 3 beta-hydroxysteroid dehydrogenase (3 beta HSD). The number of positive cells increased more than 4-fold between Days 5 and 9 in culture. Continuous treatment with 1 nM ACTH increased dehydroepiandrosterone sulfate (DHAS) production 5- to 10-fold during the first 5 days in culture. Thereafter, the stimulated hormone production decreased over time, although there was still a difference of almost 100-fold between the control and ACTH-treated cultures at the end of 9 days.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Maintenance of cell proliferation and steroidogenesis in cultured human fetal adrenal cells chronically exposed to adrenocorticotropic hormone: rationalization of in vitro and in vivo findings. 216 Dec 62

RU486, a synthetic steroid receptor antagonist, has strong antiprogesterone and antiglucocorticoid properties. Chronic RU486 administration in two patients with ectopic secretion of adrenocorticotropin (ACTH) has been associated with decreasing plasma cortisol concentrations. One explanation of this finding is that RU486 may directly inhibit adrenal steroidogenesis. To test this hypothesis, we measured the effect of RU486 on specific steroidogenic enzymatic steps using an in vivo rat and an in vitro monkey model. Hypophysectomized-castrated-ACTH-replaced Sprague-Dawley rats were given RU486 i.p. at daily doses of 0, 0.0005, 0.005, 0.05, 0.5 and 5 mg/kg body weight per day for 7 days. The animals were sacrificed, and blood and adrenal glands collected. Adrenal cortical mitochondria and microsomes were purified from the rats and from two untreated Cynomolgus macaque monkeys. Specific steroidogenic enzyme activities were measured in the rat by the incorporation of 14C-labeled steroid substrates into products. A similar protocol was used to assay the steroidogenesis in the monkey adrenal fractions in the presence and absence of added RU486. Although rat adrenal weights decreased significantly at the highest RU486 dose, plasma levels of corticosterone were similar in control and treated rats. Rat adrenal 3 beta-hydroxysteroid dehydrogenase/isomerase (3-HSD), 21-hydroxylase (21-OH) and 11-hydroxylase (11-OH) activities decreased with increasing RU486 doses, with 21-OH and 11-OH being most severely affected. Monkey adrenal 3-HSD, 21-OH, 11-OH, 17-hydroxylase and 17,20-desmolase similarly decreased in the presence of increasing in vitro concentrations of RU486.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of the antiglucocorticoid RU486 on adrenal steroidogenic enzyme activity and steroidogenesis. 813 Aug 96

Apparent mineralocorticoid excess (AME) is a rare form of low renin hypertension caused by deficiency of 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD), the enzyme responsible for conversion of cortisol to the bio-inactive metabolite, cortisone. This results in prolonged cortisol half-life, activation of type I (mineralocorticoid) receptors by cortisol, sodium and fluid retention, and consequent childhood-onset hypertension. The cortisol secretion rate is low, perhaps due to cortisol's binding to type II (glucocorticoid) receptors and suppressing corticotropin secretion. Patients with AME thus lack stigmata of Cushing's syndrome. To evaluate any potential contribution of the type II (glucocorticoid) receptor to the development of hypertension in AME patients, we administered RU486, a steroid analogue that acts as a pure type II receptor blocker. Selective glucocorticoid receptor blockade did not decrease blood pressure in our patient; instead, a significant increase in average blood pressure was observed (125.1 +/- 1.7 pre-RU486 v 144.7 +/- 1.2 during RU486 treatment, P = .0001). We conclude that the type II receptor does not contribute to the development of hypertension in patients with AME.
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PMID:Investigation of the mechanism of hypertension in apparent mineralocorticoid excess. 839 54

In ectopic adrenocorticotropin (ACTH) syndrome (EAS) with higher ACTH levels than in pituitary Cushing's syndrome and during ACTH infusion, the ratio of cortisol to cortisone in plasma and urine is increased, suggesting inhibition of renal 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) by ACTH or by ACTH-dependent steroids. Measuring the conversion of cortisol to cortisone by human kidney slices under different conditions, we tested the possibility of 11 beta-HSD regulation by ACTH and corticosteroids. Slices prepared from unaffected parts of kidneys removed because of renal cell carcinoma were incubated with unlabeled or labeled cortisol, and cortisol and cortisone were quantitated after HPLC separation by UV or radioactive detection. The 11 beta HSD activity was not influenced by incubation with increasing concentrations (10(-12)-10(-9) mol/l) of ACTH (1-24 or 1-39) for 1 h. Among 12 ACTH-dependent steroids tested (10(-9)-10(-6) mol/l), only corticosterone (IC50 = 2 x 10(-7) mol/l), 18-OH-corticosterone and 11 beta-OH-androstenedione showed a significant dose-dependent inhibition of 11 beta-HSD activity. The percentage conversion rate of cortisol to cortisone was concentration dependent over the whole range of cortisol concentrations tested (10(-8) - 10(-5) mol/l. A direct inhibitory effect of ACTH on 11 beta-HSD is, therefore, unlikely. The only steroids inhibiting the conversion of cortisol to cortisone are natural substrates for 11 beta-HSD. Kinetic studies show a saturation of the enzyme at high cortisol concentrations. Thus, the reduced percentage renal cortisol inactivation in EAS seems to be due mainly to overload of the enzyme with endogenous substrates (cortisol, corticosterone and others) rather than to direct inhibition of 11 beta-HSD by ACTH or ACTH-dependent steroids, not being substrates of 11 beta-HSD.
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PMID:Human kidney 11 beta-hydroxysteroid dehydrogenase: regulation by adrenocorticotropin? 861 21

We have proposed that estrogen, via regulation of the placental 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) enzyme(s) catalyzing the oxidation of cortisol to its inactive metabolite cortisone, regulates the baboon fetal pituitary-adrenocortical axis and the onset of de novo production of cortisol by the fetus near term. In support of this hypothesis we have demonstrated that the increase in expression of the mRNA for the ACTH precursor proopiomelanocortin (POMC) in the fetal pituitary and in the specific activity of steroidogenic enzymes in the fetal adrenal normally observed at term were enhanced at midgestation by maternal estrogen administration. However, it is not known whether activation of the fetal pituitary reflects a concomitant increase in corticotropin-releasing hormone (CRH) mRNA expression and/or peptide production by the fetal hypothalamus. Therefore, an aim of the present study was to determine whether the increase in POMC mRNA in fetal baboons delivered at term, and at midgestation to mothers treated with estradiol, reflected an increase in hypothalamic CRH. Fetal hypothalami were obtained on Day 100 (n = 6) and Day 165 of gestation (term = Day 184) from untreated baboons (n = 5) and on Day 100 from baboons (n = 4) whose mother had been treated daily with 1.0 mg estradiol on Days 70 to 100. Hypothalamic CRH peptide concentrations were determined by RIA, and CRH mRNA expression was quantified by in situ hybridization in sections of the fetal hypothalamus through the paraventricular nucleus (PVN) using a 48-base synthetic oligodeoxynucleotide probe 3' end-labeled with [35S]dATP. The mean (+/- SE) maternal serum estradiol concentration in baboons treated with estradiol at midgestation (2.4 +/- 0.4 ng/ml) was greater (p < 0.05) than that in untreated baboons on Day 100 (1.0 +/- 0.2), but similar to that in late gestation (2.0 +/- 0.2). The mean steady-state concentration of CRH in the baboon fetal hypothalamus at midgestation (15.8 +/- 6.0 ng/g tissue) was not altered in fetuses whose mothers had been treated with estradiol (17.6 +/- 0.9 ng/g). Hypothalamic CRH concentrations in fetal baboons of late gestation (20.7 ng/g; n = 2) were also similar to mean CRH values measured at midgestation but, owing to the marked increase in weight of the fetal hypothalamus with advancing pregnancy, the content of hypothalamic CRH in late gestation (28.8 ng/structure) exceeded (p < 0.01) that at midgestation. Mean levels of CRH mRNA at midgestation when expressed per cell (17.4 +/- 1.3 grains per cell) or per unit area of PVN (375 +/- 20 grains per area) were similar to respective values in late gestation (18.3 +/- 1.1 grains per cell; 350 +/- 55 grains per area; n = 3 per group). These findings support the suggestion that the increase in fetal pituitary POMC mRNA expression and ACTH peptide previously reported to occur normally between midgestation and term are not associated with a concomitant increase in hypothalamic CRH peptide or CRH mRNA concentrations. Moreover, it would appear that by midgestation, hypothalamic CRH is available in adequate concentrations to "drive" the fetal pituitary and that it is the levels of maternal cortisol arriving within the fetal circulation, as dictated by estrogen-regulated placental 11 beta-HSD-oxidase activity, that establish the extent to which the fetal pituitary responds to CRH.
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PMID:Hypothalamic corticotropin-releasing hormone expression in the baboon fetus at mid- and late gestation. 886 72

Activation of the hypothalamic-pituitary-adrenal (HPA) axis of fetal sheep during late gestation is associated with increases in plasma concentrations of adrenocorticotropic hormone (ACTH) and cortisol, and ultimately results in parturition. However, the mechanisms contributing to the concurrent increases in ACTH and cortisol are unclear. Plasma estradiol-17 beta (E2) concentrations increase progressively in the prepartum ovine fetus, and we hypothesized that E2 may influence HPA activity by affecting either basal and/or hypoxemia-stimulated ACTH release. We examined potential mechanisms, including altered expression of pro-opiomelanocortin (POMC) in fetal pituitary corticotrophs, and changes in corticosteroid binding globulin (CBG) and/or the enzymes 11 beta hydroxy steroid dehydrogenase (11 beta HSD)-1 or 11 beta HSD-2 in liver and placenta, that could alter negative feedback control. We infused fetal sheep at 127 d of gestation with either E2 (100 micrograms/24 h) or saline for 100 h. Fetal arterial blood samples were collected at 8 h intervals during the infusion of E2 or saline (n = 4), for measurement of basal plasma ACTH and cortisol concentrations, as well as plasma corticosteroid binding capacity (CBC). Placenta and fetal liver samples were collected at 100 h for measurement of placental 11 beta HSD-1 and 11 beta HSD-2 mRNA and hepatic CBG and 11 beta HSD-1 mRNA, by Northern blotting. Fetal pituitary samples were collected for measurement of POMC mRNA by in situ hybridization. In a separate experiment, fetuses were exposed to 2 h of hypoxemia at 75 h of E2 or saline infusion (n = 4), and fetal arterial blood samples were collected during the period of hypoxemia for measurement of plasma ACTH and cortisol concentrations. E2 infusion had no effect on basal plasma concentrations of ACTH or total cortisol, or on the stimulated levels of ACTH or total cortisol achieved in response to hypoxemia. Basal fetal pituitary POMC mRNA also did not change significantly with E2 infusion. No significant increases were observed in plasma CBC during E2 administration. However, hepatic CBG and 11 beta HSD-1 mRNA were significantly elevated in the livers of E2-treated fetuses. Placental 11 beta HSD-1 mRNA; but not 11 beta HSD-2 mRNA was increased by E2 treatment. These data do not support a direct effect of exogenous E2 at the level of basal or hypoxemia-stimulated ACTH output, but suggest that elevated E2 concentrations may alter the expression of genes encoding proteins implicated in tonic regulation of fetal HPA function.
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PMID:The effects of estradiol-17 beta infusion into fetal sheep in late gestation. 936 83

A 48-year-old woman with Cushing's syndrome due to bilateral adrenocortical adenomas is reported. The patient presented with a typical Cushingoid appearance. The serum cortisol level was elevated with loss of the diurnal rhythm and the plasma adrenocorticotropic hormone (ACTH) level was undetectable. Dynamic testing showed no suppression of urinary 17-OHCS by high-dose dexamethasone and no stimulation by metyrapone. An abdominal computed tomography (CT) scan showed bilateral adrenal tumors. Bilateral adrenalectomy was performed. The right adrenal gland contained a tumor that was encapsulated and consisted mainly of compact cells. The surrounding cortex was atrophic. The left adrenal gland contained an encapsulated tumor composed predominantly of clear cells. There were numerous small adrenocortical nodules in the surrounding cortex. Immunohistochemical analysis of steroidogenic enzymes (P450scc, 3beta-HSD, P450c21, P450c17 and P450c11) was performed. Immunoreactivity of all the enzymes was intense in the compact cells of the right adrenocortical adenoma, while the adjacent non-neoplastic cortex was negative for the enzymes. In the left adrenal tumor, the immunoreactivity of 3beta-HSD was intense, while that of P450c17 was weak. In the adrenocortical nodules, 3beta-HSD activity was sporadically observed. G protein genes encoding Gs alpha and Gi2 were examined for activating mutations at codons 201 and 227 (Gs alpha) and codons 179 and 205 (Gi2 alpha) in the bilateral adrenal tumors, but no mutations were found. The bilateral adenomas of this patient showed marked differences in microscopic and immunohistochemical studies, suggesting that the capacity of steroidogenesis differs between the right and left tumors.
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PMID:Cushing's syndrome due to bilateral adrenocortical adenomas with different pathological features. 939 54

Non-pituitary tumors that produce adrenocorticotropic hormone (ACTH) exhibit resistance to the normal feedback effects of glucocorticoids on proopiomelanocortin (POMC) gene expression. This glucocorticoid resistance is typically complete, although some tumors show only relative glucocorticoid resistance in the clinical setting. The molecular mechanisms responsible for these clinical pathophysiologic observations are unknown, but might include glucocorticoid receptor defects or aberrant expression of enzymes or transporters that exclude glucocorticoids from access to their intracellular receptors. We examined whether ACTH-producing non-pituitary tumor cells might express 11beta-hydroxysteroid dehydrogenase (11beta-HSD), the principal 'gatekeeper' enzyme known to metabolize glucocorticoids. 11Beta-HSD mRNA and enzyme activity were assessed in DMS-79 cells, a line derived from an ACTH-producing small cell lung cancer. RT-PCR studies showed expression of mRNA encoding 11beta-HSD2 but not 11beta-HSD1 in DMS-79 cells. Control human fibroblasts expressed predominantly 11beta-HSD1 but also had detectable 11beta-HSD2 mRNA, while HepG2 hepatoma cells also expressed only 11beta-HSD2 mRNA. Whole cell assays in DMS-79 cells revealed 11beta-HSD activity with a Km for cortisol of 26.1 +/- 9.0 nM and Vmax of 57.0 +/- 5.9 pmol/h/mg protein. HepG2 cells expressed a similar high affinity enzyme activity, while control fibroblasts expressed 11beta-HSD activity with a Km for cortisol of 652 nM. Conversion of cortisol to cortisone in DMS-79 cells was inhibited to 7% of baseline by addition of 10 microM glycyrrhetinic acid. Dexamethasone (20 nM) was converted to a single product in DMS-79 cells at a rate of 17.2 pmol/h/mg protein; this activity was also inhibited by glycyrrhetinic acid. We conclude that DMS-79 cells express 11beta-HSD2. While DMS-79 cells harbor additional defects in glucocorticoid signaling, these data suggest that expression of 11beta-HSD2 might contribute to the development of the glucocorticoid-resistant phenotype of some ACTH-producing tumors.
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PMID:Expression of 11beta-hydroxysteroid dehydrogenase type 2 in an ACTH-producing small cell lung cancer. 988 91

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