Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01189 (beta-endorphin)
 21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Corticotropin-releasing hormone (CRH) and glucocorticoids are major regulators of the hypothalamic-pituitary-adrenal (HPA) axis controlling secretion of beta-endorphin and other pro-opiomelanocortin (POMC)-derived peptides from pituitary. Although previous work has shown that CRH stimulates secretion of beta-endorphin from adult hypothalamic explants, and that glucocorticoids can inhibit basal and stimulated secretion of POMC-derived peptides from pituitary, the role of glucocorticoids on hypothalamic beta-endorphin secretion is not known. Studies were performed to assess the effects of CRH and dexamethasone, a potent glucocorticoid, on secretion of immunoreactive (IR) beta-endorphin from dissociated fetal hypothalamic cell cultures. CRH (10(-9)-10(-6) M) did not stimulate secretion of IR-beta-endorphin from hypothalamic cells which did release IR-beta-endorphin upon potassium-induced depolarization. However, CRH did stimulate IR-beta-endorphin secretion from fetal hypothalamic explants which were similar to hypothalamic tissue from which dissociated hypothalamic cell cultures were derived. Exposure of cells to dexamethasone (10(-6) M) did not inhibit basal or potassium-stimulated release of IR-beta-endorphin. These results indicate that: (1) dissociated fetal hypothalamic cells in culture do not exhibit a functional CRH receptor coupled to stimulation of IR-beta-endorphin secretion; (2) exposure of hypothalamic cells to dexamethasone does not inhibit basal nor depolarization-induced release of IR-beta-endorphin; and (3) dissociated fetal hypothalamic cells may have limited utility in elucidating specific regulatory relationships because of in vitro conditions and/or cytoarchitectural relationships.
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PMID:Corticotropin-releasing hormone and dexamethasone do not alter secretion of immunoreactive beta-endorphin from dissociated fetal hypothalamic cell cultures. 228 34

Plasma levels of the N-terminal peptide of proopiomelanocortin (NPP) were measured in rainbow trout, Salmo gairdneri, following treatment of handling stress with or without administration of dexamethasone, adaptation to white and black background, and maintenance on a constant light/dark cycle. Effects of exogenously administered NPP on plasma constituents were also examined to provide insight into the biological significance of NPP. Thirty minutes of handling stress in shallow water had no effect on plasma levels of NPP during and after the stress period, whereas significant increases in plasma cortisol and glucose were observed. Intraperitoneal administration of dexamethasone blocked the stress-induced elevation of plasma levels of cortisol and caused a depression of plasma NPP. No difference was observed in plasma levels of NPP between trout adapted to a white background and those adapted to a black background. No diurnal changes in NPP were observed under an artificial light/dark cycle (14L/10D light cycle, 0500-1900 hr light) in May and September. Thus, plasma levels of NPP were considerably constant under various physiological conditions, and no synchronism was observed between plasma NPP and cortisol, although NPP modifies the corticotropin-induced release of cortisol from the interrenal. Plasma constituents such as cortisol, total protein, albumin, plasma amino nitrogen, glucose, free fatty acid, ketone body, sodium, potassium, calcium, and magnesium were not altered by intraperitoneal injections of NPP (1 or 10 micrograms) once daily for 6 days (total of six injections) or once every other day for 28 days (14 injections). High concentrations of NPP were found in the plasma 24 hr after cessation of the serial injections of NPP (10 micrograms), suggesting slow metabolic clearance of the peptide.
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PMID:Plasma profiles of the N-terminal peptide of proopiomelanocortin in the rainbow trout with reference to stress. 229 28

Dispersed cells from adult rat basal hypothalami, attached to Cytodex-3 microcarrier beads, were placed in a column and superfused with aerated high glucose media or media enriched with variable concentrations of nitrous oxide with oxygen. beta-Endorphin and alpha-MSH content was measured in the effluent collected during superfusion and demonstrated a near constant baseline release. Nitrous oxide, 60% (P less than 0.025) and 80% (P less than 0.02), caused significant increases in release of beta-endorphin. Potassium chloride (50 mM) caused a significant increase in release (P less than 0.007) of beta-endorphin whereas saline and 30% nitrous oxide did not. Neither nitrous oxide-enriched media nor potassium chloride had any statistically significant effect on alpha-MSH release. The increase in beta-endorphin secretory activity during exposure to nitrous oxide demonstrates that nitrous oxide may have a stimulatory effect on central pro-opiomelanocortin neurons.
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PMID:The effects of nitrous oxide on the secretory activity of pro-opiomelanocortin peptides from basal hypothalamic cells attached to cytodex beads in a superfusion in vitro system. 244 32

The concentration of mRNA encoding proopiomelanocortin (POMC) was measured in AtT-20/D-16v cells, a clonal pituitary tumor cell line. Treatment of the cells with potassium (20 mM) or veratridine (10 microM) for 12, 24 and 48 h caused a time-dependent increase in the levels of POMC mRNA which became significant after 24 h. These effects were not seen in the presence of the sodium channel blocker tetrodotoxin (5 microM). In addition, the calcium channel blocker verapamil (10 microM) completely abolished the responses to either potassium or veratridine, whereas the calcium channel agonist Bay K 8644 (0.1 microM) potentiated the effect of potassium. Furthermore, the calcium channel blockers verapamil (10 microM) and nidefipine (1 microM) significantly decreased not only basal levels of POMC mRNA but also the increase of mRNA levels induced by corticotropin-releasing factor (CRF; 0.1 microM), 8-bromo-cAMP (1 mM) or cholera toxin (100 ng/ml). The drug-induced alterations in the mRNA POMC levels of the cells were, in each case, associated with similar alterations of immunoreactive beta-endorphin in the medium. These results indicate that membrane depolarization to activate sodium channels and calcium channels initiates an entry of calcium ions which triggers POMC gene expression in the AtT-20 cells. Moreover, calcium entry into the cells may exert a tonic stimulatory effect on POMC mRNA under basal conditions and may also contribute to the enhancing effect of CRF or cAMP on POMC mRNA in these cells.
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PMID:Influence of calcium ions on proopiomelanocortin mRNA levels in clonal anterior pituitary cells. 244 1

One subpopulation of amacrine interneurons in the turtle retina was shown to contain met-enkephalin by means of immunocytochemistry, and another was demonstrated to have a high-affinity uptake system for [3H]-dopamine by means of autoradiography. Although the amacrine soma size, density, and distribution of their neurites in IPL substrata was similar in retinas in which met-enkephalin and dopamine were localized, combined light microscope immunocytochemistry-autoradiography demonstrated that these two neurotransmitter systems did not coexist in the same cells. Because the two amacrine cell subtypes ramify in the same IPL substrata, neuronal interaction between them is possible. Release experiments showed that the potassium-induced release of [3H]-dopamine from the superfused turtle retina was reduced by 40% when enkephalin was added to the superfusate. The inhibition of [3H]-dopamine release could be blocked by the addition of naloxone. The addition of enkephalin had no effect of the potassium-induced release of [3H]-GABA from the superfused retina. These findings suggest that an enkephalinergic modulation of the dopaminergic amacrine cell system exists in the turtle retina.
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PMID:Enkephalinergic modulation of the dopamine system in the turtle retina. 248 18

Release of alpha-melanocyte-stimulating hormone (alpha-MSH) from slices of rat hypothalamus superfused with artificial cerebro-spinal fluid (ACSF) was quantified by radioimmunoassay. Addition of 10(-6) M quinpirole, a D2-dopamine receptor agonist, to the superfusion medium caused a significant (P less than 0.001) reduction in the amount of alpha-MSH released upon depolarisation with 50 mM potassium from 319 +/- 37% to 110 +/- 16% of basal release in normal ACSF (mean +/- S.E.M.). Basal peptide release in the presence of quinpirole was unaffected. Sulpiride, a D2-dopamine receptor antagonist, at a concentration of 10(-6) M, induced a significant (P less than 0.05) increase of both basal and potassium-stimulated alpha-MSH release to 203 +/- 21% and 447 +/- 88% of basal release in normal ACSF respectively. The latter increases were abolished when sulpiride and quinpirole were added in combination. SK&F 38393-A and SCH 23390, a D1-dopamine agonist and antagonist respectively, had no significant effect on either basal or potassium-stimulated alpha-MSH release. It is proposed that endogenous dopamine exerts an inhibitory control on alpha-MSH release from the rat hypothalamus via D2-dopamine receptors and that in isolated hypothalamic slices there is a tonic inhibition of peptide release due to the activity of this system.
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PMID:D2- but not D1-dopamine receptors are involved in the inhibitory control of alpha-melanocyte-stimulating hormone release from the rat hypothalamus. 254 19

The objective of this study was to determine the effects of transient aortic valve occlusion (balloon valvuloplasty) on vasoactive hormones in patients with heart failure. Plasma atrial natriuretic peptide, vasopressin, aldosterone, adrenocorticotropic hormone (ACTH), and plasma renin activity were measured before, immediately after, and 30 minutes and 18 to 24 hours following balloon inflation in 18 patients. Mean right atrial and pulmonary wedge pressures were 6 and 18 mm Hg before inflations, respectively, and were unchanged after balloon inflations (5 and 13 mm Hg, respectively). Systemic systolic/diastolic pressures were 139 +/- 8/65 +/- 4 mm Hg before occlusion, decreased to 47 +/- 5/34 +/- 3 mm Hg during occlusion, and returned to baseline after occlusions. Baseline atrial natriuretic peptide levels were 267 +/- 43 pg/ml and increased to 513 +/- 71 pg/ml after balloon inflations. Vasopressin levels before occlusion were 9.1 +/- 2.2 pg/ml and increased to 21.4 +/- 4.8 pg/ml after balloon inflations. Plasma renin activity was 5.4 +/- 1.4 ng/ml/hr before inflations and was not significantly changed after balloon inflations. No clinically significant changes in plasma sodium, potassium, creatinine, and osmolality were observed after the procedure. Aldosterone increased from 23 +/- 4 to 40 +/- 7 ng/dl 10 minutes after the last inflation. Plasma ACTH measured in seven patients with increased aldosterone was 28 +/- 8 pg/ml before and increased to 295 +/- 157 pg/ml 10 minutes after balloon inflations. The increases in natriuretic peptide and vasopressin were likely due to elevated intracardiac and decreased arterial pressures, respectively; they persisted in spite of no clinically significant changes in filling pressures 12 to 24 hours after the procedure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of atrial natriuretic peptide and vasopressin during percutaneous transluminal aortic valvuloplasty. 254 14

The contribution of voltage-operated calcium (VOC) channels in the mechanism of release of alpha-melanocyte-stimulating hormone (alpha-MSH) from hypothalamic neurons was investigated using perifused rat hypothalamic slices. The stimulatory effect of potassium (50 mM) on alpha-MSH release was completely blocked by cadmium (1 mM) a calcium competitor which indifferently blocks T-, L-and N-type VOC channels. To determine the nature of calcium conductances involved in K+-evoked alpha-MSH release, we have investigated the effect of a VOC channel agonist and 3 antagonists on the secretion of the neuropeptide. Administration of synthetic omega-conotoxin fraction GVIA (1 microM), a peptide toxin which blocks both N- and L-type VOC channels, reduced by 33% K+-induced alpha-MSH release. In contrast, the 1,4-dihydropyridine (DHP) antagonist nifedipine, at concentrations up to 100 microM, did not affect the response of hypothalamic alpha-MSH neurons to depolarizing concentrations of KCl. In addition, the secretion of alpha-MSH induced by high K+ concentrations was not reduced by nifedipine (10 microM) in the presence of diltiazem (1 microM), a benzothiazepine derivative which increases the affinity of the DHP antagonist for L-type VOC channels. The DHP agonist BAY K 8644 (0.1-10 microM) did not modify the early phase of the response of alpha-MSH neurons to K+-induced depolarization. In contrast BAY K 8644 (1 or 10 microM) significantly prolonged the duration of K+-induced alpha-MSH release. This sustained release of alpha-MSH induced by BAY K 8644 (10 microM) was totally suppressed by nifedipine (10 microM).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Involvement of voltage-operated calcium channels in alpha-melanocyte-stimulating hormone (alpha-MSH) release from perifused rat hypothalamic slices. 254 28

Aldosterone secretion from adrenal glomerulosa cells can be stimulated by angiotensin II (AII), extracellular potassium and adrenocorticotropin (ACTH). Since the mitochondria can recognize factors generated by AII (cyclic-AMP-independent) and ACTH (cyclic AMP dependent), it is reasonable to postulate the existence of a common intermediate in spite of a different signal transduction mechanism. We have evaluated this hypothesis by stimulation of mitochondria from glomerulosa gland with fractions isolated from glomerulosa gland stimulated with AII or from fasciculata gland stimulated with ACTH; the same fractions were tested using mitochondria from fasciculata cells. Postmitochondrial fractions (PMTS) obtained after incubation of adrenal zona glomerulosa with or without AII (10(-7) M) or ACTH (10(-10) M), were able to increase net progesterone synthesis 5-fold in mitochondria isolated from non-stimulated rat zona glomerulosa. In addition, AII in zona glomerulosa produced in vitro steroidogenic fractions that were able to stimulate mitochondria from zona fasciculata cells. Inhibitors of arachidonic acid release and metabolism blocked corticosterone production in fasciculata cells stimulated with ACTH. This concept is supported by the experiment in which bromophenacylbromide and nordihydroguaiaretic acid also blocked the formation of an activated PMTS. In fact, non-activated PMTS, in the presence of exogenous arachidonic acid AA, behaved as an activated PMTS from ACTH stimulated cells. We suggest that the mechanisms of action of ACTH and AII involve an increase in the release of AA and an activation of the enzyme system which converts AA in leukotriene products.
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PMID:Leukotrienes as common intermediates in the cyclic AMP dependent and independent pathways in adrenal steroidogenesis. 282 7

Although it has been suggested pro-opiomelancortin (POMC)-related peptides widely distributed throughout brain may be neurotransmitters or neuromodulators, little is known about their secretion from neurons because it is difficult to study neurosecretion in vivo. Previous work has shown that POMC-related peptides in hypothalamus may be released in response to potassium-induced depolarization. However, little attention has been directed toward studying secretion of POMC-related peptides in extrahypothalamic brain. To demonstrate the possibility that POMC peptides in extrahypothalamic brain may also be neuroregulators and can be released in response to a specific stimulus, the release of derivatives of POMC, immunoreactive (IR) adrenocorticotropic hormone (ACTH) and IR-beta-endorphin, from dissociated amygdala and cortical brain cells was studied in response to potassium-induced depolarization. Depolarizing concentrations of potassium in the presence of calcium stimulated significant increments in release of IR-ACTH/IR-beta-endorphin by amygdala (111/105%) and cortical (162/136%) cells. Stimulated release occurred following an experimental paradigm used to stimulate release of classical neurotransmitters and neuropeptides and suggested POMC-related peptides could be neuroregulators in extrahypothalamic brain.
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PMID:Stimulated release of immunoreactive adrenocorticotropin and beta-endorphin from extrahypothalamic brain. 282 46


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