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)

The effects of temperature on adenylate cyclase (AC) activity from rat white adipocytes were studied. Arrhenius plots of the data were found to be biphasic for basal AC activity, with a break near 27 degrees C. Noradrenaline and corticotropin induced a shift in the break with a rise in energy of activation (Ea) on both sides of the break. Aabove break point only, Ea increased with respect to hormone does as a hyperbolic function. The maximum value was in the range 17-21 Kcal x mol-1. Temperature was shown to have only a slight effect on the binding capacity of corticotropin to its receptor sites. The possibility of the existence of multiple thermodynamic states for the enzyme is envisaged. Basal AC activity is thermodynamically different from the hormone-stimulated enzyme. Hormones induce changes in the basal conformation of the enzyme, and this is reflected in modifications of Arrhenius plots. The maximal state of activation reached with high doses of hormones could be interpreted as a 'desensitization' of enzyme and/or enzyme systems to membrane lipid interactions.
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PMID:Temperature dependence of adenylate cyclase activity from rat white adipocytes. 1 77

Isolated adipocytes, incubated in the presence of extracellular 32Pi to steady state 32P incorporation into cellular phosphopeptides, were exposed to hormones for 5 min. Epinephrine (10(-6) M) stimulated 32P incorporation into at least 12 major phosphopeptides, distributed in the cytoplasm, endoplasmic reticulum, and plasma membrane. Quantitatively pre-eminent among these were peptides of molecular weight 123,000 and 69,000, each located both in the cytoplasm and endoplasmic reticulum. The effect of epinephrine (10(-7) M) on 32P incorporation into these two peptides was augmented by theophylline (10(-3) M) in a synergistic fashion. Norepinephrine, dibutyryl N6,O2'-dibutyryl adenosine 3':5'-monophosphate, adrenocorticotropic hormone (ACTH) (synthetic 1 to 24 fragment), and glucagon mimicked the effect of epinephrine. Insulin modified adipocyte peptide phosphorylation in two ways. When present as the sole hormone, insulin (100 microunits/ml) consistently and selectively stimulated the 32P incorporation into a peptide of molecular weight 123,000 (endoplasmic reticulum, cytoplasm) without significant alteration in the 32P content of any other major peptide. A second effect of insulin was evident when epinephrine (10(-6) M) was present simultaneously. Insulin significantly inhibited the epinephrine-stimulated phosphorylation of the molecular weight 69,000 (endoplasmic reticulum, cytoplasm) and 26,000 (plasma membrane) peptides. Nevertheless, persistence of insulin-stimulated phosphorylation of the 123,000 peptide in the presence of epinephrine was shown by a 32P content of this peptide that was greater in the presence of both hormones than with either individually. These findings indicate that in intact adipocytes: (a) epinephrine acutely alters the phosphorylation of a large number of adipocyte peptides, partly at least, via activation of adenosine 3':5'-monophosphate (cyclic AMP)-dependent protein kinase; (b) insulin opposes several epinephrine-stimulated phosphorylations in a manner consitent with its ability to lower epinephrine-stimulated intracellular cyclic AMP accumulation in adipocytes; and (c) insulin, in addition, exerts a unique stimulatory effect on adipocyte peptide phosphorylation that is independent of its effects on cyclic AMP metabolism and may be medicated by the generation of an as yet undefined intracellular "messenger" unique to insulin.
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PMID:Effects of epinephrine and insulin on phosphopeptide metabolism in adipocytes. 17 55

Isoproterenol, corticotropin (ACTH), and triodothyronine immobilized on glass and Sepharose beads by diazotization procedures have been shown to interact with cultured tumor cells of "target tissue" origin. Cells used were rat glioma cells (C6), rat adrenal tumor cells (Y-1), and rat pituitary tumor cells (GH3). The rat glioma cells bound principally to immobilized isoproterenol, whereas the rat adrenal tumor cells bound to immobilized corticotropin, and rat pituitary tumor cells bound to immobilized triiodothyronine. Binding was inhibited by preincubation of the cells in soluble drug or hormone. With C6 cells there was a positive correlation between adenylate cyclase [ATP pyrophosphate-lyase (cyclizing, EC 4.6.1.1] stimulation and the degree of binding to the immobilized isoproterenol. Norepinephrine, bound through the ethanolamine side chain via an amide linkage, did not bind cells, demonstrating specific structural requirements for drug-cell interactions. HeLa cells were shown to bind tightly to diphtheria toxin coupled to Sepharose beads via an amide bond. This binding was inhibited by prior incubation of the Sepharose toxin with purified antitoxin. Toxin bound to Sepharose via an azo bond did not bind cells. These data suggest that the cell affinities are due to cell surface receptors interacting with the immobilized drugs and hormones, and that the observed affinities possibly reflect the relative receptor complement of these cells.
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PMID:Affinity isolation of cultured tumor cells by means of drugs and hormones covalently bound to glass and Sepharose beads. 18 May 34

Breakdown of the blood aqueous barrier in the rabbit eye induces a protein leakage into the aqueous humor, seen as a flare in the anterior chamber. A barrier damage was induced by topical prostaglandin E2(PGE2), infrared irradiation of the iris, or alpha-melanocyte-stimulating hormone (alpha-MSH) given subcutaneously. The aqueous flare was measured quantitatively by means of a photoelectric instrument. The interference of adrenergic antagonists and agonists on the breakdown of the barrier was tested. The alpha-adrenergic antagonist phentolamine and the beta-adrenergic antagonist propranolol, given intravenously, had no effect on exogenously administered PGE2, but both antagonists reduced the flare response to infrared irradiation which is supposed to exert its effect via endogenous prostaglandin release. The alpha-MSH response was unaffected by phentolamine, whereas propranolol abolished the flare response to alpha-MSH totally. The PGE1 response was unaffected both by the alpha-adrenergic agonist noradrenaline and the beta-adrenergic agonist terbutalin sulfate, administered topically. Noradrenaline, however, inhibited the flare response to infrared irradiation and facilitated the flare response to alpha-MSH. Terbutalin sulfate worked synergistically with both infrared irradiation and alpha-MSH. It is assumed that alpha-MSH exerts its effect on the barrier via enhanced beta-adrenergic activity, whereas the effects caused by infrared irradiation seem conditioned by intact alpha- as well as beta-adrnergic receptor sites.
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PMID:Interaction of adrenergic agents with alpha-melanocyte-stimulating hormone and infrared irradiation of the iris in the rabbit eye. 19 23

alpha-Adrenergic receptors are present on the plasma membrane of normal anterior pituitary cells and alpha-adrenergic agonists may play a role in the secretion of corticotropin (ACTH) and thyrotropin (TSH). However, alpha-adrenergic involvement in prolactin (PRL) secretion is uncertain. We have therefore examined this question in the PRL-secreting clonal rat pituitary tumor-derived GH4C1 cells. Norepinephrine (NE), an alpha-adrenergic agonist, had no effect on basal PRL secretion but abolished thyrotropin-releasing hormone (TRH)-induced PRL secretion in a dose-dependent manner (EC50 100 nM). NE also significantly suppressed the TRH-stimulated rise in [Ca2+]i. Phentolamine (PA), a non-selective alpha-adrenergic antagonist, reversed the inhibitory effect of NE on both the TRH-stimulated PRL secretion and [Ca2+]i rise. NE did not inhibit the rise in PRL secretion or [Ca2+]i induced by depolarizing 30 mM K+, 30% hyposmolarity or BAY K-8644, a specific L-type Ca2+ channel agonist. The inhibitory effect of NE on TRH-induced PRL and [Ca2+]i changes was also present when Ca2+ influx was prevented by removing medium Ca2+ or by blocking L-type Ca2+ channels with 2 microM nifedipine. The TRH-stimulated first-phase rise in [Ca2+]i in GH4C1 cells is believed to result primarily from release of sequestered Ca2+ from an intracellular pool through the activation of inositol 1,4,5-trisphosphate (IP3) and this [Ca2+]i spike stimulates PRL secretion. Our data thus suggest that GH4C1 cells have alpha-adrenergic receptors and that alpha-adrenergic agonists either suppress IP3 generation or block IP3 release of sequestered intracellular Ca2+.
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PMID:Alpha-adrenergic inhibition of thyrotropin-releasing hormone-induced prolactin secretion in GH4C1 cells is associated with a depressed rise in intracellular Ca2+. 128 Feb 33

beta-Endorphin is an endogenous opioid considered to be a modulator of immune injury. We studied the binding of [125I]beta-endorphin on cultured rat mesangial cells at 4 and 37 degrees C. The results were analyzed by computer program (Ligand). Incubation of rat mesangial cells with unlabeled beta-endorphin displaced [125I]beta-endorphin in a concentration-dependent manner. The binding of [125I]beta-endorphin was not affected by either opiate agonists or antagonists. Saturation studies at 37 degrees C revealed that beta-endorphin binding was time dependent. Binding studies revealed the presence of a single class of high-affinity binding sites with an apparent Kd of 15.3 nM. The number of receptor sites was calculated as 8.48 x 10(5) sites/cell. Mesangial cells exposed to beta-endorphin (10(-6) M) for 48 h showed enhanced incorporation of [3H]thymidine when compared to untreated cells (control, 23,228 +/- 2,778 cpm/well vs. beta-endorphin, 44,887 +/- 4,259 cpm/well; p less than 0.01). Our results show that mesangial cells carry a specific receptor for beta-endorphin which may be linked to proliferation of mesangial cells.
Nephron 1992
PMID:Specific receptors for beta-endorphin on mesangial cells. 133 32

Sodium nitroprusside was infused intravenously for 10 minutes in normal men, reclining at 45 degrees, in a dose sufficient to decrease the arterial pressure by 10 mmHg. The effect on a variety of plasma hormones was measured during the infusion and for 20 minutes afterwards. The heart rate increased to a maximum of 149%. Norepinephrine rose to a maximum of 196% in 5 minutes. Epinephrine reached a peak of 207% after 10 minutes. Plasma renin activity reached a peak of 449% at 10 minutes. Aldosterone did not change during the infusion, but increased to a maximum of 145% 10 minutes later. Vasopressin increased sharply at the end of the infusion to 893% and then rapidly decreased. Corticotropin, prolactin and growth hormone started to increase toward the end of the infusion, but reached their maxima during recovery. Corticotropin (225%) and prolactin (288%) peaked 10 minutes after the infusion, while growth hormone (414%) appeared still to be rising 20 minutes after the end of the infusion. Cortisol also rose progressively during recovery to a level of 138%. No significant changes were seen in the concentrations of insulin, glucagon, atrial natriuretic peptide, bombesin or neurotensin.
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PMID:Temporal relations of the endocrine response to hypotension with sodium nitroprusside. 155 71

To determine if local release of norepinephrine within the medullary dorsal horn influences autonomic responses often associated with nociception, microinjections of norepinephrine or of specific adrenergic receptor agonists were directed at the trigeminal subnucleus caudalis (Vc) in pentobarbital-anesthetized rats. Norepinephrine (20 nmol, 100 nl) evoked a significant increase (+ 233.8 +/- 89.5 pg/ml, P less than 0.01) in plasma concentrations of adrenocorticotropin (ACTH) after injections within the superficial laminae (I-II) of Vc, whereas mean arterial pressure or heart rate were not affected. Methoxamine (20 nmol), an alpha 1-adrenoceptor agonist, injections into laminae I-II also increased plasma ACTH (+ 90.6 +/- 32 pg/ml, P less than 0.025) without affecting arterial pressure or heart rate. Norepinephrine injections into the deeper laminae (III-V) of Vc caused a variable increase in plasma ACTH (+ 203.5 +/- 146.5 pg/ml, P less than 0.01) that was not mimicked by injections of methoxamine. Microinjections of alpha 2-(clonidine) or beta-(isoproterenol) adrenergic receptor agonists into Vc had no effect on plasma ACTH regardless of the laminar site of injection. The results suggest that norepinephrine acts within Vc to alter selected autonomic responses often associated with nociception. The involvement of an alpha 1-adrenergic receptor subtype within the superficial laminae of the medullary dorsal horn suggests a neural mechanism for norepinephrine-evoked increase in plasma ACTH that is distinct from the well known alpha 2-adrenergic receptor-mediated antinociceptive effects of norepinephrine.
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PMID:Microinjections of norepinephrine within the superficial laminae of trigeminal subnucleus caudalis evoke increases in plasma adrenocorticotropin in the rat. 166 15

The paraventricular hypothalamus regulates autonomic nerve outflow and is innervated with beta-endorphin-immunoreactive nerve terminals. This study examined the effects of beta-endorphin microinjected into the paraventricular hypothalamus on blood pressure, heart rate, and plasma catecholamine and glucose concentrations in conscious, unrestrained spontaneously hypertensive rats (SHR) and Wistar-Kyoto (WKY) rats at the age of about 9 weeks. Thirty minutes after paraventricular hypothalamic injection of [125I] beta-endorphin (3.5 micrograms), most of the recovered radioactivity was detectable within +/- 0.5 mm from the injection site in the coronal, sagittal, and horizontal planes. Unilateral paraventricular hypothalamic injections of beta-endorphin (1 and 0.1 microgram/0.1 microliter) increased blood pressure and heart rate in both strains in a dose-independent manner with significantly greater increases in SHR. Plasma catecholamine and glucose concentrations were measured 15, 30, and 60 minutes after beta-endorphin injection. Norepinephrine concentrations were not significantly altered in WKY rats but increased in SHR. Epinephrine concentrations increased in both strains with significantly greater increases in SHR. Increases in catecholamine concentrations were not dose-related. Glucose concentrations also increased in both strains with significantly greater increases in SHR only at the lower dose. Ganglionic blockade with pentolinium significantly reduced beta-endorphin-induced pressor and tachycardiac responses in SHR. Pretreatment of the paraventricular hypothalamus with naltrexone (1.1 micrograms) in SHR blocked the initial pressor and tachycardiac responses to beta-endorphin (0.1 microgram) and blunted increases in epinephrine and glucose levels. When the animals were anesthetized with alpha-chloralose 2-5 days after the study in conscious animals, there were no differences in blood pressure or heart rate between strains after beta-endorphin (0.1 microgram) injection. The results indicate that conscious SHR show enhanced cardiovascular and sympathoadrenal responses to beta-endorphin injected into the paraventricular hypothalamus, suggesting that alterations in the activity of the paraventricular hypothalamic beta-endorphin system can modulate the development of hypertension in SHR.
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PMID:Sympathoadrenal control by paraventricular hypothalamic beta-endorphin in hypertension. 191 93

We compared gastric myoelectrical activity and endogenous neuroendocrine responses in subjects with and without motion sickness elicited by illusory self-motion or vection. Rotating a drum with black and white vertical stripes around seated stationary subjects (n = 22) produced vection. Gastric myoelectrical activity was recorded with cutaneous electrodes. Thirteen subjects developed gastric dysrhythmias [4- to 9-cycles/min (cpm) signals] and motion sickness during vection, whereas nine subjects maintained normal 3-cpm gastric rhythms and remained symptom free. Base-line plasma cortisol and beta-endorphin levels were significantly greater (P less than 0.01) in the subjects who would develop gastric dysrhythmias and nausea compared with the subjects who would not develop motion sickness. Norepinephrine levels increased in the nauseated group immediately after vection ceased (354.6 +/- 41.1 pg/ml) compared with the symptom-free subjects (223.1 +/- 22.8 pg/ml, P less than 0.05). Epinephrine increased significantly (P less than 0.05) after vection only in the nauseated subjects, whereas dopamine levels were not altered by vection in either group. We conclude that 1) anticipatory increases in plasma cortisol and beta-endorphin occurred in subjects who would develop nausea and gastric tachyarrhythmias during vection; 2) endogenous epinephrine and norepinephrine were increased in subjects who had vection-induced nausea and gastric dysrhythmias; and 3) vection stimulates brain-gut interactions, resulting in gastric tachyarrhythmias and complex neuroendocrine responses in subjects with motion sickness.
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PMID:Neuroendocrine and gastric myoelectrical responses to illusory self-motion in humans. 213 78


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