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)

The effect of cholecystokinin octapeptide (CCK-8) on the release of beta-endorphin-like immunoreactivity (beta-EpLI) in rats was studied in vivo and in vitro. Intravenous injection of 5 micrograms/100 g body weight of CCK-8 resulted in significant increase in the plasma beta-EpLI level after 10 and 20 min. CCK-8 at concentrations of 10(-10) - 10(-6) M also caused dose-dependent stimulation of beta-EpLI release from dispersed cells of rat anterior pituitary. However, CCK-4 and desulfated CCK-8 had no effect. On gel chromatography, the beta-EpLI released by incubation of the cells with 10(-8) M CCK-8 separated into two components, eluted in the same positions as human beta-lipotropin and human beta-endorphin, respectively. CCK-8 did not stimulate beta-EpLI release in Ca++-free medium. A 23187 at concentrations of 10(-6) - 10(-3) M caused dose-dependent stimulation of beta-EpLI release from the cells. Addition of 2 X 10(-3) M CoCl2, 10(-3) M verapamil or 10(-7) M dexamethasone to the incubation medium inhibited CCK-8-induced beta-EpLI release from the cells. Dibutyryl cyclic GMP (3 X 10(-3) M) inhibited CCK-8-induced beta-EpLI release from the cells. Ouabain (10(-5) M) also stimulated beta-EpLI release but its effect was not additive with that of CCK-8. These results indicate that CCK-8 acts directly and specifically on anterior pituitary cells to stimulate beta-EpLI release and that calcium ion is involved in the mechanism of this effect.
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PMID:In vivo and in vitro effects of cholecystokinin octapeptide on the release of beta-endorphin-like immunoreactivity. 630 91

Highly purified porcine neurophysin-II, prepared from pig posterior pituitary lobe tissue was injected into fifteen rabbits in the preparation of anti-neurophysin sera. All antisera, when used in association with immunohistochemical procedures, gave an immunoreaction in structures of the rat hypothalamo-neurohypophysial system. Four antisera, however, also stained cells of the arcuate nucleus, corticotrophs and melanotrophs. Staining of the latter two cell groups also occurred in tissues obtained from Brattleboro rats. Preadsorption of the latter neurophysin antisera with either alpha-MSH, beta-LPH, beta-endorphin, ACTH (1-24), ACTH (17-39), ACTH (1-39), gastrin and CCK, failed to inhibit the staining of the corticotrophs, melanotrophs and cells of the arcuate nucleus. Inhibition of staining was achieved only by preadsorption of the antineurophysin sera with the neurophysin antigen or an homogenate prepared from the anterior pituitary. These results support the observation by others that the biosynthesis of the ACTH-beta-endorphin system in the pituitary and hypothalamus may also be accompanied by the appearance of neurophysin.
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PMID:Presence of neurophysin-like material in the pituitary corticotrophs and melanotrophs and cells of the arcuate nucleus of the rat as revealed by immunocytochemistry. 632 40

The pancreas and gastrointestinal tract (GIT) of adults and of an embryonic stage of 11 cm long (about half the length of newborn fish) of the spiny dogfish, Squalus acanthias, were investigated immunocytochemically for the occurrence of the gastro-entero-pancreatic (GEP) neurohormonal peptides. In the pancreas of adult forms 5 endocrine cell types were seen, namely insulin-, somatostatin-, glucagon-, pancreatic polypeptide (PP)- and gastric inhibitory peptide (GIP)-immunoreactive cells. These cell types form scattered islets and were seen sometimes to surround small ducts. GIP-immunoreactivity cells did not occur in glucagon-containing cells. In the mucosa of GIT of adults 18 endocrine cell types were observed, viz. insulin-, somatostatin-, glucagon-, glicentin, PP-, polypeptide YY (PYY)-, vasoactive intestinal polypeptide (VIP)-, GIP-, gastrin C-terminus, CCK-, neurotensin N-terminus-, bombesin/gastrin releasing peptide (GRP)-, substance P-, enkephalin-, alpha-endorphin, beta-endorphin-, serotonin- and calcitonin immunoreactive cells. These cells occurred mostly in the intestine. All these cell types were of the open type, except glucagon- and glicentin-immunoreactive cells in the stomach, which seemed to be of the closed type. In the muscle layers and the submucosa, VIP and substance P- immunoreactive nerves and neurons were observed. In the pancreas of the dogfish embryo only 3 endocrine cell types could be demonstrated, namely insulin-, somatostatin- and glucagon-immunoreactive cells. In the mucosa of the GIT of the embryos studied 12 endocrine cell types were detected, viz. insulin-, somatostatin-, glucagon-, PP-, PYY-, VIP, GIP, gastrin C-terminus-, CCK-, neurotensin N-terminus-, enkephalin- and serotonin immunoreactive cells. The number of these cells, except that of PYY-immunoreactive cells, was lower than that of adults and in some cases their distribution did not correspond with that of adults.
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PMID:Immunocytochemical investigation of the gastro-entero-pancreatic (GEP) neurohormonal peptides in the pancreas and gastrointestinal tract of the dogfish Squalus acanthias. 637 Sep 32

A variety of neuropeptides, such as TRH, somatostatin, VIP, Substance P, neurotensin, CCK, gastrin, and opioid peptides, alter secretion of GH and PRL from the pituitary. These actions differ according to the route of administration or with experimental conditions, especially anesthesia. Among these peptides, the most consistent results have been obtained with opioid peptides, which stimulate GH and PRL release. Both beta-endorphin and enkephalins are capable of stimulating GH and PRL release in anesthetized and unanesthetized, freely moving rats. The effect is blocked by naloxone, an opiate receptor antagonist. GH secretion induced by opioid peptides seems to be mediated by an alpha-adrenergic mechanism, since treatment with DDC and fusaric acid, which are dopamine-beta-hydroxylase inhibitors, reserpine, and phenoxybenzamine which is an alpha-adrenergic blocking agent, blunted GH secretion. However, pimozide, a dopamine receptor antagonist, and propranolol, a beta-adrenergic blocking agent, were without effect. On the other hand, basal PRL secretion was augmented by pimozide, suggesting the possible involvement of dopamine. It is also possible that serotonin is involved in the GH and PRL release induced by opioid peptides. The physiological significance of opioid peptides in regulating GH and PRL secretion is still unclear. Contradictory results (12,25) have been obtained concerning the effect of naloxone on basal or stimulated GH and PRL secretion in rats, monkeys and humans when tested by the continuous blood sampling method, which rules out the erroneous evaluation of results caused by episodicity of plasma hormone levels. Further studies should clarify the physiological role of opioid peptides in regulating pituitary function.
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PMID:Effect of CNS peptides on hypothalamic regulation of pituitary secretion. 701 Sep 47

There are now a large number of experiments demonstrating that peripheral administration of exogenous cholecystokinin or its synthetic analogue, CCK-8, reduces meal size in a number of species. The peptide interacts with other factors which influence satiety, and treatments thought to be effective in eliciting secretion of cholecystokinin have predictable effects on meal size. Cholecystokinin is effective in the genetically obese Zucker rat, obese rats with lesions of the ventromedial hypothalamus, and subdiaphragmatically vagotomized rats. Somatostatin and bombesin are also reasonable candidates for satiety factors. Intraperitoneal naloxone reduces meal size in rats, and beta-endorphin injected intraventricularly causes an increase in meal size of 50% over 30 minutes. We conclude that cholecystokinin and bombesin may interact in weight regulation and control of meal time food intake.
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PMID:Peptides and the control of meal size. 701 27

Teleologically, pain is of paramount importance for survival and induces the organism to cope in an active way with aggressions from a basically hostile environment. While the activation of endogenous analgesic (opioid) systems typically occurs in conditions of surrender (pre-terminal conditions, sustained tortures, etc.), the activation of endogenous anti-analgesic systems triggers mechanisms of active or passive defence (such as camouflage) aimed at survival. The distinctive features of the main anti-analgesic systems (melanocortinergic, cholecystokininergic, thyroliberinergic) and the dramatic results obtained in experimental pre-terminal conditions (hemorrhagic shock, prolonged respiratory arrest) with the administration of their neuropeptide transmitters (ACTH and several ACTH-fragments, including alpha-MSH, CCK peptides and thyrotropin-releasing hormone) are here reviewed. The study of the mechanisms underlying the resuscitating effects of these neuropeptides has led to the discovery of the (often extremely potent) resuscitating effect of other drugs (protoveratrines, nicotine, centrally-acting cholinergic agents, ganglion-stimulating drugs). It is particularly remarkable that in pre-terminal conditions these neuropeptides and drugs have highly impressive effects on cardiocirculatory parameters at doses that are almost or actually inactive under normal conditions, and that their resuscitating effect is obtained without the need for any other supportive treatment and at dose-levels well below toxic ranges. Finally, in hemorrhage-shocked animals, the treatment with anti-analgesic neuropeptides shortly after bleeding considerably extends the time-limit for an effective and definitively curing blood reinfusion. This would be of self-evident importance in clinical practice, because an extremely simple, non-toxic first-aid treatment in the field, shortly after a massive hemorrhage, could resuscitate the patient for a period sufficient to effectively set up the most appropriate in-hospital treatment.
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PMID:The opioid/anti-opioid balance in shock: a new target for therapy in resuscitation. 748 Nov

Previously, we have shown that intracisternal (i.c.) administration of beta-endorphin suppresses brain and liver DNA synthesis in rat pups. This finding is consistent with the view that endogenous CNS beta-endorphin plays an important role in controlling postnatal growth. Recent evidence suggests that brain CCK8, the sulfated carboxyterminal octapeptide fragment of cholecystokinin, may function physiologically as an endogenous opioid antagonist. We now report that CCK8 injected i.c. together with beta-endorphin effectively prevented beta-endorphin from inhibiting brain and liver DNA synthesis in 10-day-old rats. CCK8 blocked the liver DNA effect of beta-endorphin via actions within the brain, as subcutaneous administration of CCK8 was ineffective. In contrast to CCK8, i.c. administration of CCK8U (the unsulfated form of CCK8) together with beta-endorphin did not prevent beta-endorphin from inhibiting liver DNA synthesis, and only slightly reversed the brain DNA effect. The results obtained support a role for endogenous brain CCK8 in the modulation of tissue DNA responses to CNS beta-endorphin and possibly to other endogenous opioids. If so, interference with brain CCK function could disrupt tissue growth. Thus, normal mammalian development may require a close functional interaction between the cholecystokinin and beta-endorphin systems in the brain.
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PMID:Brain cholecystokinin and beta-endorphin systems may antagonistically interact to regulate tissue DNA synthesis in rat pups. 783 70

The endocrine cells of the rainbow trout (Oncorhynchus mykiss) stomach have been investigated using the immunocytochemical techniques of peroxidase-anti-peroxidase and avidin-biotin-peroxidase complexes on paraffin sections. 33 antisera were tested and eight immunoreactivities were detected: somatostatin-, glucagon- bombesin-, substance P-, serotonin-, met-enkephalin-, CCK/gastrin-, and chromogranin-like containing cells. All of them were present throughout the gastric mucosa except CCK/gastrin-like containing cells that were restricted to the pyloric epithelium. Somatostatin 25 and chromogranin immunoreactive cells are described for the first time in fish stomach. Serotonin immunoreactive cells were also positive for the Grimelius technique and some of them were immunoreactive to anti substance P or anti CCK/gastrin. Immunoreactivities for gastrin 17, gastrin 34 and CCK appeared in the same cells and the absorption controls showed that a molecule containing the carboxi-terminal pentapeptide of this family was present in trout stomach.
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PMID:Regulatory peptides in gastric endocrine cells of the rainbow trout Oncorhynchus mykiss: general distribution and colocalizations. 791 36

Endocrine cells have been identified in the intestine of the frog Rana temporaria after application of the Grimelius and Masson-Fontana techniques. These endocrine cells were examined using immunocytochemical techniques on paraffin and semithin sections for light microscopy. After testing 19 antisera, 12 immunoreactivities were identified. Numerous serotonin-, somatostatin- and GLP-1-immunoreactive cells; a moderate number of PYY-, glucagon-, VIP-, gastrin/CCK-immunoreactive cells and few human PP-, bombesin-, substance P- and neurotensin-immunoreactive cells were found. VIP- and met-enkephalin were identified in nerve fibers of the muscular layer. Using semithin-thin sections five types of endocrine cells (serotonin-, somatostatin-, gastrin/CCK-, glucagon- and bombesin-immunoreactive cells) have been characterized according to their immunocytochemical reaction and the ultrastructure of the secretory granules.
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PMID:Immunocytochemical and ultrastructural characterization of endocrine cells and nerves in the intestine of Rana temporaria. 810 59

Physiological regulatory mechanisms of gastric acid secretion are the basis for all those studies which attempt to analyze the pathophysiological role of acid secretion. The major stimulus of parietal cell function is food intake which acts via activation of cephalic-vagal and gastric mechanisms. Cephalic phase of acid secretion is augmented predominantly by acetylcholine and gastrin while histamine is of major importance during the gastric phase. A contribution of neuropeptides located in the ex- and intrinsic nervous system such as enkephalin, beta-endorphin, gastrin-releasing peptide and neuromedin C ist most likely, however, their exact physiological role remains to be determined especially in man. Following maximal acid secretion parietal cell function is turned down which is paralleled by the decrease of intragastric pH. The mechanisms responsible for this effect originate in the stomach and small intestine. In contrast to the stimulatory factors the physiologically relevant inhibitors of acid secretion are less well known. Hormones such as somatostatin, glucagon-like peptide-1 (7-36)-NH2 and peptide YY are presumably of importance. The role of secretin, GIP, CCK and neurotensin is somewhat more controversial and remains to be examined in greater detail in humans. Especially the synergistic action of gastrointestinal hormones is virtually unknown. The increasing knowledge of the complex regulatory mechanisms in the stomach should result in new perspectives for the pathogenesis of peptic ulcer disease.
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PMID:[Physiologic regulation of gastric acid secretion]. 847 47

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