UNIPROT:P01178 - FACTA Search

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Query: UNIPROT:P01178 (oxytocin)
15,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In these experiments we examined the effects on gastric motility of cholecystokinin, LiCl, hypertonic NaCl solution, gastric distension, and intraduodenal glucose loads, five dissimilar treatments known to reduce food intake in rats. In addition, we investigated whether any observed effects were dependent on the afferent vagus nerve by pretreating subjects with the neurotoxin capsaicin. Each of the five treatments virtually eliminated the gastric contractions seen after rats had consumed a large meal of chow; these effects were rapid in onset and continued for up to 30 min. The inhibitory effects of cholecystokinin and gastric distension were eliminated by pretreatment with capsaicin, whereas the effects of the other treatments were attenuated only slightly or not at all. Because most of these treatments have been shown to stimulate pituitary oxytocin secretion in rats as well as to inhibit food intake and gastric motility, these results are consistent with the hypothesis that the hypothalamic paraventricular nucleus is a site at which information is integrated in the coordinated control of food intake, gastric function, and neuroendocrine secretion.
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PMID:Effects of anorexigenic treatments on gastric motility in rats. 253 59

1. We have developed a plasma membrane preparation from the mucosal epithelium of rabbit gallbladder and have characterized the hormonal sensitivity of adenylate cyclase in this preparation. 2. Basal activity is low and is stimulated by GTP and GppNHp. Hormonal stimulation is largely dependent on exogenous guanine nucleotide. 3. Several prostaglandins (E1 approximately E2 greater than A1 greater than B1), vasoactive intestinal peptide and the beta-adrenergic agonist, isoproterenol, stimulate mucosal adenylate cyclase activity; a variety of peptides and neurotransmitters (secretin, cholecystokinin, arg-vasopressin, oxytocin, histamine, dopamine and serotonin) are without effect. 4. The data support the hypothesis that the inhibitory effect of prostaglandins, vasoactive intestinal peptide, and isoproterenol on gallbladder fluid absorption in certain species may be mediated by cyclic AMP. 5. The membrane preparation should be useful in further characterizing hormone receptor-transducer interactions of the gallbladder mucosal epithelium.
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PMID:Characterization of hormone-sensitive adenylate cyclase in rabbit gallbladder mucosa. 254 33

Intraperitoneal injection of 5 micrograms cholecystokinin octapeptide (CCK-8) into male rats deprived of food for 48 h produced a transient (less than 15 min) increase in plasma levels of CCK-8 but suppressed food intake for an extended period (45 min). Plasma concentrations of CCK-8 after i.p. injection of CCK-8 were raised to levels which were fairly comparable to those after feeding. Intracerebroventricular (i.c.v.) injection of the CCK antagonist proglumide (100 micrograms) reversed the effect of CCK-8 on food intake, while i.p. injection of proglumide (100 micrograms) did not have this effect. Feeding increased the plasma concentrations of somatostatin and gastrin but not of oxytocin, and somatostatin and oxytocin but not gastrin were released in response to i.p. injection of CCK-8. However, neither somatostatin nor oxytocin affected food intake, and their release in response to CCK-8 was unaffected by i.c.v. injection of proglumide. These results support the suggestion that CCK-8 is a physiological 'satiety' peptide, which can affect food intake in rats by mechanisms involving both peripheral and central CCK receptors.
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PMID:Plasma concentrations of cholecystokinin octapeptide and food intake in male rats treated with cholecystokinin octapeptide. 256 47

1. Coexisting with oxytocin or vasopressin in the cell bodies and nerve terminals of the hypothalamic-neurohypophysial system are smaller amounts of other peptides. For a number of these "copeptides" there is strong evidence of corelease with the major magnocellular hormones. Guided by the location of their specific receptors we have studied the effects of three copeptides, dynorphin, cholecystokinin (CCK), and corticotropin releasing hormone (CRH), on the secretion of oxytocin and vasopressin from isolated rat neural lobe or neurointermediate lobe preparations in vitro. 2. Dynorphin is coreleased with vasopressin from neural lobe nerve terminals and acts on neural lobe kappa-opiate receptors to inhibit the electrically stimulated secretion of oxytocin. Naloxone augments oxytocin release from the neural lobe in a manner directly proportional to the amount of vasopressin (and presumably dynorphin) released. 3. Cholecystokinin, coreleased with oxytocin by neural lobe terminals, has been shown to have high-affinity receptors located in the NL and to stimulate secretion of both oxytocin and vasopressin. CCK's secretagogue effect was independent of electrical stimulation and extracellular Ca2+ and was blocked by an inhibitor of protein kinase C. 4. CRH, coreleased with OT from the neural lobe, has receptors in the intermediate lobe of the pituitary, but not in the neural lobe itself. CRH stimulates the secretion of oxytocin and vasopressin from combined neurointermediate lobes but not from isolated neural lobes. Intermediate lobe peptides, alpha and gamma melanocyte stimulating hormone, induced secretion of oxytocin and vasopressin from isolated neural lobes. Their effect was, like that of CCK, independent of electrical stimulation and extracellular Ca2+ and blocked by an inhibitor of protein kinase C. 5. Among the CRH-producing parvocellular neurons of the paraventricular nucleus, in the normal rat, approximately half also produce and store vasopressin. After removal of glucocorticoid influence by adrenalectomy, virtually all of the CRH neurons contain vasopressin. 6. The two subtypes of CRH neurosecretory cells found in the normal rat possess different topographical distributions in the paraventricular nucleus, suggesting the possibility of differential innervation. Stress selectively activates the vasopressin containing subpopulation of CRH neurons, indicating that there are separate channels of regulatory input controlling the two components of the parvocellular CRH neurosecretory system.
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PMID:Coexisting peptides in hypothalamic neuroendocrine systems: some functional implications. 257 30

Several neuropeptides were immunohistologically studied in normal human spinal cords. Substance P, methionine-enkephalin, leucine-enkephalin, and cholecystokinin positive fibers were found in all cytoarchitectonic layers, with a specific distribution pattern for each peptide. Somatostatin, oxytocin, and vasopressin immunoreactivities were restricted to particular spinal layers. Perikarya and proximal dendrites were visualized and classified by comparison with previous Golgi analyses. Substance P was contained in "radiate cells" of layer III, methionine-enkephalin in marginal neurons as well as in layer II "stellate cells," and somatostatin in layer II "islet cells." Several results differed from those reported in other species. Chemical neuroanatomy may provide new insights into the neuronal organization of the human spinal cord.
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PMID:Substance P, enkephalins, somatostatin, cholecystokinin, oxytocin, and vasopressin in human spinal cord. 258 9

The aim of this investigation was to study the release of cholecystokinin (CCK) in connection with feeding and lactation and to investigate the involvement of CCK in the regulation of food intake. For this purpose a method based on high performance liquid chromatography and subsequent radioimmunoassay (RIA) for the determination of CCK in plasma was developed. CCK was also determined in the cerebrospinal fluid (CSF) by RIA and is referred to as CCK-like immunoreactivity (CCK-LI). Different molecular forms of CCK in dog and rat plasma have been determined. These were found to differ from those in the CSF, suggesting that the CCK measured in plasma and CSF are derived from different sources, i.e. the gut and brain. CCK was released into plasma in response to feeding in dogs and rats and in response to suckling in lactating animals. The release of CCK is under vagal control. Thus, electrical vagal stimulation of anaesthetized rats increased plasma levels of CCK, and abdominal vagotomy abolished the suckling-induced release of CCK. Lesions of the lateral midbrain, which disrupt the oxytocin-mediated milk-ejection reflex, were also found to block the increase in plasma CCK in response to suckling. Intraperitoneal (i.p.) injection of CCK octapeptide (CCK-8) decreased food intake in food deprived male rats in doses which resulted in plasma concentrations within the physiological range. Intracerebral, but not i.p., injection of a low dose of a CCK antagonist, reversed the effect of peripheral CCK-8 on food intake as did i.p. injection of peripheral CCK A receptor antagonists. Thus, the mechanism by which i.p. CCK-8 inhibits food intake may involve both peripheral and central CCK receptor mechanisms. The concentration of CCK-LI in the CSF decreased after food deprivation and increased after feeding or i.p. CCK-8. Intraperitoneal injection of peripheral CCK antagonists prevented the increase in CCK-LI in the CSF and the inhibitory effect of i.p. CCK-8 on food intake. These data indicate that peripheral CCK receptor mechanisms induce a release of CCK in the brain. During the hyperphagia of lactation, plasma but not CSF levels of CCK were increased in the rat. Food deprivation markedly decreased the concentration of CCK in plasma and CSF; and the levels were restored in CSF, but not in plasma, after 1 h of feeding. Removal of the litter decreased food intake and increased the concentration of CCK in the CSF, but not in plasma. Lactating rats were less sensitive to the inhibitory effect of i.p.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Role of cholecystokinin in feeding and lactation. 260 47

A combination of autoradiographical techniques and computerized image analysis has been used to study the distribution and density of cholecystokinin receptors in the paraventricular and supraoptic nuclei of animals in which the magnocellular-posterior pituitary axis is activated, namely, in salt-loaded (2% sodium chloride) and homozygous Brattleboro rats. [125I]cholecystokinin octapeptide binding was greatly elevated in the paraventricular, supraoptic and accessory nuclei of salt-loaded and homozygous Brattleboro rats, compared to the respective control animals. Furthermore, under these conditions [125I]cholecystokinin octapeptide binding in the paraventricular nucleus was localized almost exclusively to magnocellular subdivisions, and especially to those containing predominantly oxytocin neurons. Autoradiographical competition studies revealed that the increase in [125I]cholecystokinin octapeptide binding in magnocellular nuclei reflected an increase in receptor number (Bmax) rather than affinity (Kd). These results suggest that cholecystokinin receptor density in the paraventricular, supraoptic and accessory magnocellular nuclei is closely linked to magnocellular neurosecretory activity and raises the possibility that cholecystokinin receptors may be involved in oxytocin and vasopressin release processes.
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PMID:Modulation of hypothalamic cholecystokinin receptor density with changes in magnocellular activity: a quantitative autoradiographic study. 272 63

The effect of an intravenous bolus injection of cholecystokinin octapeptide (CCK-8; 0.85 micrograms/kg) on the release of cortisol, prolactin, vasopressin, and oxytocin was studied in sheep (n = 10). Concentrations of these hormones were measured in blood samples taken before (-10, 0 min) and after (5, 10, 20 min) administration of a saline vehicle or vehicle + CCK. Following CCK treatment, levels of cortisol were raised after 10 and 20 min, prolactin and vasopressin concentrations were increased after 5 min, and oxytocin secretion was unaffected.
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PMID:Anterior and posterior pituitary hormone release induced in sheep by cholecystokinin. 273 59

Cholecystokinin (CCK) and its receptors are abundantly represented in the central nervous system. However, a specific role or mechanism of action for CCK in this context has not been established. CCK coexists with oxytocin in magnocellular neurons of the hypothalamic-neurohypophysial system, sharing common neurosecretory vesicles with oxytocin in the neural lobe of the pituitary. The neural lobe, which consists primarily of oxytocin- and vasopressin-containing axons and nerve terminals and their surrounding glia, provides a relatively simple model system allowing for the study of the regulation of neurosecretion at the nerve terminal level, free from the complex array of synaptic effects present throughout the rest of the central nervous system. In this paper, we demonstrate the presence of high-affinity CCK binding sites in the rat neural lobe and show that activation of these receptors by the sulfated octapeptide, CCK-8, and related peptides causes potent secretion of oxytocin and vasopressin from the isolated nerve terminals. The secretagogue action of CCK-8, which is blocked by a CCK receptor antagonist (L-364,718), is independent of electrical stimulation and extracellular calcium and is blocked by an inhibitor of protein kinase C. Thus, the action of CCK on the neural lobe provides an example of peptide ligand-induced neurosecretion apparently mediated by second messengers rather than depolarization-induced calcium influx.
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PMID:Cholecystokinin evokes secretion of oxytocin and vasopressin from rat neural lobe independent of external calcium. 274 Mar 51

Oxytocin (OXY) and cholecystokinin (CCK) coexisting in neurons of the hypothalamic paraventricular nucleus (PVN) induce grooming behavior when microinjected into the ventral tegmentum. The present study sought to investigate two other putative terminal fields of this peptide-peptide coexistence, the lateral hypothalamus (LH) and the medial preoptic area (MPOA), and to determine the functional interaction between OXY and CCK. Microinjection of OXY and CCK alone or in combination into the LH but not into the MPOA induced grooming. Both peptides seem to be equally critical for the induction of grooming; they may interact on a common substrate by suppressing each other's effect.
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PMID:The interaction of central oxytocin and cholecystokinin regulates grooming behavior in the rat. 280 52

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