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

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

CholecystokininB receptors in the hypothalamic supraoptic and paraventricular nuclei may be involved in the regulation of appetite and neuroendocrine function. In situ hybridisation was used to determine levels of mRNA encoding cholecystokininB receptors in these nuclei in normal rats and rats deprived of food, water or both food and water for 4 days. Food deprivation produced no significant change in the level of cholecystokininB mRNA in these hypothalamic nuclei. Water deprivation increased cholecystokininB mRNA levels (412 +/- 16% and 1009 +/- 69% of control for supraoptic and paraventricular nuclei, respectively) while combined food and water deprivation resulted in significantly smaller increases in these nuclei (193 +/- 20% and 303 +/- 44% of control). Increases in the paraventricular nucleus were most prominent in magnocellular (especially oxytocin-rich) subdivisions of this nucleus. These selective alterations are consistent with similar changes in cholecystokinin receptor density in these hypothalamic nuclei, and support an autocrine/paracrine role for cholecystokinin in the regulation of appetite and endocrine function via effects on hypothalamic oxytocinergic activity.
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PMID:Activity-linked alterations in cholecystokininB receptor messenger RNA levels in magnocellular hypothalamic neurones by food and water deprivation in the rat. 747 35

1. Vasopressin-secreting neurones in the rat hypothalamic supraoptic nucleus display patterned spontaneous phasic activity, which is apparently maintained in vivo through yet unidentified neurotransmitter system(s). The present investigation used extracellular recording techniques in anaesthetized Long-Evans rats to evaluate whether the neurotransmitter mechanism underlying phasic firing is provided via a family of ionotropic glutamate receptors. 2. N-Methyl-D-aspartate (NMDA) reliably evoked bursts of activity in twenty-seven of twenty-eight phasic neurones. Amino-3-hydroxy-5-methyl-isoxazole-4-propionic acid (AMPA) and kainate also elicited pronounced excitations in twenty-one of twenty-one and and fourteen of fifteen phasic cells, respectively. 3. A rapid blockade of on-going phasic activity was consistently induced following brief applications of both NMDA and non-NMDA receptor antagonists; extended application of antagonists resulted in prolonged silent periods, during which phasic activity failed to recur for minutes. Neither saline nor a cholecystokinin receptor antagonist influenced cell firing. 4. In contrast to putative vasopressin cells, application of NMDA receptor ligands did not affect the spontaneous activity in most putative oxytocin-secreting neurones, whereas kainate and AMPA potently excited seven of nine and four of five putative oxytocin cells, respectively. 5. These results imply that the maintenance of spontaneous phasic discharges in vivo in supraoptic vasopressin-secreting neurones requires tonic synaptic activation involving both NMDA and non-NMDA glutamate receptors. In putative oxytocin-secreting neurones, spontaneous firing appears to be predominantly regulated by non-NMDA receptors. Glutamatergic innervations may be in a unique position to influence the genesis of patterned electrical activity in supraoptic vasopressin neurones.
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PMID:Regulation of spontaneous phasic firing of rat supraoptic vasopressin neurones in vivo by glutamate receptors. 754 68

Cholecystokinin-octapeptide (CCK8) administered intraperitoneally (i.p.) in rats induces a rapid elevation in serum oxytocin (OT). The receptor subtype mediating this action of CCK was investigated with selective CCK-A and CCK-B receptor agonists and antagonists. CCK8 and A-71623, a potent CCK-A selective agonist, were similar in efficacy and potency for stimulating OT secretion. Both compounds at 10 nmol/kg elicited approximately one-half the response of 100 nmol/kg, which elevated serum OT to approx. 20 to 30-fold above basal level. The potent CCK-B selective agonist, A-63387, at doses up to 100 nmol/kg did not increase serum OT. MK-329, a CCK-A receptor selective antagonist, at a dose of 20 nmol/kg fully inhibited the action of 20 nmol/kg CCK8, while 100 nmol/kg of (R)L-365,260, a CCK-B selective antagonist, had no effect on the CCK8 response. These results, together with previous lesion studies, suggest that vagal CCK-A receptors in the periphery mediate the activation of the oxytocinergic pathway in vivo.
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PMID:Peripheral cholecystokinin type A receptors mediate oxytocin secretion in vivo. 842 7

This study demonstrates cholecystokinin receptor plasticity in response to salt-loading in the rat and mouse hypothalamus. It identifies, for the first time, the cholecystokinin receptor subtypes involved, firstly by receptor autoradiography and secondly by in situ hybridization. Both species showed increases in hypothalamic [125I]Bolton Hunter-cholecystokinin-8 binding. Co-incubation with the specific cholecystokininA and cholecystokininB antagonists, devazepide and CI-988, indicated that in the rat cholecystokininB receptor binding markedly increased, with a small increase in cholecystokininA receptor binding. In the mouse the response was comprised solely of cholecystokininA receptors. In situ hybridization studies were carried out on a range of peptide messenger ribonucleic acids after salt-loading. In the rat large increases in hypothalamic gene expression were detected for oxytocin, vasopressin, corticotrophin-releasing factor and preprocholecystokinin. In the mouse only vasopressin messenger ribonucleic acid increased, whilst hypothalamic oxytocin, preprocholecystokinin and corticotropin-releasing factor remained unchanged. However, corticotrophin-releasing factor messenger ribonucleic acid increased in the mouse amygdala. In situ hybridization was performed using oligonucleotide probes specific for either the cholecystokininA or cholecystokininB receptor messenger ribonucleic acid, and this showed good agreement with the receptor autoradiography. CholecystokininB receptor expression was upregulated in the rat hypothalamus along with a small but significant increase in cholecystokininA receptors. In the mouse only cholecystokininA receptor expression was increased. In addition to these molecular changes rats lost about 25% of their body weight during six days of salt-challenge, whilst mice continued to grow in line with controls. This work demonstrates differential changes in cholecystokinin receptor subtype binding between the rat and the mouse. It represents the first report of differential changes in cholecystokininA and cholecystokininB receptor messenger ribonucleic acids within the brain, and shows that cholecystokinin receptors within the rodent hypothalamus are capable of plastic responses to chronic osmotic stress.
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PMID:Changes in hypothalamic cholecystokininA and cholecystokininB receptor subtypes and associated neuropeptide expression in response to salt-stress in the rat and mouse. 857 72

Cholecystokinin (CCK) has been suggested to mediate satiety in a number of non-primate species via its peripheral actions as well as a possible central mechanism involving magnocellular and parvocellular oxytocin release. Quantitative in vitro autoradiography employing [125I]-Bolton-Hunter labelled CCK-8S ([125I]-CCK-8S) was used to examine the distribution and density of CCK receptors in sections of brain from normal rats and rats deprived of food, water or both food and water for 4 days. In food-deprived rats, specific [125I]-CCK-8S binding was reduced by 64 +/- 5% in the hypothalamic supraoptic nucleus (SON) and by 44 +/- 13% in the paraventricular nucleus of the hypothalamus (PVN). In contrast, water deprivation increased binding of [125I]-CCK-8S by 128 +/- 15% in the SON and by 196% +/- 24% in the PVN, while combined food and water deprivation produced smaller increases in both nuclei (30 +/- 5% and 98 +/- 26% in SON and PVN respectively). Changes in receptor density in the PVN appeared to be most prominent in the magnocellular (especially oxytocin-rich) subdivisions. None of the treatments employed produced changes in [125I]-CCK-8S binding in the ventromedial hypothalamic nucleus or the reticular thalamic nucleus. Both CCK-A and CCK-B receptor subtypes were visualized in the nucleus of the solitary tract and the area postrema of normal rats, but levels of binding to both of these subtypes were unaffected by the experimental treatments. These selective alterations demonstrate the plasticity of CCK receptors in the SON and PBN, and are probably associated with changes in the level of neurochemical activity of magnocellular oxytocinergic neurones in these areas. These results, together with reports of changes in the level of CCK synthesis in cells of the SON and PVN after hyperosmotic stimuli, suggest that CCK may act in an autocrine fashion on these neurones and that both CCK receptors and peptide levels are altered in the same direction following cellular activation or inhibition.
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PMID:Regulation of cholecystokinin receptors in the hypothalamus of the rat: reciprocal changes in magnocellular nuclei induced by food deprivation and dehydration. 868 Apr 44

Cholesterol affects the ligand binding function of the oxytocin receptor in a highly specific manner. While the structurally-related cholecystokinin receptor shows a strong correlation between the membrane fluidity and its binding function, the oxytocin receptor behaves differently. A stringent and unique requirement of the affinity state of the oxytocin receptor for structural features of the sterol molecule has been found. The molecular requirements differ both from those postulated for sterol-phospholipid interactions and from those known to be necessary for the activity of other proteins. Employing a new detergent-free subcellular fractionation protocol, a two-fold enrichment of the oxytocin receptors (10-15% of total receptors) has been detected in the cholesterol-rich, caveolin-containing membrane domains of the plasma membrane. While most of the properties of the oxytocin receptors were indistinguishable in cholesterol-poor versus cholesterol-rich membrane compartments, high-affinity oxytocin receptors localised in caveolin-enriched low-density membranes showed about a 3-fold higher stability against thermal denaturation at 37 degrees C compared with the oxytocin receptors localised in high-density membranes. Moreover, addition of cholesterol to the cholesterol-poor high-density membranes fully protected the oxytocin receptors against thermal denaturation and partially rescued high-affinity oxytocin binding. Although the membrane fluidity of the caveolin-enriched domains was lower than that in the high-density membranes, there was no correlation between the stability of oxytocin receptors and the fluidity level of the membrane domains. Finally, in a molecular modelling approach a putative cholesterol binding motif on the extracellular surface of the oxytocin receptor was found.
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PMID:Oxytocin receptors and cholesterol: interaction and regulation. 1079 5

Cholesterol, an integral component of membranes in Eucaryota, is a modifier of membrane properties. In vivo studies have demonstrated that cholesterol can also modulate activities of some G protein-coupled receptors (GPCRs), which are integral membrane proteins. This can result either from an effect of cholesterol on the membrane fluidity or from specific interactions of the membrane cholesterol with the receptor, as recently demonstrated for the cholecystokinin type beta (CCKRbeta) or the oxytocin receptor (OTR). Using molecular modelling, we studied conformational preferences of cholesterol and several of its analogues. Subsequently, we simulated the distributions of their preferred conformations around the surface of OTR, CCKRbeta and a chimeric oxytocin/cholecystokinin receptor. Consequently, we suggest residues on the surface of OTR which are potentially significant in the OTR/cholesterol interaction.
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PMID:Molecular modelling study of the role of cholesterol in the stimulation of the oxytocin receptor. 1144 Jan 86

These experiments were performed to study the effect of oxytocin (OT) and it's specific receptor on gallbladder motility in rabbits. The fasted New Zealand white rabbits (2.0-2.5 kg) were anaesthetized by urethane (1 g/kg). The gallbladder pressure was recorded continuously to monitor the gallbladder motility. Systemic OT (0.01, 0.02, 0.04 mg/kg, iv) did not affect the gallbladder pressure, but dose-dependently increased the frequency of phasic contraction. Five min after OT administration (0.04 mg/kg, iv), the strength of phasic contraction increased to 0.23 +/- 0.08 mmHg/min (P < 0.01, n = 6). The gallbladder motility returned to normal 15 min later after OT treatment. Intravenous injection of atosiban (0.04 mg/kg, iv), an OT receptor antagonist, decreased the strength of gallbladder phasic contraction but did not affect gallbladder pressure. Pretreatment of atosiban (0.04 mg/kg, iv) completely abolished the systemic OT effect on gallbladder. Vasopressin (VP) (0.1 - 0.5 IU/kg, iv) dose-dependently decrease the gallbladder pressure but did not affect the phasic contraction. MK-329 (0.4 mg/kg, iv), the CCK-A receptor antagonist, L-365, 260 (0.4 mg/kg, iv), the CCK-B receptor antagonist and atropine (0.2 mg/kg, iv), the M receptor antagonist, did not affect the OT effect on gallbladder motility. We suggest that endogenous OT regulates gallbladder phasic contraction through specific OT receptor. This effect is independent of the peripheral CCK and M receptors.
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PMID:Endogenous oxytocin excites phasic contraction of gallbladder in rabbits through oxytocin receptor. 1467 77

The effects of oxytocin on gastric emptying, gastrointestinal transit, and plasma levels of cholecystokinin (CCK) were studied in ovariectomized rats. Gastrointestinal motility was assessed in rats 15 min after intragastric instillation of a test meal containing charcoal and Na2 51CrO4. Gastric emptying was determined by measuring the amount of radiolabeled chromium contained in the small intestine as a percentage of the initial amount received. Gastrointestinal transit was evaluated by calculating the geometric center of distribution of the radiolabeled marker. Blood samples were collected for CCK radioimmunoassay. After administration of oxytocin (0.2-0.8 mg/kg), gastric emptying and gastrointestinal transit were inhibited, whereas plasma concentration of CCK was increased in a dose-dependent manner. Atosiban, an oxytocin receptor antagonist, effectively attenuated the oxytocin-induced inhibition of gastric emptying and gastrointestinal transit. However, administration of atosiban alone had no effect on gastric emptying and gastrointestinal transit. The selective CCK1 receptor antagonists, devazepide and lorglumide, effectively attenuated the oxytocin-induced inhibition of gastric emptying and gastrointestinal transit. L-365, 260, a selective CCK2 receptor antagonist, did not alter the oxytocin-induced inhibition of gastric emptying and gastrointestinal transit. These results suggest that oxytocin inhibits gastric emptying and gastrointestinal transit in ovariectomized rats via a mechanism involving the stimulation of CCK release and CCK1 receptor activation.
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PMID:Involvement of cholecystokinin receptor in the inhibition of gastrointestinal motility by oxytocin in ovariectomized rats. 1807 24


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