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)

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

To examine whether an excitatory amino acid (EAA) neurotransmitter may influence the secretion of oxytocin (OT), agonists and antagonists selective for three major groups of EAA receptors were microinjected into the area of right supraoptic nucleus (SON) of conscious unrestrained lactating rats. An increase in plasma OT concentration was induced by the EAA receptor agonist R,S-alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA) and kainic acid, but not by agonists at other EAA receptors, such as N-methyl-D-aspartic acid (NMDA) or the metabotropic agonist (1S,3R)-1-amino-cyclopentane-1,3-dicarboxylic acid. Increasing AMPA doses between 0.1-0.8 nmol/SON progressively increased the percentage of animals showing OT discharges to 100% at the highest dose, whereas the responding animals showed similar elevations of plasma OT regardless of dose. OT release induced by intra-SON AMPA was prevented by treatment with the selective non-NMDA receptor antagonist 6-cyano-7-nitroquinoxaline-2,3-dione, but not by antagonists of the NMDA receptor. Administration of this antagonist in the third ventricle blocked the release of OT and PRL induced by suckling. The L-type Ca2+ channel antagonist nimodipine and the Na+ channel inhibitor 3-amino-N-(aminoiminomethyl)5-(N-ethyl-N-isopropyl)6-chloropyra zinecarboxamide produced an additive blockade of AMPA-induced OT release, whereas the N-type Ca2+ channel-preferring antagonist omega-conotoxin GVIA had no effect. These findings suggest that an EAA, most likely glutamate, participates in the physiological regulation of OT release in the lactating rat via actions at an AMPA/kainate receptor subtype that gates Na+ and Ca2+.
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PMID:Stimulation of oxytocin release in the lactating rat by central excitatory amino acid mechanisms: evidence for specific involvement of R,S-alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid-sensitive glutamate receptors. 769 46

Excitatory amino acid (EAA) neurotransmitters participate in the regulation of secretion of several neuropeptides, including oxytocin (OT), via actions at different receptors. In earlier studies, release of OT could be achieved reliably by injection into the supraoptic nucleus (SON) of alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA)/kainate receptor agonists, but not by treatment with N-methyl-D-aspartate (NMDA) alone. This prompted further examination of the possible role of NMDA receptors in OT release following central coapplication of NMDA and AMPA-site agonists, or of NMDA and agonists active at the glycine coagonist site. The agonists were injected into the right SON, the right paraventricular nucleus (PVN), or into the third ventricle (3V) of nonsuckled lactating rats. Cotreatment with NMDA and AMPA (using doses that alone did not include OT release) elicited a strong OT release in all animals by either the SON or the PVN route, and this was attenuated by pretreatment/cotreatment with specific antagonists of either the NMDA or the AMPA receptor. The SON area or 3V coinjection of NMDA and the NMDA/glycine site agonists glycine or D-serine also induced OT discharges in all animals, while cotreatment in the PVN did not result in uniform OT discharges. This release was potently reduced by cotreatment with the specific NMDA/glycine site antagonist 5, 7-dichlorokynurenate (DCK). L-Serine somewhat increased the frequency of discharge-type response to NMDA, while intra-SON coinjection of L-leucine did not stimulate OT release. D-Serine alone stimulated the release of OT much less than in combination with NMDA, and with no obvious dose dependence. The suckling-induced release of OT was attenuated, but not abolished, by DCK, while PRL release was briefly stimulated by this agent. A physiological role for the NMDA receptor in OT release is clearly supported by these studies. NMDA receptor activation in the lactating rat may result from either an allosteric stimulation by glycine site agonists, or a synergistic interaction with the AMPA/kainate group of excitatory amino acid receptors.
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PMID:Central stimulation of oxytocin release in the lactating rat by N-methyl-D-aspartate: requirement for coactivation through non-NMDA glutamate receptors or the glycine coagonist site. 855 78

Vasopressin and oxytocin neuroendocrine cells within the supraoptic nucleus display distinctive electrophysiological properties and differential responses to selected NMDA receptor (NR) antagonists. To determine if these differences might be due to NMDA receptor composition, we compared the expression of NR1, NR2A, NR2B, NR2C and NR2D subunit mRNAs in immunocytochemically identified vasopressin and oxytocin neuroendocrine cells. In contrast to NR1 subunit mRNA which was equally expressed in both vasopressin and oxytocin cells, NR2B and NR2C displayed very different expression patterns. In oxytocin cells, the NR2B subunit comprised the majority (65%) of the total NR2 expression with NR2C and NR2D contributing 6% and 27%, respectively. Vasopressin cells exhibited 5-fold higher NR2C (32%), approximately half as much NR2B mRNA (39%) and equivalent NR2D (31%). In vitro expression studies have shown that the NR1-NR2C subunit combination exhibits weaker magnesium block and higher affinity for glycine than NR1-NR2B. Thus, the high expression of NR2C in vasopressin cells relative to oxytocin cells may make these cells more susceptible to glutamatergic activation. These observations in vasopressin and oxytocin cells provide the basis for a working model to investigate how differential NMDA receptor composition may shape the neurophysiological properties of neurons.
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PMID:Differential expression of five N-methyl-D-aspartate receptor subunit mRNAs in vasopressin and oxytocin neuroendocrine cells. 907 68

Experiments were undertaken to compare effects of the NMDA and non-NMDA receptor antagonists, AP5 (40 microM) and NBQX (10 microM), on glutamate-induced firing in supraoptic oxytocin (OT) and vasopressin (VP) neurones in vitro. In putative OT neurones NBQX caused a significantly greater reduction in firing than AP5, whilst in putative VP neurones both antagonists reduced activity powerfully and to a similar extent. The relatively small effect of AP5 in putative OT neurones was unaffected by the removal of extracellular magnesium. These results suggest that glutamate-induced firing in putative OT neurones is predominantly controlled by non-NMDA receptors.
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PMID:Glutamate excitation of oxytocin neurones in vitro involves predominantly non-NMDA receptors. 936 30

Behavioral experiments have shown that the N-methyl D-aspartate (NMDA) subclass of glutamate receptor plays an important role in acquisition of emotional memory. Exposure of a rat to conditioned fear stimuli suppresses vasopressin (VP) release and augments oxytocin (OT) or prolactin (PRL) release from the pituitary. Present experiments aimed at investigating the effect of intraperitonially administered MK-801, an antagonist of NMDA receptor on the emotional memory associated with the suppressive VP and the augmentative OT or PRL responses to conditioned fear stimuli in male rats. MK-801 injected 30 min before training impaired the VP, OT and PRL responses to the testing fear stimuli. The antagonist injected after training, however, did not block the responses. MK-801 administered before testing impaired the previously acquired VP, OT and PRL responses to conditioned fear stimuli. In the experiments with non-associatively applied fear stimuli, MK-801 did not block the VP, OT or PRL response. In the experiments with novel environmental stimuli, MK-801 did not impair VP, OT or PRL responses. The results suggest that an activation of NMDA receptors are required to acquire and recall but not to consolidate or retain the emotional memory associated with VP, OT and PRL responses to conditioned fear stimuli.
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PMID:Role of NMDA receptors in the emotional memory associated with neuroendocrine responses to conditioned fear stimuli in the rat. 959 38

Vasopressin and oxytocin neuroendocrine cells within the supraoptic nucleus of the adult hypothalamus (SON) display mRNA expression for the NMDA receptor subunits, NR1 and NR2B, NR2C and NR2D. The NR2B subunit confers slow decay kinetics (relative to NR1/NR2A receptors) and high magnesium sensitivity to NMDA receptor responses--properties which may contribute to the NMDA receptor-mediated bursting manifested by these cells. Therefore, we examined NR2B protein expression and its developmental profile in the SON and compared it to that in the cortex and cerebellum--areas which have been studied previously. We performed Western blot analysis on SON homogenates from embryonic, postnatal (PN7, 14, 21), and adult rats using an NR2B-specific antibody. Adult NR2B levels in the SON and PVN were similar but low relative to those of cortex. SON NR2B protein levels rose in the first postnatal week, remained high through PN21, and later declined to significantly lower levels in the adult. A similar profile was observed in cerebellum, where NR2B expression displayed a sharp peak at PN14 and later declined to minimal or undetectable levels in the adult. In contrast, NR2B continued to be overexpressed through adulthood in the cortex. The ontogenic pattern for NR1 expression, which included unregulation during early postnatal life and adulthood, was similar in the SON and cortex. A different pattern was observed for the cerebellum, where NR1 levels increased gradually after ED17 to reach significantly greater adult levels. Of all three areas studied, the SON displayed the earliest developmental rise in NR1 levels. SON explant cultures proved to be a useful preparation, since they contained neurons which synthesized NR1 and NR2B subunits in quantities similar to those of ED17 SON. Our findings suggest that NMDA receptors on SON neuroendocrine cells are assembled using NR1 and NR2B subunits, and that their plastic expression in early postnatal life may play a role during development.
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PMID:Developmental plasticity of NR1 and NR2B subunit expression in the supraoptic nucleus of the rat hypothalamus. 970 87

Previous studies suggest that activation of N-methyl-D-aspartate (NMDA) receptors facilitates phasic firing and spike clustering displayed by magnocellular neuroendocrine cells (MNCs) of the supraoptic (SON) and paraventricular nucleus of the hypothalamus (PVN). Osmotic stimulation produces similar activity patterns which, in turn, can lead to enhanced release of vasopressin and oxytocin from MNCs. Our laboratory has shown that dehydration regulates the expression of the NMDA receptor subunits, NR1 and NR2B, in the SON and PVN, suggesting their involvement in osmoregulation. In the present study, we examined the cellular localization of NR2B, one of the glutamate-binding subunits of the NMDA receptor, with an NR2B-specific antibody. Using double-label immunohistochemistry and three different detection methods with metallic, peroxidase, and fluorescence markers, it was found that both vasopressin and oxytocin-producing MNC populations synthesize NR2B. The incidence of NR2B colocalization with vasopressin-neurophysin in the SON and lateral magnocellular PVN (PVL) was 0.95 and 0.91, respectively. For oxytocin-neurophysin, the corresponding values were 0.97 and 0.95, respectively. Furthermore, the extent of colocalization in MNCs of the SON, PVL, retrochiasmatic SON, and accessory neurosecretory nuclei was similar. Astrocytes associated with the SON, and identified with antibodies targeting glial fibrillary acidic protein (GFAP) or vimentin, were not colabeled with NR2B. Our results demonstrate that NR2B protein is expressed by almost all MNCs and that it is equally prevalent in vasopressinergic and oxytocinergic populations of various magnocellular neuroendocrine nuclei supporting a role of NMDA receptors in MNC-mediated neurosecretory processes. Although NR2B may form part of functional NMDA receptors on MNCs, it is probably not present on astrocytes associated with nearby MNCs.
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PMID:Immunolabeling reveals cellular localization of the N-methyl-D-aspartate receptor subunit NR2B in neurosecretory cells but not astrocytes of the rat magnocellular nuclei. 1104 93

The present study aimed to examine roles of N-methyl-D-aspartic acid (NMDA) receptors in oxytocin and vasopressin release after osmotic stimuli. A noncompetitive NMDA receptor antagonist, MK-801 (0.2 mg/kg body weight, i.p.), significantly decreased plasma concentrations of oxytocin and vasopressin after hypertonic saline injection (0.3 or 0.6 M NaCl, i.p., 20 ml/kg). By contrast, oxytocin release induced by injection of cholecystokinin octapeptide (20 microg/kg, i.p.) was not significantly changed by MK-801. Hypertonic saline injection increased the number of cells expressing Fos in the supraoptic nucleus and in the regions anterior and ventral to the third ventricle (AV3V) regions [the organum vasculosum of the lamina terminalis (OVLT) and median preoptic nucleus]. MK-801 decreased the number of cells expressing protein in these areas after hypertonic saline injection. A microdialysis method showed that a hypertonic saline injection (0.6 M NaCl, 20 ml/kg, i.p.) facilitated glutamic acid release in and near the OVLT. The results support the view that NMDA receptor in the AV3V region modulates in a facilitative fashion the AV3V inputs to the supraoptic neurosecretory neurones.
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PMID:Involvement of N-methyl-D-aspartic acid receptor activation in oxytocin and vasopressin release after osmotic stimuli in rats. 1116 42

The release of vasopressin and oxytocin from the supraoptic nucleus (SON) neurons is tonically regulated by excitatory glutamatergic and inhibitory GABAergic synaptic inputs. Acetylcholine is known to excite SON neurons and to elicit vasopressin release. Cholinergic receptors are located pre- and postsynaptically in the SON, but their functional significance in the regulation of SON neurons is not fully understood. In this study, we determined the role of presynaptic cholinergic receptors in regulation of the excitatory glutamatergic inputs to the SON neurons. The magnocellular neurons in the rat hypothalamic slices were identified microscopically, and the spontaneous miniature excitatory postsynaptic currents (mEPSCs) were recorded using the whole cell voltage-clamp technique. The mEPSCs were abolished by the non-NMDA receptor antagonist 6-cyano-7-nitroquinoxaline-2,3-dione (20 microM). Acetylcholine (100 microM) significantly increased the frequency of mEPSCs of 38 SON neurons from 1.87 +/- 0.36 to 3.42 +/- 0.54 Hz but did not alter the amplitude (from 19.61 +/- 0.90 to 19.34 +/- 0.84 pA) and the decay time constant of mEPSCs. Furthermore, the nicotinic receptor antagonist mecamylamine (10 microM, n = 16), but not the muscarinic receptor antagonist atropine (100 microM, n = 12), abolished the excitatory effect of acetylcholine on the frequency of mEPSCs. These data provide new information that the excitatory effect of acetylcholine on the SON neurons is mediated, at least in part, by its effect on presynaptic glutamate release. Activation of presynaptic nicotinic, but not muscarinic, receptors located in the glutamatergic terminals increases the excitatory synaptic input to the SON neurons of the hypothalamus.
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PMID:Potentiation of glutamatergic synaptic input to supraoptic neurons by presynaptic nicotinic receptors. 1155 16

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