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

The recently discovered efferent projections from the main and accessory olfactory bulbs to the supraoptic nucleus (SON) were further investigated. Intracellular electrophysiological methods were used to determine (a) if these projections are monosynaptic, (b) which excitatory amino acid (EAA) receptor subtypes mediate responses to activation of these pathways and (c) whether the same receptor subtypes mediate responses of phasically firing (vasopressin) and continuously firing (putative oxytocin) neurons. Recordings were made from SON neurons in large explants and 500 microns thick horizontal slices, containing 2-6 mm of the piriform cortex and lateral olfactory tract (LOT). This allowed recording of synaptic responses to selective stimulation of the LOT. EPSPs in SON neurons faithfully followed stimulus frequencies of 50-100 Hz, indicating that these inputs were monosynaptic. Stimulus-evoked EPSPs were blocked by the non-specific EAA antagonist, kynurenate. Perifusion of the slice with Mg(2+)-free medium revealed the presence of NMDA receptors in addition to the non-NMDA receptors on both phasically and continuously firing cells, indeed, on all cells tested. Partial blockade of these EPSPs in Mg(2+)-free medium could be achieved with either the NMDA antagonist, AP5, or the non-NMDA antagonist, CNQX or NBQX. Full blockade of the stimulus-evoked EPSPs was effected by adding both types of antagonists to the medium, although spontaneous EPSPs were still observed in several cells. These results are consistent with prior studies showing both receptor subtypes in the SON. This is the first demonstration that afferent stimulation activates both subtypes in the same SON neuron regardless of its peptide content.
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PMID:NMDA and non-NMDA receptors on rat supraoptic nucleus neurons activated monosynaptically by olfactory afferents. 766 78

1. To characterize the organum vasculosum lamina terminalis (OVLT) innervation of hypothalamic supraoptic nucleus (SON) neurones, current clamp recordings were obtained in SON cells in superfused rat hypothalamic explants. Stimulation of 1 Hz evoked 5-10 mV bicuculline-sensitive IPSPs in forty out of forty-six SON neurones, including both phasic (vasopressin immunoreactive) and continuously firing (oxytocin immunoreactive) cells. 2. In twenty-four cells, mean IPSP latency was 8.7 +/- 1 ms (+/- S.D.) and reversal potentials (Vr) ranged between -60 and -75 mV. In the other sixteen cells, Vr ranged between -20 and -55 mV and the addition of bicuculline revealed underlying EPSPs (latency, 7.8 +/- 0.8 ms; mean Vr, -8 +/- 10 mV) with two components: (a) fast (rise and half-decay times of 5.83 +/- 1.3 ms and 19 +/- 4.4 ms respectively), with reversible blockade by 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX); (b) slow (4- to 5-fold increase in rise and half-decay time), with reversible reduction by (-)-aminophosphonovaleric acid (APV). 3. During 10 Hz stimulation, EPSPs summated into 3-7 mV depolarizing envelopes lasting 1.5-3.0 s and sustaining action potential bursts. Depolarizing envelopes displayed voltage dependence, and were enhanced after removal of extracellular magnesium, diminished by APV and completely abolished by APV and CNQX together. 4. Thus, non-NMDA receptors probably mediate fast EPSPs whereas NMDA receptors mediate slow EPSPs and depolarizing envelopes. OVLT-evoked EPSPs were only seen in vasopressin-immunoreactive neurones. 5. These observations indicate converging inhibitory and target-selective excitatory amino acid-mediated inputs from OVLT to SON; the latter may modulate the excitability of SON vasopressin neurones to a hyperosmotic challenge.
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PMID:Organum vasculosum lamina terminalis-evoked postsynaptic responses in rat supraoptic neurones in vitro. 791 22

N-Methyl-D-aspartate receptors are thought to be involved in synaptic signaling within the hypothalamo-neurohypophysial system, but the extent and nature of their involvement has not been determined. In this study, in the rat, we evaluated the effect of hyperosmotic stimulation on the N-methyl-D-aspartate receptor subunit, NR1, which confers function to N-methyl-D-aspartate receptor heteromers. Co-localization of immunoreactivity for NR1 and vasopressin- or oxytocin-associated neurophysin in magnocellular neurons of the supraoptic and paraventricular hypothalamic nuclei was accomplished using double-label immunohistochemistry. Our results show that vasopressin- and oxytocin-neurophysin-positive populations contained detectable levels of NR1 labeling. Using NR1 labeling as a measure of N-methyl-D-aspartate receptor density, we examined the effect of dehydration in these nuclei. Using computer-assisted densitometry, we found significantly greater NR1 labeling densities in the magnocellular regions of both the supraoptic and paraventricular nuclei of saline-treated rats than of control rats. This increase was not due to methodological factors, since no changes in NR1 labeling density were found in a nearby nucleus, the nucleus reuniens. Western blot analysis showed similar selective increases in NR1 labeling in homogenates from the supraoptic nucleus, paraventricular nucleus and in some cases from the anterior hypothalamic area. In both immunohistochemical and western blotting experiments we did not observe a dehydration-induced increase in NR1 in other brain areas examined. Our results showing an up-regulation of NR1-containing N-methyl-D-aspartate receptors during dehydration suggest that these receptors are involved in the regulation of body water and may represent an adaptive physiological response following activation of the hypothalamo-neurohypophysial axis. In addition, these results suggest that the functional expression of N-methyl-D-aspartate receptors is dynamic and may be modified according to the physiological state of the animal.
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PMID:Increased expression of the N-methyl-D-aspartate receptor subunit, NR1, in immunohistochemically identified magnocellular hypothalamic neurons during dehydration. 913

1. In the rat, projections from the suprachiasmatic nucleus (SCN) to the supraoptic nucleus (SON) of the hypothalamus were characterized in vivo using extracellular recordings and in slice preparations using both extracellular and whole-cell patch clamp recording. 2. Of 117 magnocellular neurones recorded in the SON in vivo, fifteen (13%) displayed a short latency excitation, sixty-eight (58%) a short latency inhibition, six (5%) were unresponsive and twenty-eight (24%) gave long latency responses following SCN stimulation. 3. The responses of putative vasopressin cells in the SON to SCN stimulation in vivo (4 out of 61 cells, 7% excited; 49 out of 61 cells, 80% inhibited) were significantly different from those of putative oxytocin cells (10 out of 50 cells, 20% excited and 16 out of 50 cells, 32% inhibited; P < 0.02, test for differences between proportions). 4. Recordings in vitro using patch technology in whole-cell mode showed both inward and outward currents in SON cells at holding potentials near resting membrane potential following stimulation of the SCN region. The outward currents could be blocked by bicuculline (10 microM; n = 7) and the inward currents were blocked by the non-NMDA antagonist 6-nitro-7-sulphamoylbenzo(f)quinoxaline-2,3-dione (5 microM; n = 4). 5. We conclude that there is a strong projection from the SCN to the SON with both inhibitory (GABAergic) and excitatory (glutamatergic) components which may regulate the daily changes in neurohypophysial hormone secretion.
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PMID:Neurones in the supraoptic nucleus of the rat are regulated by a projection from the suprachiasmatic nucleus. 923 3

Hypothalamo-neurohypophysial magnocellular neurons display specific electrical activities in relation to the mode of release of their hormonal content (vasopressin or oxytocin). These activities are under strong glutamatergic excitatory control. The implication of NMDA receptors in the control of vasopressinergic and oxytocinergic neurons is still a matter of debate. We here report the first detailed characterization of functional properties of NMDA receptors in voltage-clamped magnocellular neurons acutely dissociated from the supraoptic nucleus. All cells responded to NMDA with currents that reversed polarity around 0 mV and were inhibited by D-2-amino-5-phosphonovalerate (D-APV) and by 100 microM extracellular Mg2+ (at -80 mV). Sensitivity to the co-agonist glycine (EC50, 2 microM) was low compared with most other neuronal preparations. The receptors displayed low sensitivity to ifenprodil, were insensitive to glycine-independent potentiation by spermine, and had a unitary conductance of 50 pS. No evidence was found for two distinct cell populations, suggesting that oxytocinergic and vasopressinergic neurons express similar NMDA receptors. Characterization of NMDA receptors at different postnatal ages revealed a transient increase in density of NMDA currents during the second postnatal week. This was accompanied by a specific decrease in sensitivity to D-APV, with no change in NMDA sensitivity or any other properties studied. Supraoptic NMDA receptors thus present characteristics that strikingly resemble those of reconstituted receptors composed of NR1 and NR2A subunits. Understanding the functional significance of the development of NMDA receptors in the supraoptic nucleus will require further knowledge about the maturation of neuronal excitability, synaptic connections and neurohormone release mechanisms.
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PMID:NMDA receptor properties in rat supraoptic magnocellular neurons: characterization and postnatal development. 924 Apr 1

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

1. Recent experimental evidence has shown that nitric oxide (NO) plays an important role in the expression of penile erection and yawning and that this molecule has to be added to the list of the best known neurotransmitters and neuropeptides involved in this symptomatology. 2. This was first suggested by the ability of NO synthase inhibitors injected in the lateral ventricles (i.c.v.) or in the paraventricular nucleus of the hypothalamus (PVN) to prevent these behavioral responses induced by dopamine agonists, oxytocin and NMDA. The inhibitory effect of NO synthase inhibitors was not observed when these compounds were injected concomitantly with L-arginine, the precursor of NO. Most important, this hypothalamic nucleus is one of the richest brain areas of NO synthase and also the brain site where dopamine, NMDA and oxytocin act to induce penile erection and yawning by activating central NO synthase containing oxytocinergic neurons. 3. NO synthase inhibitors given i.c.v. but not in the PVN prevent also penile erection and yawning induced by ACTH and serotonin1c agonists, which induce these responses by acting with mechanisms unrelated to oxytocinergic transmission. 4. Dopamine agonists, NMDA and oxytocin increase NO production in the PVN at doses that induce penile erection and yawning, as determined by measuring the concentration of NO2- and NO3- in the dialyzate obtained with a vertical probe implanted in the PVN by in vivo microdialysis. 5. NO donors, such as nitroglycerin, sodium nitroprusside and hydroxylamine, induce penile erection and yawning indistinguishable from those induced by oxytocin, dopamine agonists or NMDA when injected in the PVN. The NO donor response was prevented by the i.c.v. injection of the oxytocin receptor antagonist d(CH2)5-Tyr(Me)-Orn8-vasotocin, indicating that these compounds also induce penile erection and yawning by activating oxytocinergic transmission. 6. Finally, guanylate cyclase inhibitors (i.e. methylene blue and LY 83583) and hemoglobin injected in the PVN do not prevent drug-induced penile erection and yawning, nor 8-Br-cGMP injected in the PVN induces these behavioral responses suggesting that the mechanism by means of which endogenous or NO donor-derived NO facilitates oxytocinergic transmission to induce penile erection and yawning is not related to the activation of guanylate cyclase. Furthermore, since hemoglobin, in spite of its ability to prevent drug-induced NO production in the PVN, does not prevent penile erection and yawning, it is likely that NO acts as an intracellular rather than an intercellular modulator in the PVN neurons in which is formed to facilitate the expression of these behavioral responses.
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PMID:Role of central nitric oxide in the control of penile erection and yawning. 938 Jul 88

Conditioned fear stimuli suppress motor activity. The fear stimuli suppress vasopressin and facilitate oxytocin and prolactin release. These fear responses are impaired by selective destruction of noradrenergic neurones. Adenosine 5'-triphosphate is co-released from noradrenergic nerve terminals with noradrenaline. Thus the possibility arises that the behavioural and neuroendocrine responses may be mediated by purinergic rather than noradrenergic synapses. We examined whether suramin, an inhibitor of P2 and NMDA receptors, blocks conditioned fear responses. Suramin injected i.c.v. 30 min before testing stimuli impaired conditioned fear responses. The role of purinergic P2 receptors in expression of the behavioural and neuroendocrine responses to conditioned fear stimuli is discussed.
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PMID:Effects of suramin on neuroendocrine and behavioural responses to conditioned fear stimuli. 960 56

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

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