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)

The efflux of [3-H]GABA from glial cells in the rat posterior pituitary was followed in isolated glands incubated in the presence of 10-minus 5 M aminooxyacetic acid which is known to inhibit GABA metabolism. Electrical stimulation of the pituitary stalk evoked an increase in the rate of efflux of [3-H]GABA as did elevation of the extracellular potassium concentration. The release of neurophysin from nerve terminals in the gland was also increased by electrical stimulation. The increase in [3-H]GABA efflux appeared to be independent of frequency at 2, 5, or 25 HZ if the number of pulses delivered was kept constant, although stimulation at 10 HZ was more effective than either 2 or 25 HZ. The efflux of [3-H]GABA evoked by 56 mM K+ was inhibited by 50% when calcium was removed from the washing fluid and 3 mM EGTA added, while the response evoked by electrical stimulation was unaffected by this procedure. The electrically induced efflux of [3-H]GABA was inhibited by 50% when choline chloride was substituted for sodium chloride in the washing medium, although it was unaffected by tetrodotoxin (0.8 times 10-minus 6 g/ml). The release of exogenous GABA from the pituicyte glia is compared with that of neurophysin from the nerve terminals in the posterior pituitary, and the results are discussed with reference to possible mechanisms of the glial release process.
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PMID:The release of [3-H]gamma-aminobutyric acid and neurophysin from the isolated rat posterior pituitary. 113 91

1. Magnocellular neurosecretory cells (MNCs) were isolated from the supraoptic nucleus of adult Long-Evans rats using an enzymatic procedure. Immunocytochemical staining with antibodies against vasopressin and oxytocin revealed that MNCs can be identified by size. The membrane properties of these cells were examined at 32-34 degrees C using intracellular recording methods. 2. Isolated MNCs displayed a mean (+/- S.E.M.; n = 109) resting membrane potential of -64.1 +/- 1.0 mV, an input resistance of 571 +/- 34 M omega, and a time constant of 8.7 +/- 0.4 ms. Measurements of specific resistivity and input capacitance revealed that the soma of these cells accounts for a mere 20% of their total somato-dendritic membrane in situ. 3. Voltage-current relations measured near -60 mV were linear negative to spike threshold. From more hyperpolarized membrane potentials, voltage responses to depolarizing current steps displayed transient outward rectification and delayed impulse discharge. 4. Action potentials (76.6 +/- 0.9 mV) triggered from an apparent threshold of -59.3 +/- 0.1 mV broadened progressively at the onset of spontaneous or current-evoked spike trains. Steady-state spike duration increased as a logarithmic function of firing frequency with a maximum near 25 Hz. These effects were abolished in Ca(2+)-free solutions. 5. In all cells, evoked spike trains were followed by a prolonged Ca(2+)-sensitive after-hyperpolarization. In contrast, only a small proportion (16%) of MNCs displayed spontaneous bursting activity or depolarizing after-potentials following brief current-evoked bursts. 6. Isolated MNCs responded to amino acids (glutamate and GABA) and to the neuropeptide cholecystokinin, indicating that receptors for these neurotransmitters are expressed postsynaptically by MNCs and are retained following dissociation. 7. Increasing the osmolality of the superfusing solution by 5-30 mosmol kg-1 caused a membrane depolarization associated with a decrease of input resistance and accelerated spontaneous spike discharge in each of thirty-six MNCs tested. Current-clamp analysis suggested that these responses resulted from the activation of a cationic conductance. Excitatory effects of hyperosmolality were not observed in non-magnocellular neurones (n = 6).
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PMID:Properties of supraoptic magnocellular neurones isolated from the adult rat. 136 42

Experiments on isolated strips of the non-pregnant rabbit and rat uterus showed the ability of dopamine, noradrenaline, serotonin, acetylcholine, prostaglandin F2 alpha, oxytocin to increase the uterine strips contractile activity. On the other hand, GABA, GABAB receptors agonist phenibut and diazepam inhibit the stimulating effects of the above mentioned substances, thus showing the properties of physiological antagonists of these neuromediators, prostaglandin and oxytocin.
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PMID:[Action of GABA-positive preparations on uterus-stimulating effects of activating neuromediators, prostaglandin F2 alpha and oxytocin]. 139 97

Pharmacologic investigations into the transmission processes underlying fictive swallowing in the rat have disclosed the potential diversity of chemical signals used in central deglutitive pathways. Monoaminergic mechanisms appear to serve as links between subcortical structures and the medullary pattern generator of swallowing (PGS), and may play a critical role in maintaining internal facilitatory drive, required by the PGS for optimal responsivity to peripheral sensory input. Cholinergic bulbar interneurons form an integral component of the PGS subnetwork controlling esophageal peristalsis. Local GABA neurons exert a tonic inhibition of the buccopharyngeal stage, may regulate buccopharyngeal-esophageal coupling, and may contribute to peristaltic rhythmic generation at both the premotoneuronal and motoneuronal level. Receptor subtypes for excitatory amino acids (glutamate, aspartate) are differentially associated with deglutitive premotoneurons for both the buccopharyngeal and esophageal stage, as well as with ambiguus motoneurons. Preliminary evidence suggests the existence of excitatory peptidergic mechanisms involving thyrotropin-releasing hormone, vasopressin, oxytocin, and somatostatin, a probable candidate for excitatory transmitter in the solitarioambigual internuncial projection to motoneurons innervating esophageal striated musculature. Further validation of this experimental model may ultimately help to establish a framework for the clinical recognition, management, and exploitation of drug actions on central deglutitive neuroeffectors.
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PMID:Neuropharmacologic correlates of deglutition: lessons from fictive swallowing. 168 Jun 8

Central neurotransmitter and/or neuromodulator candidates reported to affect gastric acid secretion are: (excitatory) acetylcholine, thyrotropin releasing hormone, GABA, oxytocin; (inhibitory) noradrenaline, adenosine, bombesin, calcitonin-gene related peptide, corticotropin releasing factor, beta-endorphin, neurotensin, neuropeptide Y, insulin-like growth factor II and prostaglandins. Regulation of gastric acid secretion by central administration of these substances in experimental animals such as rats and dogs are briefly reviewed, and central inhibitory mechanisms of this function are discussed based on our studies with noradrenaline and bombesin. Roles of hypothalamic nuclei such as the ventromedial nucleus and the lateral hypothalamus in regulation of autonomic nerve activities are also described as an introductory note.
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PMID:[Central neurotransmitters and regulation of gastric acid secretion]. 198 Jun 59

The effects of vasoactive intestinal polypeptide (VIP), of a selective oxytocin antagonist and of GABA on basal and stimulated oxytocin and vasopressin release from isolated neurosecretory endings were investigated. Superfusion of the secretosomes with VIP (10(-7) M) induced an increased basal and stimulated release of both oxytocin and vasopressin. Addition of the oxytocin antagonist induced a decrease of the stimulated oxytocin release as compared to the control which indicated a positive feedback mechanism of oxytocin on oxytocin release. In presence of GABA (1 or 50 microM) no change in basal or stimulated oxytocin and vasopressin release was observed.
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PMID:Modulation of oxytocin and vasopressin release from rat neurosecretosomes: the roles of VIP oxytocin and GABA. 206 99

If we consider the chemical messengers in the central nervous system, there are about ten classic transmitters--the catecholamines, biogenic amines and amino acids--as opposed to over 50 different neuropeptides. These include previously well-established circulating hormones such as angiotensin, atrial natriuretic peptide, vasopressin and oxytocin, calcitonin and calcitonin gene related peptide (CGRP), the opioid family of peptides, gastrointestinal peptides, pituitary peptides and their releasing factors, and miscellaneous peptides such as the kinins, bombesin, gallanin, and others; all occur as neuropeptides in the brain. There is evidence supporting a role in central cardiovascular control for angiotensin, opioid peptides, substance P, neuropeptide Y, vasopressin, atrial natriuretic peptide, kinins, corticotropin releasing factor, bombesin, somatostatin, and some other peptides. They have been localized in brain areas known to be important for blood pressure regulation, and specific high-affinity peptide receptors have also been discovered. Upon central administration, these peptides produce cardiovascular effects, partly by interacting with other blood pressure-controlling neuroregulators, e.g. catecholamines and GABA. Central inhibition of brain peptide synthesis or interaction with competitive antagonists at the receptor site results in marked cardiovascular effects. Altered peptide levels and activity of synthesizing enzymes, as well as supersensitivity to the pressor action of some brain peptides, have been described in experimental models of hypertension. We are using angiotensin as a model peptide to study the peptidergic control of cardiovascular function.
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PMID:Peptidergic control of cardiovascular function: the angiotensin paradigm. 219 11

Estrogen receptors are distributed in discrete areas of the hypothalamus, preoptic area and amygdala of the rat brain, and in some of these areas estrogens induce progestin receptor sites. Estradiol (E), followed by progesterone (P), induce feminine sexual behavior in female, but not in male, rats. This induction takes time (on the order of hours, not minutes, so that the hormone may be cleared from the body) and is dependent on RNA and protein synthesis. Within the hypothalamic ventromedial nuclei (VMN), E and P induce changes in RNA and protein synthesis and also induce morphological changes indicative of cellular growth, genomic activation, and either new synapse formation or morphological rearrangement of existing synapses. Neurochemically, a number of neurotransmitter systems are implicated in the control of feminine sexual behavior, including acetylcholine, serotonin, GABA, and the neuropeptides, oxytocin and CCK. One of the means by which E and P may exert their influence on sexual behavior, aside from the morphological alterations, is by regulating levels of receptors for certain of these neurotransmitters. The critical differences which underlie the inability of male rats to display high levels of feminine sexual behavior after E plus P priming may depend on sex differences in the ability of E to induce particular neurochemical products as well as P receptors and upon differences in neural circuitry in the VMN.
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PMID:Genomic regulation of sexual behavior. 245 98

Immunoreactive galanin-like material was recently shown to co-exist with vasopressin in parvocellular and magnocellular perikarya of the paraventricular nucleus in the anterior hypothalamus of the rat (Melander et al. 1986). Since this distribution pattern differed from our observation of oxytocin-associated galanin-like immunoreactivity (LI) in the neurohypophysis, we compared in series of 0.5-microns thick sections the localisation of galanin-LI with the localisation of oxytocin and vasopressin/dynorphin in the hypothalamus, the median eminence and the neurohypophysis. In the oxytocin system, galanin-LI was intense in oxytocin varicosities of the neurohypophysis. Oxytocin perikarya of the hypothalamic supraoptic and paraventricular nuclei exhibited galanin-LI only after intraventricular injection of colchicine and when sections were treated with trypsin prior to application of the antibody. In the vasopressin/dynorphin system galanin-LI was intense in hypothalamic perikarya after colchicine injection and in neurohypophysial varicosities after treatment of the sections with trypsin. In these neurones, galanin-LI was absent or weak in all elements when treatments with colchicine or trypsin were omitted. Galanin-LI in the neurohypophysis was not co-localised with the numerous fine endings showing GABA-LI. These observations indicate that galanin-like material coexists with vasopressin and oxytocin in the respective magnocellular neurones, although not always in an immunoreactive form.
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PMID:Immunoreactive galanin-like material in magnocellular hypothalamo-neurohypophysial neurones of the rat. 247 16

The release of oxytocin and vasopressin from rat neurointermediate lobes was determined in vitro. The electrically evoked release of posterior pituitary hormones was markedly potentiated by the GABA receptor agonist, isogauvacin, an effect which was abolished by the GABAA receptor antagonist bicuculline. Spontaneous hormone outflow was not affected by the substances tested. The results suggest the existence of a GABA receptor on the terminal fibres in the pituitary, facilitating the release of oxytocin and vasopressin.
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PMID:GABA receptor stimulation increases the release of vasopressin and oxytocin in vitro. 282 74

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