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. Membrane potentials have been recorded from cells of seminiferous tubules of rats in vitro using micro-electrodes. The value in 808 impalements was -28-2 +/- 0-3 mV (mean +/- S.E.) at 33 degrees C. 2. Increasing the potassium concentration depolarized the cells, a tenfold increase in concentration causing a depolarization of 16 mV. Removal of sodium from the bathing solution caused a hyperpolarization of 3 mV at a potassium concentration of 5-9 m-equiv/l. Removal of chloride and replacement with impermeant anions had no effect on potential. Removal of calcium from the bathing solution caused a minor but significant depolarization. 3. Ouabain (10-3 M), dinitrophenol (2-5 times 10-4 M) or removal of glucose from the bathing fluid all caused depolarization. The membrane potentials of the cells were sensitive to temperature over the range 10-33 degrees C, the apparent activation energy for the reactions maintaining the potential being approximately 6 kcal/mole. 4. Membrane potentials in seminiferous tubules were independent of age of the animal, were insensitive to previous hypophysectomy and were insensitive to a number of hormones (FSH, LH, HCG, oxytocin). In high concentration prostaglandin E1 caused depolarization. 5. Acetazoleamide (4 times 10-5 M) caused a rapid, but reversible, depolarization of the tubular cells. This was also true in conditions when the HCO'3/CO2 buffer system was replaced with Tris-buffer. Another carbonic anhydrase inhibitor (p-sulphonamido-benzoic acid) had similar effects on cell potentials as acetazoleamide. These results are discussed in relation to the nature of the ionic secretion produced in the tubules. 6. Occasional cells showed phasic variations in membrane potential. A possible connexion between these variations and the contractile activity of the tubules is discussed.
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PMID:Intracellular potentials in cells of the seminiferous tubules of rats. 115 7

Smooth muscle cells normally do not possess fast Na+ channels, but inward current is carried through two types of Ca2+ channels: slow (L-type) Ca2+ channels and fast (T-type) Ca2+ channels. Using whole-cell voltage clamp of single smooth muscle cells isolated from the longitudinal layer of 18-day pregnant rat uterus, depolarizing pulses, applied from a holding potential of -90 mV, evoked two types of inward current, fast and slow [8]. The fast inward current decayed within 30 ms, depended on [Na]o, and was inhibited by TTX (K0.5 = 27 nM). The slow inward current decayed slowly, was dependent on [Ca]o, and was inhibited by nifedipine. These results suggest that the fast inward current is a fast Na+ channel current, and that the slow inward current is a Ca2+ slow channel current. A fast-inactivating Ca2+ channel current was not evident. Thus, the ion channels which generate inward currents in pregnant rat uterine cells are TTX-sensitive fast Na+ channels and dihydropyridine-sensitive slow Ca2+ channels. The number of fast Na+ channels increased during gestation. The averaged current density increased from 0 on day 5, to 0.19 on day 9, to 0.56 on day 14, to 0.90 on day 18, and to 0.86 pA/pF on day 21. This almost linear increase occurs because of an increase in the fraction of cells which possess fast Na+ channels, and it is suggested that the fast Na+ current may be involved in spread of excitation. The Ca2+ channel current density also was higher during the latter half of gestation. These results indicate that the fast Na+ channels and Ca2+ slow channels in myometrium become more numerous as term approaches, and may facilitate parturition. Isoproterenol (beta-agonist) did not affect either ICa(s) or INa(f), whereas Mg2+ (K0.5 of 12 mM) and nifedipine (K0.5 of 3.3 nM) depressed ICa(s). Oxytocin had no effect on INa(f) and actually depressed ICa(s) to a small extent. Therefore, the tocolytic action of beta-agonists cannot be explained by an inhibition of ICa(s), whereas that of Mg2+ can be so explained. The stimulating action of oxytocin on uterine contractions is not due to stimulation of ICa(s). Figure 11 summarizes the possible mechanisms by which uterine contractility can be modulated. In contrast to vascular smooth muscle, neither ISO nor adenosine, which produce elevation of cyclic AMP, affected ICa and INa. Therefore, no arrow can be drawn between cA-PK/cG-PK and the Ca2+ slow channel.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Fast Na+ channels and slow Ca2+ current in smooth muscle from pregnant rat uterus. 128 Dec 64

The effects of oxytocin, a uterotonic polypeptide hormone, on the voltage-dependent slow calcium, fast sodium, and potassium channel currents were studied using whole-cell voltage clamp of freshly isolated cells from late pregnant (18-21 day) rat myometrium. The calcium current was rapidly inhibited by oxytocin (about 25% inhibition at 20 nM) in a dose-dependent manner, and this inhibitory effect was completely reversible by washout. However, inhibition was not observed when barium was used as the charge carrier. Sodium current and potassium current were not modified by oxytocin, thus sodium and potassium currents may not play important roles in oxytocin-induced augmentation of uterine contraction. It is concluded that oxytocin stimulates uterine contraction by mechanisms other than augmentation of the voltage-dependent calcium current, e.g., by release of Ca from sarcoplasmic reticulum (by inositol triphosphate) or by activation of a receptor-operated Ca channel. The inhibition of the slow calcium current may be induced by the elevation of [Ca]i.
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PMID:Oxytocin actions on voltage-dependent ionic channels in pregnant rat uterine smooth muscle cells. 128 86

1. The mechanism of action of oxytocin on vagal neurones of the rat was studied using single-electrode voltage-clamp recordings from brainstem slices. The ionic basis of the oxytocin-induced current was examined by changing the composition of the perfusion solution and by making use of channel blockers. 2. In neurones clamped at or near their resting potential, oxytocin generated a sustained, TTX-insensitive inward current whose peak amplitude was concentration related. This current was detectable at 10 nM, was half-maximal at about 100 nM and was maximal at micromolar concentrations of peptide. 3. The oxytocin current was inward over membrane potentials ranging from -110 to -20 mV and was voltage dependent, since it increased in magnitude as the membrane was depolarized from the resting potential toward less negative potentials. 4. Partial replacement of extracellular sodium by equimolar N-methyl-D-glucamine reversibly attenuated or suppressed the oxytocin current. By contrast, substituting part of extracellular chloride or blocking calcium currents did not modify it. Increasing the transmembrane potassium gradient was also without effect and none of the potassium channel blockers TEA, 4-amino pyridine (4-AP), apamin, caesium or barium affected the oxytocin current. This current is thus at least in part carried by sodium. 5. The activation of the oxytocin current as a function of the membrane potential could be quantitatively simulated using a Boltzmann equation, suggesting that oxytocin acts by inducing the opening of a voltage-dependent channel which can exist in either of two states, open or closed. 6. Lowering the extracellular calcium concentration from 2 to 0.1 mM, while keeping the magnesium concentration constant at 1 mM, enhanced the response to oxytocin. This low calcium-induced potentiation of the oxytocin current was 1.4-3-fold and was reversible. 7. We conclude that oxytocin increases the excitability of vagal neurones by generating a persistent, voltage-gated current which is sodium dependent, is insensitive to TTX and is modulated by divalent cations.
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PMID:Mechanism of action of oxytocin in rat vagal neurones: induction of a sustained sodium-dependent current. 129 30

1. Extracellular recordings were made from 297 spontaneously firing neurones in the dorsal motor nucleus of the vagus (DMV) in slice preparations of rat medulla oblongata. Some of the neurones recorded were identified to be vagal motoneurones by antidromic stimulation. The cells fired with a slow irregular pattern at an average rate of 1.1 +/- 0.1 spikes/s (mean +/- S.E.M.). 2. Arginine vasopressin (AVP) was applied by perfusion in 196 of the 297 cells. Most of the neurones (190/196, 97%) were excited by 10(-6) M AVP with an increase in firing rate from the basal level of 1.1 +/- 0.1 to a maximum of 2.5 +/- 0.2 spikes/s. There was a dose-dependent relation between the concentration of AVP and the increased firing rate in all DMV neurones tested (n = 38). The threshold concentration of the peptide to produce changes in firing rate was assumed to be about 10(-10) M. The remaining six neurones were not affected by application of AVP. 3. Application of oxytocin (OXT, 10(-6) M) increased the firing rate of all thirty-eight neurones tested. The effects of AVP and OXT on all neurones examined (n = 20 and 4, respectively) still persisted after blocking the synaptic transmission in a low-Ca2+ or Ca(2+)-free-high-Mg2+ solution, indicating the direct action of both AVP and OXT on the postsynaptic membranes. 4. The AVP-induced excitatory responses were completely but reversibly blocked by the V1-type receptor antagonists, [1-(beta-mercapto-beta, beta-cyclopentamethylene-propionic acid), 2-(O-methyl)tyrosine]-arginine vasopressin (d(CH2)5Tyr(Me)AVP) (n = 5) and Phaa-D-Tyr(Et)Phe-Gln-Asn-Lys-Pro-Arg-NH2 (n = 6), whereas a selective and reversible OXT receptor antagonist, desGly-NH2d(CH2)5[Tyr-(Me)2Thr4]ornithine vasotocin, which suppressed the OXT-induced excitation, did not block the responses to AVP (n = 11). 5. Application of angiotensin II (AII, 10(-6) M) to 153 neurones increased the firing rates of 60 (39%) neurones. The firing rate was increased from the basal level of 1.0 +/- 0.1 to a maximum of 1.8 +/- 0.2 spikes/s (n = 60). The effect of AII was completely abolished by an AII receptor antagonist, [Sar1,Ile8]angiotensin II (n = 6). There was a dose dependence of the excitatory response on AII concentration in all of eleven neurones tested. The threshold concentration was assumed to be about 10(-9) M. The activity of 5 (3%) of 153 neurones was decreased, and the remaining 88 (58%) neurones were not affected by AII.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of vasopressin and angiotensin II on neurones in the rat dorsal motor nucleus of the vagus, in vitro. 130 79

Increased expression of the oxytocin gene of ruminants is associated with the process of luteinization both in vivo and in vitro. Cell culture studies and measurements of mRNA in luteal extracts have confirmed that the gene is switched on in the preovulatory follicle about 24 h before ovulation, at the time of the gonadotrophin surge. It is downregulated again equally rapidly after ovulation, so that by day 2 of the cycle the capacity of the luteal cells to make oxytocin has already been greatly reduced. A number of factors can increase oxytocin production by luteinizing granulosa cells. They include oestradiol and compounds such as gonadotrophins and catecholamines which are known to act by increasing intracellular concentrations of adenylyl cyclase. However, all of these factors are ineffective if the follicle is collected too early, suggesting that an initial maturation step is necessary to develop responsiveness. Analysis of the promoter region of the bovine oxytocin gene has indicated that neither oestradiol nor cAMP can directly initiate activation; instead regulation appears to occur via a COUP factor binding site. Additional transacting nuclear proteins may therefore be required to act as intermediaries. The same factors that initially stimulate oxytocin production switch to inhibiting production shortly after ovulation, leading to downregulation of the gene. After translation of oxytocin mRNA during the luteal phase, oxytocin precursor is packaged into secretory granules in the large luteal cells. Processing involves a series of enzymatic steps, culminating in amidation to produce oxytocin. Cultured cells may secrete intermediate forms of partially processed peptide, but it is not known if this also occurs in vivo. Oxytocin release from the cell involves granule exocytosis which is probably triggered by an increase in intracellular calcium. During luteolysis this is regulated by the release of prostaglandin F2 alpha (PGF2 alpha) from the uterus, although additional factors may also contribute. Neither PGF2 alpha nor catecholamines appear to be prime regulators of luteal oxytocin release during the early and mid-luteal phases of the cycle and it remains to be determined how secretion is controlled at this time.
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PMID:Control of synthesis and secretion of ovarian oxytocin in ruminants. 130 33

A technique has been developed for prelabelling and permeabilisation of guinea pig uterine myocytes to enable measurement of arachidonic acid release/phospholipase A2 activity in cells with intact membranes. Intact cells were prelabelled with [3H]inositol or [3H]arachidonic acid for measurement of phospholipase C and A2 respectively. In intact cells 10 nM endothelin-1 or 1 microM bradykinin stimulated both inositol polyphosphate and arachidonic acid release, whilst 1 microM oxytocin, arginine vasopressin or histamine were without effect. In Streptolysin-O permeabilised myometrial cells calcium-stimulation of inositol polyphosphate and arachidonic acid release was detected between 10 microM and 1 mM free calcium. The patterns of inositol polyphosphate and arachidonic acid release were broadly similar. Responses to 1 mM calcium were not detected in intact cells not treated with Streptolysin-O. For arachidonic acid release the K0.5 for calcium activation was about 7 microM, a level above that normally likely to be found in the uterine myocyte. Hence it is concluded that unless there are high local concentrations of calcium close to the plasma membrane, calcium is unlikely alone to be the primary regulator of arachidonic acid release and phospholipase A2.
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PMID:Measurement of arachidonic acid release from permeabilised myometrial cells of guinea pig uterus. 130 78

The potency of oxytocin (OT) in evoking ACTH secretion by isolated, superfused rat adenohypophyseal corticotrophs and its enhancement by CRF and arginine vasopressin (AVP) were analyzed. Each secretagogue effectively released ACTH from adenohypophyseal cells when added separately in pulsatile fashion in physiological concentrations based on hypophyseal portal blood (OT, 10 nM; AVP, 0.5 nM; CRF, 0.1 nM). OT released ACTH at concentrations as low as 1 nM. Moreover, a dose-response relationship up to 10 microM was revealed. Combinations of a constant amount of CRF (0.1 nM) with increasing concentrations of OT exerted a synergistic effect on ACTH release. In contrast, OT given in various concentrations in combination with AVP (0.5 nM) produced an additive effect on ACTH release. To study the mechanism of action of OT on ACTH secretion, cytosolic free calcium levels in single pituitary cells exposed to OT or AVP were measured using the calcium-sensitive fluorescent indicator Fura-2. Corticotrophs among mixed adenohypophyseal cell types in the primary cultures were identified by immunocytochemistry. More than 500 cells were individually stimulated with OT or AVP. Basal cytosolic free calcium levels ranged between 80-130 nM free calcium. The addition of 100 nM OT or 1 microM AVP increased the cytosolic free calcium concentration within 3 sec to values ranging from 500-800 nM. An increase in intracellular calcium ranging from 200-500 nM due to OT could still be observed after extracellular calcium depletion. Taken together, our data demonstrate that physiological concentrations of OT stimulate ACTH secretion, independent of the other ACTH secretagogues, by mobilizing calcium mainly from intracellular stores.
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PMID:Oxytocin at physiological concentrations evokes adrenocorticotropin (ACTH) release from corticotrophs by increasing intracellular free calcium mobilized mainly from intracellular stores. Oxytocin displays synergistic or additive effects on ACTH-releasing factor or arginine vasopressin-induced ACTH secretion, respectively. 131 49

We characterized oxytocin (OT) receptors in purified plasma membranes from amnion, decidua, and myometrium of late pregnant rabbits using an iodinated OT antagonist (OTA). Saturation studies showed similar Kd values for specific binding sites in the 100- to 250-pM range in all three tissues. OT receptor concentrations in decidua and myometrium did not change until the day of labor (day 31), when they rose about 2.5- and 18-fold, respectively. Increases in amnion receptors were first apparent on day 28 and continued to maximal levels on day 31. There was an increase of about 230-fold from day 26 to labor, reaching 9.5 pmol/mg protein. Competition studies using analogs showed that ligand specificities of amnion and decidual membranes were indistinguishable. Those of myometrial membranes were somewhat different, possibly owing to the presence of both AVP receptors and OT receptors in the myometrium. Binding of OTA corresponded to the OT-induced release of prostaglandin E2 (PGE2) by amnion cells in culture. The effects of OT were dose dependent, agonist specific, and selectively inhibited by OTA. Amnion cells from days 22 and 28 did not respond significantly to either OT or phorbol 12-myristate 13-acetate (PMA), but cells from day 30 pregnant rabbits responded strongly to both. In contrast, calcium ionophore stimulated comparable amounts of PGE2 release from cells cultured on day 22, 28, or 30. These studies show that specific, high affinity OT receptors are associated with the release of PGE2 from rabbit amnion cells. Increases in amnion OT receptor and protein kinase-C activity precede by several days the increases in receptor concentrations in decidua and myometrium, suggesting important roles for the amnion and OT in the initiation of labor in rabbits.
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PMID:Characterization of oxytocin receptors in rabbit amnion involved in the production of prostaglandin E2. 131 89

The action of oxytocin on neurons located in the dorsal motor nucleus of the vagus nerve was studied in brain slices in vitro. It acted postsynaptically and caused a reversible, concentration-dependent excitation of vagal motoneurons in rats. This effect is specific, since it could be mimicked by a selective agonist and suppressed by an oxytocin antagonist. Single-electrode voltage-clamp recordings from rat vagal motoneurons indicated that oxytocin generates a noninactivating inward current, whose amplitude increased as the membrane was depolarized. This current was insensitive to TTX, to a reduction of membrane calcium currents, and to a reversal in the transmembrane chloride gradient; and it was unaffected by several potassium channel blockers. By contrast, it was reversibly reduced by partially substituting extracellular sodium with equimolar N-methyl-D-glucamine. These results suggest that oxytocin exerts its neuronal action in the rat brainstem by generating a sustained voltage-dependent sodium current. Vasopressin activates a similar current when acting on motoneurons located in the facial nucleus of newborn rats. These fast, neurotransmitter-like actions of oxytocin and of vasopressin may provide an explanation--though not necessarily the sole explanation--for their central effects on maternal, sexual, and social behaviors.
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PMID:Electrophysiology of oxytocin actions on central neurons. 132 Aug 38

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