UNIPROT:P01185 - FACTA Search

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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neurosecretory terminals (neurosecretosomes, NSS) were isolated from rat neurohypophyses. High [K+]o or veratridine stimulated secretion of vasopressin and oxytocin by up to approximately 100-fold. Stimulated secretion was dependent on calcium and temperature, and could be elicited from NSS maintained in culture for 4 days. After overnight culture of the NSS, secretion was still inhibited by calcium channel blockers (cobalt, dihydropyridines, omega-conotoxin, D 600) and kappa opiates (dynorphin and U50488). Ionomycin evoked dose- and calcium-dependent hormone release, with a Hill coefficient for calcium of 1.74. High [K+]o enhanced the 5 microM ionomycin-induced secretion, apparently through calcium entry rather than depolarization, as the increase in secretion was abolished by 100 microM D 600. During prolonged depolarization the hormone secretion peaked within 2 min, then declined to near basal levels. Depolarization for 25 min without calcium neither activated secretion nor prevented subsequent secretion on readdition of calcium, suggesting that the decline in secretion was not due to membrane depolarization. Indeed, the rates of decline in secretion were similar for different levels of depolarization (0.070 +/- 0.003 and 0.081 +/- 0.003 min-1 for 25 and 45 mM [K+]o, respectively). Four minutes after the onset of continuous depolarization (45 mM [K+]o) in the presence of calcium, the declining secretion was still dependent on voltage-activated calcium influx through channels sensitive to D 600 and nitrendipine. The results presented here suggest that the decline in secretion during prolonged depolarizing stimuli may be due to exhaustion, inactivation, or desensitization of a calcium-triggered event.
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PMID:Activation and inactivation of oxytocin and vasopressin release from isolated nerve endings (neurosecretosomes) of the rat neurohypophysis. 207

1. Effects of E. coli endotoxin on vascular responsiveness to a variety of agents were compared with those of the calcium channel blocking drug nicardipine in pithed rats. 2. Infusion of endotoxin (250 micrograms kg-1 h-1) produced a fall in mean arterial blood pressure (8 mmHg). A similar fall (11 mmHg) was seen in rats receiving nicardipine (1.0 mg kg-1). 3. Endotoxin impaired responsiveness to vasopressin, phenylephrine and cirazoline, producing a shift to the right in the dose-response curves without any change in the maximum response. Responsiveness to 5-hydroxytryptamine (5-HT) and to the alpha 2-adrenoceptor agonists clonidine and BHT 933, was also impaired with a marked reduction in their maximum responses. The dose-response curve to the pressor effects of endothelin was not significantly modified. 4. Nicardipine produced a similar pattern of impairment of responsiveness to these agents to that produced by endotoxin. However, nicardipine also shifted the pressor dose-response curve to endothelin to the right with no significant alteration in its maximum response. 5. The pressor responses to endothelin and to 5-HT were, respectively, preceded and followed by dose-dependent depressor responses, which were markedly reduced by endotoxin and nicardipine. 6. The concomitant infusion of arginine vasopressin (0.64 iu kg-1 h-1) prevented endotoxin-induced hypotension and also prevented the impairment in responsiveness to cirazoline and to BHT 933. 7. The similarity of the pattern of impaired pressor responsiveness (except in relation to endothelin) and depressor responsiveness produced by endotoxin and nicardipine may be consistent with a common mechanism of action.
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PMID:Endotoxin-induced impairment of vasopressor and vasodepressor responses in the pithed rat. 208 14

The response to activation of specific receptors by arginine-vasopressin (AVP) has been studied in two cell models. In rat aortic smooth muscle cells in monolayer culture, the response of cytosolic free calcium ([Ca2+]i) upon addition of various agonists or antagonists was examined using the fluorescent calcium probe Quin 2. Activation of the vasopressin (V1) subtype of receptor resulted in a transient rise of [Ca2+]i, which could be prevented by a selective V1 antagonist but not by the calcium channel blocker, nifedipine and that was only slightly reduced in the absence of calcium in the medium. Release of 6-keto-prostaglandin F1 alpha (PGF1 alpha), a stable metabolite of prostacyclin, was also observed in response to AVP. We conclude that one of the primary intracellular events following activation of V1 receptors on smooth muscle cells is a rise of [Ca2+]i released from intracellular stores, which mediates smooth muscle contraction and prostacyclin production. In superfused rat renal medullary tubular cells, the study of the release of cyclic AMP (cAMP) and prostaglandin E2 (PGE2) upon stimulation by AVP and various analogs (agonists or antagonists) permitted demonstration of the presence of two subtypes of receptors. The V2 type appeared to be linked to adenylate cyclase and was responsible for cAMP release, mediating the hydroosmotic effect of AVP, whereas the V1 type was related to calcium, mediating the prostaglandin production.
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PMID:Effects of vasopressin and its analogs on rat aortic smooth muscle and renal medullary tubular cells: characterization of receptor subtypes. 243 72

The hormone relaxin has recently been shown to inhibit not only uterine muscle contraction, but also the release of oxytocin into the plasma. Intravenous injection of porcine relaxin in anaesthetized lactating rats inhibits milk ejection and injection of relaxin into the cerebral ventricles disturbs the pattern of the milk ejection reflex. Recent experiments performed in vivo indicate that relaxin might act not only in the uterus, but also in the hypothalamus and possibly in the neurohypophysis. We tested this hypothesis in vitro by studying the effect of relaxin on hormone release from isolated neural lobes of the pituitary and isolated neurosecretory nerve endings of the neurohypophysis from the rat. We report here that relaxin has a dual effect on neurohypophysial hormone secretion. Under basal conditions, vasopressin and oxytocin release was inhibited by relaxin but, when the nerve endings were depolarized, vasopressin and oxytocin secretion was potentiated. We also found that relaxin acts at a stage before the increase in cytoplasmic free Ca2+ that is necessary for inducing hormone release, possibly by gating the calcium channel.
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PMID:Relaxin affects the release of oxytocin and vasopressin from the neurohypophysis. 243 61

Ecdysteroid-producing Y-organs from the crab Cancer antennarius were shown to possess enzyme activity that was stimulated in vitro by addition of Ca2+, phosphatidylserine, or the protein kinase C activator, phorbol 12-myristate 13-acetate (PMA; ED50, 4 nM). In the presence of calcium and phosphatidylserine, PMA increased protein kinase C activity dose-dependently to a maximum 4-fold increase at 100 nM PMA. Stimulated protein kinase C activity was unaffected by calmodulin (100 nM) but was inhibited by 100 nM trifluoperazine. Pretreatment of cultured Y-organ segments with PMA elevated basal protein kinase C activity, whereas molt-inhibiting hormone (MIH) and calcium ionophore A23187 did not affect activity. PMA (1-100 nM) increased Y-organ steroidogenesis dose-dependently and alleviated suppression due to MIH or lysine vasopressin; PMA effects on steroidogenesis became evident after 2 h of incubation. Another phorbol activator of protein kinase C (phorbol 12, 13-dibutyrate) and a permeable synthetic diacylglycerol (1-oleoyl-2-acetyl-glycerol) stimulated ecdysteroidogenesis while an inactive phorbol (4 alpha-phorbol 12,13-didecanoate) and diolein were ineffective. The inhibitory effects on steroidogenesis of cholera toxin, forskolin, dibutyryl cAMP, and 3-isobutyl-1-methylxanthine were countered by PMA, but PMA did not alter basal or peptide hormone-stimulated Y-organ cAMP levels. Stimulatory effects on steroidogenesis of PMA and of A23187 were not additive, and PMA did not alter inhibition caused by lanthanum (calcium channel blocker) or trifluoperazine (calmodulin inhibitor). PMA increased the incorporation of [3H]leucine into Y-organ protein by 112%, and countered the suppressive effect of MIH on protein synthesis; PMA did not affect RNA synthesis. When Y-organs were suppressed with cycloheximide, PMA was unable to stimulate steroidogenesis. Actinomycin D alone had no effect on steroidogenesis but prevented stimulation by PMA. The results indicate that Y-organs contain protein kinase C activity which stimulates ecdysteroid production and protein synthesis by a mechanism not directly interactive with the cAMP or Ca2+-calmodulin systems.
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PMID:Demonstration of protein kinase C activity in crustacean Y-organs, and partial definition of its role in regulation of ecdysteroidogenesis. 243 89

Isolated rat paraventricular (PVN) and supraoptic (SON) nuclei were perifused in vitro and oxytocin and vasopressin releases were measured by radioimmunoassay during rest and during electrical stimulation. Stimulations at a frequency of 10 Hz (10-s bursts, every 10 s for 5 min) and an intensity of 4 mA, induced significant hormone release only with long duration pulses (10 ms). Short pulses (1 ms) applied at various frequencies (10, 20, 40 or 80 Hz) and intensities (4, 5, 10 or 20 mA) had no effect. The electrically evoked release of both hormones was not affected by tetrodotoxin (TTX), a sodium channel blocker, but was blocked in low-calcium medium or in the presence of gallopamil hydrochloride (D-600), a calcium channel blocker. These results suggest that, following electrical stimulation, oxytocin and vasopressin are released locally within the magnocellular nuclei even when blocking action potentials. The possibility of dendritic release is discussed.
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PMID:Electrical stimulations of perifused magnocellular nuclei in vitro elicit Ca2+-dependent, tetrodotoxin-insensitive release of oxytocin and vasopressin. 243 5

The role of calcium in the stimulation of ACTH secretion by CRF and other regulators was studied in rat anterior pituitary cells. Incubation of cultured pituitary cells in normal calcium with CRF, vasopressin, angiotensin II, or norepinephrine increased the rate of ACTH release for up to 45 min and then became constant for up to 3 h. In the absence of extracellular calcium, the initial rate of stimulated secretion was unaffected, but after 45 min the secretion rate decreased by 40% for CRF and to a greater extent for the other stimuli. Addition of calcium after 90 min in calcium-free medium restored the CRF-stimulated ACTH release rate to the control value. The absence of extracellular calcium had no effect on CRF-stimulated cAMP accumulation, but intracellular calcium depletion by preincubation of the cells with EGTA completely inhibited CRF-stimulated cAMP production and ACTH release. The voltage-dependent calcium channel antagonist nitrendipine and the calcium channel agonist BK 8644 had little effect on the CRF-stimulated ACTH release rate, while they, respectively, inhibited and enhanced the stimulation by vasopressin and high potassium. In calcium-depleted cells incubated with the calcium ionophore A23187, CRF stimulation of cAMP production and ACTH release were dependent upon extracellular calcium concentrations from 0.1-100 microM. These findings have defined two phases in the stimulation of ACTH release by CRF and cAMP-independent stimuli in cultured pituitary cells: an early phase with a rapid increase in the ACTH release rate which is independent of extracellular calcium, and a late phase of constant secretion rate, with partial extracellular calcium dependence for the stimulation by CRF and complete calcium dependence for the stimulation by non-cAMP-mediated stimuli.
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PMID:Calcium-dependent control of corticotropin release in rat anterior pituitary cell cultures. 244 83

Whether or not the central nervous system is involved in the genesis of hypertension in an individual patient, it becomes a major determinant of the responses to antihypertensive therapy once a treatment strategy is adopted. The major mechanisms through which the central nervous system influences blood pressure are sympathetic and parasympathetic nervous system activity and vasopressin release, either together or separately, but additional mechanisms may also contribute. When vasodilators are used, for example, the reactive increase in plasma catecholamines makes a substantial contribution to limiting the blood pressure fall. The sympathetic activation may lead to the reactive increase in plasma renin activity and sodium retention, which also plays an important role in limiting the antihypertensive action. Among newer agents, the effectiveness of calcium channel blockers could reflect a special action on the central nervous system that may contribute to reducing the reactive vasopressor responses. Treatment strategies that address the problem of the central nervous responses are more likely to be effective than approaches that avoid or ignore it.
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PMID:The central nervous system and effective antihypertensive effects of a calcium channel blocker. 245 13

Neurohypophysial hormones stimulate gonadotrophin release from dispersed rat anterior pituitary cells in vitro, acting through receptors distinct from those which mediate the secretory response to gonadotrophin-releasing hormone (GnRH). The LH response to oxytocin was not affected by the presence of the phosphodiesterase inhibitor, methyl isobutylxanthine, but was diminished in the absence of extracellular calcium and was progressively increased as the calcium concentration in the medium was raised to normal. In addition, the calcium channel antagonist, nifedipine, suppressed oxytocin-stimulated secretion of LH. It is likely that the mechanisms of LH release induced by GnRH and neurohypophysial hormones are similar, although stimulation of gonadotrophin secretion is mediated by separate receptor systems. Oxytocin was more active than vasopressin in releasing LH, but less active in releasing ACTH. The highly selective oxytocin agonist, [Thr4,Gly7]oxytocin, elicited concentration-dependent secretion of LH but had little effect on corticotrophin secretion. The neurohypophysial hormone antagonist analogues, [d(CH2)5Tyr(Me)2]vasopressin, [d(CH2)5Tyr(Me)2,Orn8]vasotocin and [d(CH2)5D-Tyr(Et)2Val4,Cit8]vasopressin, inhibited the LH response to both oxytocin and vasopressin. However, [d(CH2)5Tyr(Me)2]vasopressin was much less effective in inhibiting the ACTH response to the neurohypophysial hormones, and [d(CH2)5Tyr-(Me)2,Orn8]vasotocin and [d(CH2)5D-Tyr(Et)2,Val4,Cit8]vasopressin exhibited no inhibitory activity against ACTH release. Thus, agonist and antagonist analogues of neurohypophysial hormones display divergent activities with regard to LH and ACTH responses, and the neuropeptide receptor mediating gonadotroph activation is clearly different from that on the corticotroph. Whereas the corticotroph receptor is a vasopressin-type receptor an oxytocin-type receptor is responsible for gonadotrophin release by neurohypophysial hormones.
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PMID:Gonadotrophin-releasing activity of neurohypophysial hormones: II. The pituitary oxytocin receptor mediating gonadotrophin release differs from that of corticotrophs. 247 64

Endothelin is a potent vasoconstrictor peptide isolated from the conditioned medium of porcine aortic endothelial cells. The action of endothelin is thought to be associated with calcium entry via calcium potential channels (Yanagisawa et. al. Nature 1988; 38:411-415). The present study was designed to determine the effect of endothelin on calcium fluxes (influx and efflux) on rat aortic smooth muscle cells in culture. The unidirectional influx of calcium was measured 15, 45, 75 and 105 seconds after the addition of trace amounts of 45Ca++ (5 microCi/ml) to the cells incubated with or without endothelin. Endothelin (50nM) stimulated calcium influx from a basal level of 312 +/- 17 to 537 +/- 12 pmol/mn/10(6) cells. This stimulation was dose-dependent with an EC50 value of about 10 nM. When cells were preincubated with calcium antagonists (nifedipine, dilttiazem, D600, nicardipine and flunarizine) at a final concentration of 1 microM, the endothelin-stimulated calcium influx was not modified. The unidirectional efflux of calcium was measured after an overload of cells with 45Ca++ (5 microCi/ml) for 18 hours, over 10 seconds intervals. In the first 30 seconds after the addition of endothelin (100 nM), the amount of 45Ca++ released was 3 times that in the absence of the peptide. The effect of endothelin was concentration dependent and similar to those observed with other vasoconstrictor peptides (vasopressin and angiotensin II). The results indicate that endothelin does not directly act on voltage-dependent calcium channels. The endothelin-stimulated calcium efflux suggests a mobilization of calcium from intracellular store sites followed by extrusion through an activation of a specific receptor-dependent calcium channel.
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PMID:[Stimulation of calcium flows induced by endothelin in cultured smooth muscle cells]. 251 Jun 59

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