Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Opioids intrinsic to the rat neurohypophysial system act to inhibit secretion from the terminals of magnocellular neurones. Opioid receptors in the neurohypophysis are predominantly of the kappa-subtype and selective kappa-agonists suppress electrically evoked release of oxytocin (OXT) and vasopressin (AVP). We have looked for the presence of functional kappa-receptors on neurohypophysial nerve terminals by examining effects of kappa-agonists on secretion from suspensions of isolated neurohypophysial nerve terminals (neurosecretosomes) retained on filters in a perifusion system. Release of both OXT and AVP evoked by K+-depolarisation was inhibited by the kappa-agonists U-50,488H (34% and 45% respectively) and dynorphin A1-13 (68% and 51% respectively). Inhibition by dynorphin A was only observed in the presence of peptidase inhibitors. The actions of both kappa-agonists were prevented by the opioid receptor antagonist naloxone. The experiments indicate the presence of kappa-receptors on terminals of OXT and AVP neurones. This receptor population is in addition to those previously described on pituicytes and those influencing release of neurohypophysial noradrenaline.
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PMID:Functional kappa-opioid receptors on oxytocin and vasopressin nerve terminals isolated from the rat neurohypophysis. 290 8

Effects of morphine microinjected into the hypothalamic supraoptic (SON) and paraventricular (PVN) nuclei, which contain neurons producing and releasing antidiuretic hormone (vasopressin), on the outflow and the osmotic pressure of urine and other visceral functions were investigated in a rat which was loaded with water and anesthetized with ethanol. The opioid drug, having predominantly mu-agonist activity, when microinjected into the SON or PVN induced potent antidiuretic effects in dose-dependent and time-dependent manners with no significant effects on the other visceral functions. The approx. ED50 values for morphine were 19 and 9 nmol when it was microinjected into the SON and PVN, respectively. The antidiuretic effects showed slow onset and long duration, with a minimal outflow at approx. 50 min after microinjection and a return to approx. 50% of the initial control value by 1.5 hr. The morphine-induced effects were inhibited by pretreatment with naloxone or atropine, but not inhibited by pretreatment with alpha- or beta-adrenoceptor antagonists, suggesting that the antidiuretic effects were mediated through an opioid receptor having low sensitivity to naloxone and also possibly mediated through a muscarinic receptor which was stimulated probably by the ACh released by morphine.
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PMID:Antidiuretic effects of morphine microinjected into the hypothalamic supraoptic and paraventricular nuclei in a water-loaded and ethanol-anesthetized rat. 344 15

Effects of methionine-enkephalin (ME) and 2-D-alanine-5-methionine-enkephalinamide (DAMEA) microinjected into the hypothalamic supraoptic (SON) and paraventricular (PVN) nuclei, which contain neurons synthesizing and releasing antidiuretic hormone, upon the outflow and the osmotic pressure of urine and the other visceral functions were studied in a rat which was loaded with water and anesthetized with ethanol. These opioid peptides when microinjected into the SON or PVN induced potent antidiuretic effects in dose-dependent and time-dependent manners with no significant effects on the other visceral functions. The approx. ED50 values for DAMEA were 1.3 (in the SON) and 0.7 (in the PVN) nmol, and the values for ME were 110 (in the SON) and 60 (in the PVN) nmol. The antidiuretic effects showed slow onset and long duration, with a minimal urine outflow at approx. 0.5 hr after microinjection and an approx. 2 hr-duration. The effects induced by the opioid peptides were inhibited by pretreatment with naloxone or atropine, without effects of pretreatment with alpha- or beta-adrenoceptor antagonists, suggesting that the antidiuretic effects were mediated through an opioid receptor having low sensitivity to naloxone and also possibly mediated through a muscarinic receptor which was stimulated probably by the ACh released by the opioid peptides.
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PMID:Antidiuretic effects of methionine-enkephalin and 2-D-alanine-5-methionine-enkephalinamide microinjected into the hypothalamic supraoptic and paraventricular nuclei in a water-loaded and ethanol-anesthetized rat. 380 52

The renal pharmacological actions of the non-selective opioid receptor antagonist naloxone and the selective delta (delta)-opioid receptor antagonist ICI 154,129 were examined in conscious dogs. Neither naloxone nor ICI 154,129 altered glomerular filtration rate, renal blood flow, blood pressure, heart rate, or renal excretion of water, Na+, K+, or Cl-. In addition, urine and plasma osmolality and electrolyte concentrations and hematocrit were unchanged, suggesting that neither agent produced physiologically significant alteration in plasma vasopressin levels. These data suggest that (a) naloxone and ICI 154,129 exert no renal pharmacological effects in dogs and (b) under resting physiological conditions, delta-opioid receptors, as well as other opioid receptor subtypes, probably are not involved in the tonic regulation of renal hemodynamics or tubular function.
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PMID:Lack of renal tubular and hemodynamic effects of non-selective and delta-opioid receptor antagonism. 398 26

At the neurosecretory terminals in the neural lobe, oxytocin secretion is restrained by co-secreted endogenous opioids, which act via kappa-receptors. The co-secreted opioids include products of pro-dynorphin (released by both vasopressin and oxytocin terminals) and proenkephalin (released by oxytocin terminals). In morphine-tolerant rats this opioid mechanism is more effective, but in late pregnancy it is less effective. Opioids also act directly on oxytocin cell bodies, via separate mu- and kappa-receptors, inhibiting excitation by all stimuli tested, and also exert presynaptic and more distal actions on afferent systems. During chronic morphine exposure, tolerance and dependence develop in oxytocin neurones; the former involves reduction in mu-opioid receptor density, while the latter may involve compensatory upregulation of mechanisms regulating Ca2+ influx. In mid-pregnancy, the effectiveness of opioid mechanisms in the neural lobe increases, assisting the accumulation of oxytocin stores in advance of parturition, but by the end of pregnancy the effectiveness of these mechanisms is reduced. At this time, a separate endogenous opioid system, acting via mu-receptors, actively restrains the electrical activity of oxytocin neurones. Release of this endogenous opioid inhibition may contribute to the increase in activity during parturition analogous to that occurring during morphine withdrawal excitation. Central opioid mechanisms retain the ability to control oxytocin neurones during parturition, and can interrupt established parturition by inhibiting oxytocin neurone firing rate in disadvantageous environmental circumstances.
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PMID:Opioid tolerance and dependence in the magnocellular oxytocin system: a physiological mechanism? 764 4

The secretion of oxytocin (OXT) from the neurohypophysis is modulated by the actions of opioids acting via kappa-receptors. The vasopressin (AVP)-containing nerve terminals in the neurohypophysis contain the kappa-opioid agonist dynorphin, but endogenous opioid restraint of OXT secretion is observed even when AVP release is not activated, suggesting that another source of opioids is responsible for modulating OXT secretion. We now report that acute stimulation of the rat neural lobe in vivo results in depletion of the neural lobe content of OXT, AVP, dynorphin A1-17, dynorphin A1-8 and metenkephalin (Met-Enk). The dynorphin content is depleted to a similar extent as that of OXT and AVP; a correlation analysis suggests that while most dynorphin is co-secreted with AVP, a significant portion is co-secreted with OXT, consistent with a co-localisation of dynorphin with OXT. Met-Enk was depleted to a lesser extent than either hormone, consistent with a partial localisation in non-releasable pools. However, depletion of Met-Enk was also observed following naloxone-precipitated opioid withdrawal accompanying selective hypersecretion of OXT, suggesting co-secretion of OXT and Met-Enk. Met-Enk is a mu-opioid receptor agonist, but extended forms of Met-Enk, as we now report, are active at neurohypophysial kappa-receptors.
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PMID:Stimulus-induced depletion of pro-enkephalins, oxytocin and vasopressin and pro-enkephalin interaction with posterior pituitary hormone release in vitro. 770 Apr 99

Dynorphin-A is an endogenously released hormone that is now recognized as a kappa-opioid receptor agonist. Because kappa-agonists have been reported to induce water diuresis through negative modulation of antidiuretic hormone release and/or action, in the present study we investigated the aquaretic effects and safety of E2078, a metabolically stable dynorphin-A analog, in 21 healthy subjects after single (1.0, 2.0, 3.0, 5.0, 7.5 and 10.0 mg, i.m.) and repeated (5.0 mg t.i.d. for 4 and 1/3 days) administration. E2078 dose-dependently increased the 0 to 4-hr urine volume, which plateaued between 1032.4 +/- 130.1 and 1286.2 +/- 113.0 ml/4 hr (mean +/- S.E.M.) at doses of between 5.0 and 10.0 mg. The drug decreased urine osmolality (Uosm) markedly, by 17 to 27%, and the free-water clearance (CH2O) became positive, changing from -1.8 +/- 0.2 (placebo) to 0.8 +/- 0.3-2.8 +/- 0.4 ml/min after a single E2078 administration (P < .01). In the repeated-dose study, the first dose of E2078 increased the 0 to 5-hr urine output (1256 +/- 164.9 ml/5 h), lowered Uosm (151.8 +/- 13.3 mOsm/kg) and brought about a positive CH2O (1.9 +/- 0.2 ml/min). These values were similar to those seen after the single dose, but after the subsequent doses these aquaretic effects were attenuated, although the ranges of these same parameters were still significantly greater (P < .01-0.05) (441.4 +/- 102.4-585.3 +/- 131.9 ml/5 hr, 322.8 +/- 21.9-378.2 +/- 47.7 mOsm/kg and -0.2 +/- 0.2-(-)0.6 +/- 0.2 ml/min, respectively) than the day -1 base line (164.1 +/- 41.3 ml/5 hr, 992.0 +/- 80.6 mOsm/kg and -1.2 +/- 0.2 ml/min, respectively). Urinary excretion of electrolytes (Na, K and Cl) was not altered during either study period. A single E2078 administration reduced plasma antidiuretic hormone dose-dependently. On repeated dosing, the plasma concentration had rebounded to approximately 3 pg/ml by the time of the first dose on days 3 and 5, which lowered it again. The present results suggest that E2078 is a safe and effective aquaretic and could be a useful therapeutic tool for patients with water-retaining diseases.
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PMID:Aquaretic effect of the stable dynorphin-A analog E2078 in the human. 791 98

We have shown previously that the nonselective opioid antagonist diprenorphine inhibits the vasopressin response to an acute hypovolemic stimulus in rats. To elucidate the type of endogenous opioid receptor at which this inhibition occurs, we investigated whether more selective antagonists, administered alone or in combination with diprenorphine, also inhibited the vasopressin response to hypovolemia induced by ip injection of polyethylene glycol. We found that the rise in plasma vasopressin was inhibited by the kappa-antagonist Mr 2266 BS at doses 30- to 300-fold higher than those of diprenorphine. Over the same dose range (0.003-100 mumol/kg), the kappa 1-selective antagonist norbinaltorphimine and the mu-selective antagonist naloxone had no effect or enhanced the vasopressin response, whereas the delta-antagonist ICI 154,129 had no effect. By augmenting the vasopressin response to hypovolemia, higher doses of naloxone or nor-binaltorphimine offset the inhibitory effect of concurrently administered diprenorphine. Mr 2266 BS did not facilitate, inhibit, or offset the action of diprenorphine. The results support the hypothesis that the inhibition of vasopressin by diprenorphine is due to antagonism of an opioid receptor and suggest that it is one of the recently discovered kappa-subtypes. They also suggest that the vasopressin response to acute hypovolemia is normally restrained by simultaneous activation of a distinct inhibitory pathway that is blocked by kappa 1- or mu-antagonists.
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PMID:The effect of selective opioid antagonists on vasopressin secretion in the rat. 827 69

We examined the effects on urine outflow rate after microinjections of thiorphan (a carboxypeptidase inhibitor) and bestatin (an aminopeptidase inhibitor) into the hypothalamic paraventricular (PVN) and supraoptic (SON) nuclei of anesthetized hydrated rats to determine the possible role of neuropeptides in the regulation of urine production. After individual microinjection of the peptidase inhibitors into the nuclei, only thiorphan at 100 nmol administered into the PVN significantly decreased the urine outflow rate. Two consecutive microinjections of the peptidase inhibitors at 100 nmol each into the nuclei induced potent antidiuresis. These effects after microinjections of the peptidase inhibitors into the PVN and SON were diminished by pretreatment with [Sar1,Ile8]angiotensin (ANG) II (an ANG II receptor antagonist) and naloxone (an opioid receptor antagonist) in the PVN and with [Sar1,Ile8]ANG II in the SON, respectively. A vasopressin (AVP) receptor antagonist, d(CH2)5-D-Tyr(Et)VAVP (i.v.), completely blocked the antidiuresis by microinjections of the peptidase inhibitors into both the nuclei. Urinary osmotic pressure was significantly increased by consecutive microinjections of the peptidase inhibitors into the PVN and SON. These results suggest that endogenously-released ANG II and opioid peptides in the PVN and ANG II in the SON regulate urine production mediated through increased AVP release.
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PMID:Peptidase inhibitor-induced antidiuresis mediated through angiotensin and opioid receptors in the rat hypothalamus. 879 Nov 72

The purpose of this study was to investigate the mechanism behind the increase in blood pressure observed after intravenous administration of U50,488H (trans-3,4-dichloro-N-[2-(1-pyrrolidinyl)cyclohexyl]benzeneacetamide), a selective Kappa-opioid receptor agonist, to the ovine foetus. Intravenous administration of U50,488H (1.0 mg/kg) to the foetus resulted in an immediate increase in foetal blood pressure which lasted 15 min. Pretreatment with phentolamine (1.0 mg/kg i.v.) completely blocked the immediate (1-4 min) pressor effect of U50,488H, but not the subsequent increase in blood pressure after 5 min. In contrast, pretreatment with the vasopressin antagonist ([beta-mercapto-beta, beta-cyclopentamethylene-propionyl)-O-Me2-Tyr,Arg8]vasopressin, 0.06 mg/kg) did not affect the immediate pressor effect of U50,488H, but completely blocked the latter increase in blood pressure after 4 min. These data suggest that the immediate increase in blood pressure caused by U50,488H was mediated by sympathetic activation which was then further sustained by a release of vasopressin.
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PMID:U50,488H-induced pressor effect in the ovine foetus is mediated by sympathetic activation and vasopressin. 887 37


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