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)

The effects of several neurotransmitters and neuropeptides on the inositol phosphate/diacylglycerol pathway were examined in human nonpigmented ciliary epithelial cells. Maximal stimulation of inositol phosphate formation by vasopressin (approximately 3-fold), carbachol (approximately 2-fold) and histamine (approximately 5-fold) was observed only after cells had been confluent for at least six days. In contrast, a response to bombesin (approximately 3-fold) declined with extended time in confluent culture. Inositol monophosphate, inositol bisphosphate, and inositol trisphosphate all were stimulated by these agonists. Dose-response studies showed a close correlation between the EC50s of the different agonists when elevation of inositol phosphates was compared to stimulation of intracellular Ca2+, with the exception of bombesin. Preliminary pharmacologic characterization of the receptors for vasopressin, carbachol, and bombesin provided rank order of potencies for selective agonists and antagonists. The data suggest that the muscarinic receptor on human NPE cells is the M3 subtype, whereas the vasopressin receptor, as defined by its linkage to the inositol phosphate/diacylglycerol pathway, is the V1 subtype.
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PMID:Neurotransmitters and neuropeptides stimulate inositol phosphates and intracellular calcium in cultured human nonpigmented ciliary epithelium. 134 99

MDCK cells accumulate organic osmolytes in response to hyperosmotic NaCl-supplemented medium. We examined time course and inhibitor sensitivity of myo-inositol, sorbitol, and glycerophosphorylcholine (GPC) accumulation in MDCK cells exposed to hyperosmotic NaCl-, D-glucose-, or mannitol-supplemented media. In NaCl medium, cells preferentially accumulated inositol and GPC. In comparison, in glucose medium cells preferentially accumulated sorbitol and GPC. Inositol demonstrated a late (72-96 h) accumulation in glucose medium, although less than in NaCl medium. Mannitol medium did not significantly stimulate accumulation of any of these three osmolytes at 24 h, suggesting that hyperosmolality alone is not sufficient stimulus for their accumulation in this time frame. GPC accumulation was very rapid in glucose medium, and fell to the level induced by NaCl medium at 96 h (approximately 50 nmol/mg protein). Inositol and sorbitol accumulated more gradually, each reaching greater than 400 nmol/mg protein after 96 h. Sorbitol was still accumulating at 96 h, whereas inositol plateaued at 72-96 h. Phlorizin or sorbinil blocked accumulation of inositol or sorbitol, respectively. Sorbitol and GPC accumulation in glucose medium were partially inhibited in absence of serum or in presence of 1 microM vasopressin. Thus NaCl and glucose appear to stimulate specific cellular mechanisms responsible for accumulation of inositol, sorbitol, and GPC in MDCK cells. This accumulation is also modulated by constituents of serum.
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PMID:Modulation of osmolytes in MDCK cells by solutes, inhibitors, and vasopressin. 222 Nov 3

Vasopressin binding sites could be clearly demonstrated in the cochlea. Membrane staining was mainly limited to the apical and ciliar membranes of the cochlear and vestibular hair cells, and hence to membranes in which adenylate cyclase activity could not be demonstrated. In addition to V2-vasopressin receptors that mediate hormonal signals by adenylate cyclase activation and cAMP release, in V1-vasopressin-receptors extracellular vasopressin signal is mediated by the breakdown of inositol phosphates and the release of inositol-triphosphates and diacylglycerol. Inositol triphosphates were found to be responsible for the intracellular mobilization of calcium. The localization of vasopressin binding sites at the hair cell membranes, therefore, suggests that vasopressin contributes to the breakdown and release of phospholipid messenger molecules and is thus probably involved in cochlear and vestibular signal transduction.
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PMID:[Hormone receptors in the inner ear]. 252 9

Angiotensin II (ANG II) and vasopressin (AVP) are two powerful vasoconstrictors, and atrial natriuretic peptide (ANP) is a potent vasorelaxant. The changes in the density or affinity of binding sites for these agents that may alter target organ responsiveness in hypertension are reviewed. ANG II binding in mesenteric arteries was unaltered in one-kidney, one-clip (1-K, 1-C) and in 2-K, 1-C hypertensive rats, while in deoxycorticosterone acetate (DOCA)-salt hypertensive rats ANG II binding to blood vessels was significantly increased. A role of mineralocorticoids to increase the number of vascular ANG II sites in some hypertensive models is suggested. In spontaneously hypertensive rats (SHR) ANG II receptors were increased in young rats in the prehypertensive stage with respect to Wistar-Kyoto (WKY) control rats, but normal in older rats. AVP binding in the vasculature of hypertensive rats was uniformly decreased in inverse correlation to plasma AVP levels, but vascular responsiveness to AVP was exaggerated. Inositol trisphosphate production by blood vessels of SHR in response to AVP showed that increased AVP receptor-coupled phospholipase C activity may mediate in part the exaggerated pressor response in spite of reduced or normal density of receptors for vasoconstrictor peptides. Vascular ANP sites in 2-K, 1-C, 1-K,1-C, and DOCA-salt hypertensive rats varied inversely with plasma concentrations of ANP. Normal densities of ANP receptors in saralasin-sensitive 2-K, 1-C hypertensive rats correlated with ANP sensitivity, while saralasin-insensitive 2-K, 1-C hypertensive rats, which did not respond to ANP, had significantly decreased density of ANP vascular receptors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vascular receptors for angiotensin, vasopressin, and atrial natriuretic peptide in experimental hypertension. 255 50

Homozygous Brattleboro rats were used to study the effect of antidiuretic hormone (ADH) on organic osmolytes, which have been shown to be involved in the cellular osmoadaptation in renal inner medulla. With the use of enzymatic spectrophotometric methods, glycerophosphorylcholine, sorbitol, and inositol were determined in kidney sections from papillary tip (IM3) to cortex. Compared with normal rat kidneys, IM3 of untreated Brattleboro rats (urine osmolality 132 mosmol/kg) were sorbitol depleted (16 +/- 1 vs. 371 +/- 37 mumol/g protein) and glycerophosphorylcholine was reduced to 20% (131 +/- 16 vs. 658 +/- 52 mumol/g protein). In contrast inositol was not changed (147 +/- 25 vs. 177 +/- 29 mumol/g protein). Similar effects were obtained in all medullary sections. Continuous treatment with ADH increased urine osmolality already after 5 h but renal glycerophosphorylcholine and sorbitol content only after 24 h. Normal osmolyte levels were reached after 3 days of ADH treatment when urine osmolality was 1,595 mosmol/kg. Inositol did not exhibit comparable changes during ADH treatment. The present results indicate that ADH, possibly by increasing interstitial tonicity, leads to increased glycerophosphorylcholine and sorbitol, but not inositol, contents.
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PMID:Effect of antidiuretic hormone on renal organic osmolytes in Brattleboro rats. 258 79

A sustained increase in the hepatic release of 3H radioactivity was shown to occur upon hormonal stimulation of perfused rat liver 15-20 h after intraperitoneal injection of 100 microCi of myo-[2-3H]inositol. Hormone-released radioactive material was analysed by t.l.c. and was found to consist predominantly of [3H]inositol, without further metabolites. Vasopressin (14 nM), phenylephrine (1.7 microM), angiotensin II (15 nM), glucagon (0.5 nM) and dibutyryl cyclic AMP (5 microM) exert maximal effects on hepatic inositol efflux after 10-15 min of stimulation. Omission of Ca2+ from the perfusion medium abolishes the hormone-dependent inositol release. LiCl (10 mM) does not significantly affect the basal release of [3H]inositol, but suppresses vasopressin- and angiotensin-triggered inositol release. Inositol efflux induced by glucagon, dibutyryl cyclic AMP and phenylephrine, however, remains essentially unchanged by LiCl infusion. This establishes a further metabolic difference between these two groups of agonists in that stimuli that act through cyclic AMP produce a stimulated outflow of inositol, but apparently without a Li+-sensitive phosphatase being involved in the overall process.
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PMID:Hepatic inositol release upon hormonal stimulation of perfused rat liver. 284 65

Inositol phosphates (IP) production and contraction in isolated but otherwise intact rat tail artery were measured in response to stimulation by vasopressin agonists. We have previously studied similar alpha-adrenoceptor responses. Identical rank orders of vasopressin agonists' potency were found for IP accumulation and contraction. The vasopressin analogue [1-(beta-mercapto-beta,beta-cyclopentamethylene propionic acid)-2-(O-methyl)tyrosine,D-arginine8] vasopressin, was shown to be a specific, reversible antagonist for both IP accumulation and contraction by all vasopressin agonists tested. No antagonism of vasopressin induced increases in IP accumulation or contraction were found using phenoxybenzamine. Therefore, in this tissue vasopressin receptors mediate both contraction and IP accumulation; and vasopressin mediated responses appear to be direct effects not mediated via the activation of alpha-adrenoceptors. Demonstration of two entirely different receptors, mediating the same functional response, and which both promote IP production, is consistent with a general obligatory role for phosphoinositide catabolism in receptor mediated vascular smooth muscle contraction.
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PMID:Vasopressin receptor mediated contraction and [3H]inositol metabolism in rat tail artery. 295 16

5-Hydroxytryptamine (5-HT, serotonin) stimulates phosphoinositide hydrolysis in choroid plexus by interacting with the 5-HTlc site. In the present study, the effects of 5-HT were compared with those of other agonists. 5-HT stimulates a rapid release of all three inositol sugars in a mianserin-sensitive manner. Inositol bisphosphate and inositol trisphosphate levels increase about twofold within 2.5 min, whereas inositol monophosphate levels are not appreciably elevated until 5 min. In contrast, glutamate, carbachol, histamine, substance P, and vasopressin, agents that increase phosphoinositide hydrolysis in other tissues, do not stimulate this response in choroid plexus. High concentrations of norepinephrine increase inositol phosphate release in choroid plexus, but this effect is apparently mediated by activation of the 5-HTlc site. The depolarizing agents KCl and veratrine also fail to stimulate phosphoinositide hydrolysis in choroid plexus. These results, combined with the finding that the phosphoinositide response to 5-HT is insensitive to tetrodotoxin, suggest that the effects of 5-HT are not secondary to neurotransmitter release. Furthermore, an indirect effect mediated via arachidonic acid metabolism is unlikely, since inhibitors of cyclooxygenase and lipoxygenase do not reduce the 5-HT response. We conclude, therefore, that phosphoinositide hydrolysis is the transducing mechanism of the 5-HT 5-HTlc receptor and that the choroid plexus will serve as a useful model system for studies of this receptor.
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PMID:Agonist-induced phosphoinositide hydrolysis in choroid plexus. 302 3

Mitogenic stimulation of quiescent human fibroblasts (HSWP) with a growth factor mixture (consisting of epidermal growth factor (EGF), insulin, bradykinin, and vasopressin) rapidly induces an increase in Na influx via a Ca-mediated activation of an amiloride-sensitive Na/H exchanger. Inositol phosphates (specifically inositol-1',4',5'-phosphate) have been implicated in mediating the mobilization of intracellular Ca stores in other cell types and we have now completed a detailed analysis of the mitogen-induced release of inositol phosphates in HSWP cells. Stimulation of inositol trisphosphate release is rapid (within 5 s) and reaches a maximum level (416-485% basal) within 10-15 s after the addition of growth factor mixture. Inositol bisphosphate and inositol monophosphate reach maximum levels by 30 s (1257% basal) and 60 s (291% basal), respectively. Levels of all three compounds then decay toward basal levels but remain elevated (150-350% of basal levels) after 10 min of incubation with mitogens. The effects of different combinations of these growth factors and of the bee venom peptide, melittin, have also been determined. We have also found that 8-(N,N-diethylamino)octyl-3,4,5-trimethoxybenzoate, which prevents the mitogen-induced rise in intracellular calcium activity and activation of Na influx, does not alter the mitogen-stimulated accumulation of inositol trisphosphate. In addition, the calcium ionophore A23187, which increases cytosolic Ca activity and induces a Na influx, does not stimulate the release of inositol trisphosphate. Assays performed in the presence of lithium, which inhibits inositol phosphate monophosphatase, promotes the prolonged and enhanced accumulation of inositol monophosphate. Treatment with the phospholipase inhibitor mepacrine or pretreatment with dexamethasone reduces the amount of inositol phosphates released upon mitogenic stimulation. Hence mitogenic stimulation of HSWP cells leads to the rapid stimulation of inositol phosphate release via a calcium-independent mechanism and suggests inositol trisphosphate as a candidate to mediate the release of intracellular calcium stores which is involved in the processes responsible for the activation of the Na/H exchanger.
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PMID:Mitogen-stimulated release of inositol phosphates in human fibroblasts. 302 68

In the stressed animal, the vasoactive hormones vasopressin and angiotensin-II and the neurotransmitter noradrenaline induce liver cells to release glucose from glycogen. The intracellular signal that links the cell-surface receptors for noradrenaline (alpha 1) and vasoactive peptides to activation of glycogenolysis is known to be a rise in the cytoplasmic concentration of free calcium ions (free Ca). The receptors for these agonists induce the hydrolysis of phosphatidylinositol 4,5-bisphosphate, a minor plasmalemma lipid, to produce inositol trisphosphate and diacylglycerol. Inositol trisphosphate has been shown to mobilize intracellular calcium in hepatocytes. We show here, by means of aequorin measurements in single, isolated rat hepatocytes, that the free Ca response to these agonists consists of a series of transients. Each transient rose within 3 s to a peak free Ca of at least 600 nM and had a duration of approximately 7 s. The transients were repeated at intervals of 0.3-4 min, depending on agonist concentration. Between transients, free Ca returned to the resting level of approximately 200 nM. Clearly, the mechanisms controlling free Ca in hepatocytes are more complex than hitherto suspected.
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PMID:Repetitive transient rises in cytoplasmic free calcium in hormone-stimulated hepatocytes. 394 48


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