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)

Since arginine vasopressin may play a role in mineralocorticoid hypertension, we examined the effects of deoxycorticosterone acetate (DOCA)-salt on vasopressin V1 and V2 receptor binding and their second messengers, inositol phosphate and adenylate cyclase, respectively, in liver and kidney to determine whether altered vasopressin receptor binding is pathogenetic in mineralocorticoid hypertension. The mean arterial blood pressure of mineralocorticoid (DOCA-salt)-treated rats (163 +/- 1 mm Hg) was increased compared with control salt-treated rats (salt) (122 +/- 1 mm Hg) and water-treated rats (120 +/- 1 mm Hg; p less than 0.001). Mineralocorticoid treatment also increased plasma sodium, osmolality, and vasopressin concentration (p less than 0.001). In the hypertensive animals, there was a reduction in hepatic V1 (DOCA-salt, 91 +/- 12; salt, 132 +/- 13; and water, 145 +/- 13 fmol/mg protein; p less than 0.05) and renal V2 receptor binding density (DOCA-salt, 53 +/- 5; salt, 93 +/- 9; and water, 95 +/- 9 fmol/mg protein; p less than 0.01), although receptor affinities remained unaltered. In contrast, the density of renal V1 receptors was increased by mineralocorticoid treatment (DOCA-salt, 24 +/- 2; salt, 16 +/- 2; water, 18 +/- 1 fmol/mg protein; p less than 0.05), although the affinity was unchanged. Downregulation of V2 receptors was associated with a decrease in maximum cyclic adenosine monophosphate levels (DOCA-salt, 19 +/- 4; salt, 49 +/- 6; water, 53 +/- 9 pmol.mg protein-1.10 min-1; p less than 0.05), whereas changes in V1 receptor levels were not associated with changes in maximum inositol phosphate levels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of vasopressin receptors in deoxycorticosterone acetate-salt hypertension. 139 92

The monohydroxy bile acid taurolithocholate (TLC) causes a rapid and transient increase in free cytosolic Ca2+ concentration ([Ca2+]i) in suspensions of rat hepatocytes similar to that elicited by the InsP3-dependent hormone vasopressin. The effect of the bile acid is due to a mobilization of Ca2+, independent of InsP3, from the endoplasmic reticulum (ER). Short-term preincubation of cells with the phorbol ester 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA), which activates protein kinase C (PKC), blocked the increase in [Ca2+]i induced by TLC, but did not alter that mediated by vasopressin. We obtained the following results, indicating that the effect of PMA is mediated by the activation of PKC. (1) Phorbol esters were effective over a concentration range where they activate PKC (IC50 = 0.5 nM); (2) phorbol esters that do not activate PKC did not inhibit the effects of TLC; (3) the permeant analogue oleoylacetylglycerol mimicked the inhibitory effect of PMA; (4) lastly, the inhibition of the TLC-induced Ca2+ mobilization by phorbol esters was partially prevented by preincubating the cells with the PKC inhibitors H7 and AMG-C16. Preincubating hepatocytes with PMA had no effect on the cell uptake of labelled TLC, indicating that the phorbol ester does not interfere with the transport system responsible for the accumulation of bile acids. In saponin-treated liver cells, PMA added before or after permeabilization failed to abolish TLC-induced Ca2+ release from the ER. The possibility is discussed that PMA, via PKC activation, may alter the intracellular binding or the transfer of bile acids in the liver.
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PMID:Taurolithocholate-induced Ca2+ release is inhibited by phorbol esters in isolated hepatocytes. 144 48

Protein kinase C (PKC) acts in synergy with Ca2+ mobilization for the activation of platelets. Three different PKC subtypes that specifically react with antibodies to alpha- beta- and zeta-PKC have been detected in human platelets. We have compared the subcellular redistribution of these isoforms in platelets after exposure to the tumour-promoting phorbol ester phorbol 12-myristate 13-acetate (PMA) and to two physiological agonists, thrombin and vasopressin. In the presence of PMA, beta-PKC is most rapidly translocated to membranes, followed by zeta-PKC and alpha-PKC [membrane contents of 39 +/- 6, 31 +/- 4 and 24 +/- 4% (means +/- S.E.M.) respectively after 2 min incubation]. In contrast, both thrombin and vasopressin induced a biphasic translocation of PKC isoforms. For both agonists, the first phase of translocation occurred within 1 min and was identical for the three isoforms. However, during the second phase, the translocation of zeta-PKC by thrombin and vasopressin differed [membrane contents (mean +/- S.E.M.) of 24 +/- 3 and 46 +/- 4% respectively after 10 min]. These results suggest a differential activation of zeta-PKC by vasopressin and thrombin. PMA-induced translocation of alpha-PKC was decreased from 278 +/- 27 to 198 +/- 24 (mean +/- S.E.M., P = 0.02; percentage increase over control value) in the presence of 1 mM-EDTA, whereas chelation of intracellular Ca2+ by Quin2-AM does not influence this response. These results suggest that the PMA-induced translocation of alpha-PKC depends on the presence of 1 mM concentration of extracellular Ca2+. In addition, the chelation of either extracellular or intracellular Ca2+ inhibited both vasopressin- and thrombin-induced translocation of all three isoforms, suggesting that Ca2+ is an important requirement for the translocation of alpha-, beta- and zeta-PKC by physiological agonists. In conclusion, the translocation of PKC varies between different isoforms and between different agonists.
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PMID:Effect of tumour-promoting phorbol ester, thrombin and vasopressin on translocation of three distinct protein kinase C isoforms in human platelets and regulation by calcium. 147 2

A thirty-year-old male patient suffered subarachnoidal haemorrhage from an angioma positioned in the cranio-cervical transition. After rebleeding twice the patient developed a hydrocephalus internus malresorptivus and excessive natriuresis and polyuria, accompanied by depressed renin activity and extremely low aldosterone plasma levels. Neither fluid restriction and sodium substitution, nor administration of hydro-chlorothiazide/indomethacin affected natriuresis and polyuria. It was only after treatment with fludrocortisone-acetate/hydrocortisone that hyponatraemia and polyuria were resolved. At the same time a ventriculo-peritoneal shunt was applied. Differential diagnosis excluded the syndromes of inadequate antidiuretic hormone secretion, renal and cerebral diabetes insipidus, osmotic receptor hypofunction, chronic renal dysfunction and tubular necrosis. Natriuresis and polyuria developed under dexamethasone therapy. Since patient history, physical examination and laboratory criteria could not explain the electrolyte and fluid imbalance, this might be attributed to the hydrocephalus. Similar disturbances have been reported from other patients with intracranial disorders. Mechanical pressure exercised on the hypothalamus might cause the disturbance of fluid and sodium balance. Assuming a cerebral salt wasting syndrome, a putative natriuretic factor coming from the brain or an imbalance in the cerebral renin-angiotensin-system, as described in rats and dogs, must be discussed.
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PMID:[Massive natriuresis and polyuria after triple craniocervical subarachnoid hemorrhage: cerebral salt wasting syndrome?]. 148 43

To determine the function of intracellular free Ca2+ which is important in generating the phasic firing pattern characteristic of vasopressin neurons in the supraoptic nucleus (SON), we injected the highly specific Ca(2+)-chelating agent ethyleneglycol-bis-(beta-aminoethyl ether) N,N-tetraacetic acid (EGTA) into SON cells in the rat hypothalamic slice preparation. Intracellular recordings from 29 SON neurons which showed phasic firing were analyzed. Of the 29 SON neurons, 21 were recorded with microelectrodes filled with 3 M potassium acetate and 20 of the 21 neurons retained the phasic pattern more than 1 h after penetration by the electrode. Only one neuron lost phasic firing and fired randomly. By contrast, in all 8 neurons which were recorded with microelectrodes filled with 100 mM EGTA/2 M potassium acetate, phasic firing disappeared 10-80 min after penetration of the recording electrode although the neurons still showed spontaneous activity. These neurons also lost the after hyperpolarization and plateau potentials which followed bursting discharges. Our results suggest that intracellular free Ca2+ may play an important role in generating phasic firing.
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PMID:Intracellular EGTA alters phasic firing of neurons in the rat supraoptic nucleus in vitro. 149 6

Electrolyte abnormalities are a frequent and potentially hazardous complication in patients with heart failure. This may be due to the pathophysiological alterations seen in the heart failure state leading to neurohumoral activation (stimulation of the renin-angiotensin-aldosterone system, sympathoadrenergic stimulation), and due to the complications of therapy with diuretics, cardiac glycosides or ACE inhibitors. Patients with heart failure may exhibit hyponatremia due to a decrease in water excretion, which may be related to the enhanced release of both angiotensin and vasopressin and can be exaggerated by diuretic therapy. Along with potassium and calcium, magnesium influences cardiovascular function. Magnesium and potassium deficiencies play an important role in the development of cardiac arrhythmias. Magnesium is essential for the maintenance of intracellular potassium concentration. Although there are conflicting data regarding the prevalence of hypomagnesemia in patients with chronic heart failure (the values range from 7-37%), multiple studies have documented lower magnesium concentrations in patients with heart failure than in normal controls. As magnesium and potassium are mainly intracellular ions, measurements in serum or plasma are of limited value to assess magnesium status. There was no correlation between the intracellular electrolyte content and the electrolyte levels in plasma, either for mononuclear cells or erythrocytes or for myocardial and skeletal muscle. Loop diuretics (e.g. furosemide) are supposed to cause a substantial loss of both magnesium and potassium in the plasma and intracellular space. The potassium-sparing diuretics amiloride and triamterene are reported to also exert magnesium-sparing effects. Recently, ACE inhibitors have been documented to have important magnesium-conserving actions, possibly via their effect on glomerular filtration. Hyperkalemia, secondary to the use of ACE inhibitors in patients with heart failure, is well documented. Digoxin directly limits the renal tubular reabsorption of magnesium, therefore increasing magnesium excretion. Low magnesium and potassium concentrations increase cardiac glycoside toxicity. In contrast, elevated levels of magnesium decrease the sensitivity of human myocardium to antiarrhythmogenic actions of cardiac glycosides, without affecting maximally developed tension. Moreover, magnesium increases binding affinity of cardiac glycosides to the receptor. The antiarrhythmic action of magnesium is suspected to be mediated by a reduced sensitivity to electrophysiological changes induced by Ca2+, thus indicating Ca2+ antagonistic properties of magnesium. Magnesium deficiency has also been implicated in sudden death, notably in patients with congestive heart failure. Therefore, when treating congestive heart failure, one must consider how to prevent depletion of electrolytes or how to replete potassium and magnesium in deficiency states.
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PMID:Heart failure and electrolyte disturbances. 150 35

We have studied the effects of vasopressin and tetradecanoyl phorbol acetate (TPA) on cytosolic free Ca2+ ([Ca2+]i) and insulin release in HIT-T15 beta-cells. Saturable binding of [3H] [Arg8]-vasopressin to HIT cell microsomes indicated a single class of receptors with a dissociation constant (Kd) of 2.5 nM and a total number of binding sites (Bmax) equal to 120 fmol/mg protein. [Arg8]-vasopressin (0.1-100 nM) elicited dose-dependent insulin release from HIT cells by up to 25-fold. This increase was dependent on the presence of extracellular glucose and was blocked by omission of extracellular Ca2+ or addition of verapamil. The stimulation was biphasic; a rapid but short-lived large increase in release was followed by a smaller sustained rise. Vasopressin also evoked a marked, concentration-dependent increase in [Ca2+]i which was also biphasic; an initial spike was followed by a sustained elevation. This increase also required glucose and was blocked by the absence of extracellular Ca2+ or the addition of verapamil. Pretreatment of the cells with TPA overnight to deplete protein kinase C activity did not affect the [Ca2+]i or insulin responses to vasopressin. However, short-term exposure to TPA markedly reduced glucose-induced steady-state [Ca2+]i, despite potentiating glucose-stimulated insulin release sevenfold, and blocked the [Ca2+]i increase induced by vasopressin. These inhibitory effects of TPA were absent in protein kinase C-depleted cells and were prevented by staurosporine. TPA had no significant effect on vasopressin-induced insulin release. Vasopressin did not modify the activity of ATP-sensitive K+ channels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of insulin release by vasopressin in the clonal beta-cell line, HIT-T15: the role of protein kinase C. 151 19

The purpose of the present study was to determine the overall cardiovascular and sympathetic nervous system responses to stimulation of neuronal cell bodies in the paraventricular nucleus (PVN) of the hypothalamus. Bilateral microinjections (50 nl) of monosodium glutamate or sodium acetate were made into the PVN of conscious unrestrained rats. Blood pressure, heart rate and plasma concentrations of norepinephrine and epinephrine were measured. The injection of sodium acetate as an osmotic control was without effect on any of the recorded variables. In contrast, the injections of glutamate were associated with a rapid increase in both blood pressure and heart rate. At doses of 15, 25, and 50 nmol blood pressure increased by 13 +/- 2, 14 +/- 3 and 16 +/- 1 mmHg while heart rate increased by 64 +/- 15, 73 +/- 8 and 50 +/- 8 bpm. These responses were associated with increases in plasma norepinephrine concentrations of 51 +/- 8, 100 +/- 16 and 62 +/- 13 pg/ml while epinephrine concentrations rose by 42 +/- 17, 58 +/- 18 and 38 +/- 17 pg/ml. The responses of glutamate (25 nmol) were not affected by blockade of vascular vasopressin receptors with d(CH2)5Tyr(Me)AVP (10 micrograms/kg) (blood pressure: pre 15 +/- 3 vs post 13 +/- 3 mmHg, heart rate: pre 77 +/- 9 bpm vs post 91 +/- 7 bpm, plasma norepinephrine: pre 106 +/- 22 vs post 121 +/- 28 pg/ml and plasma epinephrine: pre 61 +/- 25 vs post 34 +/- 30 pg/ml).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sympathetic nervous system activation by glutamate injections into the paraventricular nucleus. 153 18

The affinity of vascular vasopressin receptors was studied to determine its role in altered vascular contractile sensitivity in deoxycorticosterone acetate (DOCA)-salt hypertension. Ring segments of rat mesenteric arteries were used to study vascular vasopressin receptors. Male Wistar rats were given subcutaneous injections of DOCA and 1% NaCl in the drinking water. Mesenteric arteries from hypertensive rats had a reduced contractile sensitivity to arginine vasopressin (AVP) and lysine vasopressin (LVP). The order of potency of vasopressin receptor agonists (AVP greater than LVP greater than oxytocin) was the same in arteries from hypertensive compared with normotensive animals. The affinity of the vasopressin receptor antagonist [deamino-Pen1,O-Me-Tyr2,Arg8] vasopressin, and the affinities of the vasopressin receptor agonists AVP and LVP were not altered during developing DOCA-salt hypertension. There was no change in contractile sensitivity to norepinephrine and KCl in arteries from hypertensive rats. The reduced vasopressin contractile sensitivity is not due to a change in vasopressin receptor affinity but may be a compensatory response to elevated blood pressure. These data suggest that increased vascular sensitivity does not contribute to elevated blood pressure during the developing stage of DOCA-salt hypertension.
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PMID:Reduced contractile sensitivity and vasopressin receptor affinity in DOCA-salt hypertension. 153 57

We have studied the effects of the vasoactive agents phorbol 12-myristate 13-acetate (PMA) and vasopressin (VP) on phosphatidylcholine metabolism in cultured rat glomerular mesangial cells. PMA and VP stimulate the incorporation of [3H]choline into phosphatidylcholine and the release of [3H]choline into the culture medium. VP, but not PMA, also increases the release of phosphorylcholine into the medium. This suggests that PMA specifically stimulates phospholipase D, whereas VP stimulates phospholipases C and D. Experiments were also conducted to look for production of phosphatidic acid and diacylglycerol, products of phospholipase D- and C-mediated breakdown of phosphatidylcholine. Treatment of cells prelabeled with [3H]myristic acid for 2.5 min with PMA or VP increases the content of [3H]myristic acid in diacylglycerol and phosphatidic acid. A dual labeling study ([3H]myristic acid and [14C]arachidonic acid) suggests that phosphatidylcholine is an important source of diacylglycerol in cells treated with VP and PMA. When PMA or VP are added to [3H]myristic acid-labeled cells in the presence of ethanol, increased labeling of phosphatidylethanol is seen as early as 2.5 min. Desensitization of protein kinase C by overnight treatment of cells with PMA blocked subsequent VP-stimulated formation of phosphatidylethanol and release of [3H]choline. When cells were simultaneously treated with VP and PMA, additive effects on phosphatidylethanol formation and [3H]choline release were observed.
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PMID:Vasopressin and phorbol ester-stimulated phosphatidylcholine metabolism in mesangial cells. 153 83

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