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)

1. Intracerebroventricular (I.C.V.) injections of isotonic and hypertonic solutions into the dorsal (D3V) and ventral (V3V) third ventricle were employed to examine the release of vasopressin (AVP) and the mean arterial pressure (MAP) response to elevated cerebrospinal fluid (CSF) osmolality in the conscious rat. 2. The D3V injection of hypertonic sodium chloride solution was associated with a concentration-dependent, transient increase in plasma AVP concentration and MAP. 3. The D3V injection of 5 microliters 0.85 M-sodium chloride elicited a 7-fold increase in plasma AVP and oxytocin concentrations, but had no effect on plasma ACTH concentration. The D3V injection of 1.11 M-mannitol in 0.15 M-sodium chloride had no effect on plasma AVP concentration or MAP. However, the D3V injection of 0.746 M-mannitol in 0.4 M-sodium chloride elicited a significant transient increase in plasma AVP, but had no effect on MAP. 4. The V3V injection of 5 microliters 0.85 M-sodium chloride elicited a prolonged increase in plasma AVP concentration and a transient increase in MAP. The V3V injection of 5 microliters 1.11 M-mannitol in 0.15 M-sodium chloride elicited an equal, but transient, increase in plasma AVP concentration, but had no effect on MAP. 5. The pressor effect of a D3V injection of 0.85 M-sodium chloride was unaffected by prior administration of the V1 (pressor) receptor antagonist (beta-mercapto-beta,beta-cyclopentamethylene propionyl1, O-Me-Tyr2, Arg8)-vasopressin. 6. These results indicate that osmotically induced AVP secretion may be mediated by both sodium receptors and osmoreceptors, although expression of the response may depend upon the maintenance of a 'permissive' concentration of sodium in the CSF. 7. It appears also that the pressor effect is not due to increased plasma AVP concentration, but only results from elevation of the CSF sodium concentration.
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PMID:The vasopressin response to centrally administered hypertonic solutions in the conscious rat. 212 Apr 29

In rats euhydrated or dehydrated for two or four days the neurohypophysial vasopressin and oxytocin content was estimated. Rats were given intracerebroventricularly (i.c.v.) isoprenaline in a daily dose of 10 micrograms dissolved in 10 microliters of 0.9% sodium chloride. The neurohypophysial vasopressor and oxytocic activity diminished progressively during deprivation of water. A single dose of isoprenaline diminished the neurohypophysial content of vasopressin in euhydrated rats. In animals dehydrated for two or four days the depletion of neurohypophysial vasopressin storage (as brought about by osmoreceptor stimulation) was distinctly less marked under treatment with isoprenaline. The neurohypophysial oxytocin storage was diminished by a single dose of isoprenaline; on the contrary, during dehydration isoprenaline distinctly intensified the oxytocin depletion in the neurohypophysis.
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PMID:The vasopressin and oxytocin content in the neurohypophysis under conditions of increased beta-adrenergic transmission in euhydrated and dehydrated rats. 217 1

Studies on two quadriplegic patients who developed severe hyponatremia during episodes of acute respiratory distress were performed to determine whether differences in osmoregulation of vasopressin release could be identified in these patients compared to other quadriplegic subjects previously studied in a similar manner. Both patients were clinically stable and normonatremic, with no signs or symptoms of respiratory distress, when the studies were performed. However, both exhibited evidence of hemodynamic instability in the sitting posture. Linear regression analysis of the plasma vasopressin/plasma osmolality (Pavp:Posm) relationship during infusions of 0.85 M sodium chloride showed no significant differences in either the slope (sensitivity) or abscissal intercept (osmotic threshold) of this relationship compared to that of other quadriplegic subjects when the patients were supine. In contrast, when the patients were studied in the sitting posture there was a marked shift in the relationship of Pavp:Posm indicative of increased sensitivity and reduced osmotic threshold for vasopressin release. The slopes of the Pavp:Posm relationships were 0.249 and 0.178 for the two patients, respectively, compared to 0.092 +/- 0.03 ( +/- SD) for previously studied quadriplegic subjects. Oral water-loading studies performed on one patient revealed marked impairment of urine-diluting ability and free water clearance in the sitting posture compared with observations in similar studies performed when the patient was supine. Impairment of renal water excretion could not be attributed to an effect of vasopressin, which was reduced to unquantifiable levels by water loading. These studies have shown that hemodynamic stress related to autonomic dysfunction in quadriplegic patients may result in marked alteration of osmoregulation of vasopressin release in more severely affected individuals. Such altered osmoregulation, which may also be associated with vasopressin-independent impairment of renal water excretion in the sitting posture, may be a predisposing factor in the development of hyponatremia, especially in the presence of other potent nonosmotic stimuli.
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PMID:Nonosmotic stimuli alter osmoregulation in patients with spinal cord injury. 222 11

The hydroosmotic action of [arginine]vasopressin (vasopressin, 25 microU/ml) and of 8-Br-cAMP (10(-4)M) was studied in vitro in perfused cortical collecting tubules (CCT) isolated from rabbits fed with lithium chloride for 3 weeks. Vasopressin-dependent water reabsorption was significantly inhibited by 65% although no lithium was used in the in vitro experiments. The hydroosmotic action of 8-Br-cAMP was also inhibited by previous Li treatment, but the effect was smaller in magnitude. Water intake, diuresis, and urinary osmolality were no different in the lithium-treated animals as compared with respective pretreatment values or with control animals given an equivalent amount of sodium chloride. Neither the creatinine clearance nor the maximal urinary concentrating ability were modified by lithium treatment. A mathematical model simulating water reabsorption along the CCT predicts that a 65% reduction of vasopressin-stimulated hydraulic conductivity, as observed in the Li group, may not be sufficient to prevent a complete osmotic equilibration at the end of the CCT in vivo. We conclude that: (a) in the rabbit, lithium administration induces an impairment of the hydroosmotic action of vasopressin in the CCT, which is due to an inhibition of pre- and post-cAMP events. (b) The inhibition of vasopressin action can be demonstrated in vitro at a time when no detectable impairment of the water conservation process occurs in vivo.
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PMID:Impaired hydroosmotic response to vasopressin of cortical collecting tubules from lithium-treated rabbits. 224 42

1. The measurement of cellular mRNA content by quantitative in situ hybridization is a valuable approach to the study of gene expression in brain since this tissue exhibits a high degree of phenotypic heterogeneity. 2. The cellular content of vasopressin and oxytocin mRNA in hypothalamo-neurohypophysial system neurons was altered by maintaining rats for 24 hr on 2% sodium chloride water. 3. Statistical and graphical techniques were then used to analyze cell by cell how mRNA levels were altered as a result of osmotic stimulation. We propose that the negative binomial probability distribution is a suitable model to describe how mRNA content varies across a defined cell population. For both measures of oxytocin and vasopressin mRNA levels, maximum-likelihood estimation indicated that this model adequately described empirical findings obtained from rats drinking tap water or salt water. 4. Both graphical and statistical analyses suggested how the defined neural system responds to osmotic stimulation: mRNA content was altered as a multiplicative function of "initial state." The utility and limitations of the quantitative approach are discussed.
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PMID:Quantitative in situ hybridization to measure single-cell changes in vasopressin and oxytocin mRNA levels after osmotic stimulation. 233 46

Single rat hepatocytes, microinjected with the calcium-sensitive photoprotein aequorin, when stimulated with either phenylephrine or arg8-vasopressin exhibit agonist-specific oscillations in cytosolic free calcium levels (free Ca). In the majority of the cells examined adding excess potassium chloride, sodium chloride or choline chloride abolished transient behaviour. However, in cells that continued to oscillate the transient parameters were subtly modified by these treatments. In experiments using phenylephrine as the agonist, adding excess potassium chloride to the superfusate significantly reduced transient length, increased the rate of transient rise and reduced the smoothed peak free Ca level without significantly altering the intertransient resting free Ca level or the falling time constant. The possible mechanisms by which these alterations may occur are discussed.
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PMID:Modulation of free Ca oscillations in single hepatocytes by changes in extracellular K+, Na+ and Ca2+. 236 12

Using rat renal papillary collecting tubule (RPCT) cells in culture, we examined the interactions of extracellular osmolality, vasopressin-stimulated cAMP, and prostaglandin E2 (PGE2) synthesis. Hypertonic solutions composed of equiosmolar amounts of urea and sodium chloride, 900-2,400 mosM, potentiated the increases of intracellular cAMP after vasopressin stimulation. Sodium chloride, rather than urea, was the important solute. The mechanism of this augmented cAMP response was complex, probably involving increased synthesis, decreased degradation, and reduced efflux of cAMP from the RPCT cells. The potentiating actions of hypertonic sodium chloride were specific for vasopressin-stimulated cAMP and were not observed for forskolin or PGE2-stimulated cAMP. Hypertonic solutions inhibited RPCT cell PGE2 production, and sodium chloride, rather than urea, was again the important solute. The enzymatic site of sodium chloride inhibition of PGE2 synthesis was apparently on the phospholipase enzymes, assessed by calcium ionophore and bradykinin stimulation, and not on cyclooxygenase, measured by arachidonic acid responsiveness. Reductions of osmolality, from 1,800 to 300 mosM, acutely increased PGE2 release, possibly through a calcium-dependent stimulation of phospholipase. We conclude that conditions that prevail in vivo during antidiuresis, namely hypertonicity of the papillary interstitium, may augment vasopressin responsiveness through increments of collecting tubule cAMP and reductions of PGE2 which could, in concert, maximize water reabsorption in the collecting tubule.
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PMID:Osmolality, vasopressin-stimulated cAMP, and PGE2 synthesis in rat collecting tubule cells. 242 57

High concentrations of organic solutes are present in the medulla of the antidiuretic kidney. However, their role in and response to acute changes in the diuretic state are unknown. In this study the organic solute content of the renal medulla was determined from extracts with the use of high-performance liquid chromatography following the acute dilution of the medullary interstitium during various forms of diuresis. After acute infusion of saline and furosemide, inner medullary urea, sodium, inositol, sorbitol, and betaine decrease significantly with no change in glycerophosphorylcholine (GPC) content. After diuresis, inner medullary urea and sodium contents eventually returned to control levels, although inositol, sorbitol, and betaine contents still remained low. Addition of antidiuretic hormone to the saline/furosemide infusion gave similar results. In contrast, induction of diuresis from mannitol infusion caused an acute decrease in all 4 organic solutes, whereas glucose infusion caused an acute decrease in all organic solutes except sorbitol. These data demonstrate that a decrease in all four organic solutes can accompany medullary dilution. However, GPC and sorbitol do not decrease when diuresis is induced by furosemide or glucose, respectively. In addition, the recovery of these compounds in a normally functioning kidney after diuresis is much slower than the regeneration of the sodium chloride and urea gradients.
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PMID:Acute regulation of the predominant organic solutes of the rabbit renal inner medulla. 250 89

Atrial natriuretic factor (ANF) is a peptide hormone that causes a large increase in urinary sodium chloride and water excretion when its plasma concentration rises above basal levels. As yet, there is no consensus regarding the chief site of action of ANF in the kidney. We microdissected and perfused rat cortical collecting ducts in vitro to determine whether ANF-(1-28) can directly inhibit net sodium and fluid absorption. ANF decreased both net sodium absorption and vasopressin-stimulated net fluid absorption by 50-90% when added to the peritubular bath solution. Approximately 50% inhibition of net fluid absorption occurred at 0.1 nM ANF, a level equivalent to plasma concentrations in volume-expanded rats. The action of ANF was mimicked by the addition of exogenous guanosine 3',5'-cyclic monophosphate. If ANF has a similar action on the cortical collecting duct in vivo, it could account for a substantial part of the ANF-mediated increase in urinary sodium and water excretion.
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PMID:ANF inhibits NaCl and fluid absorption in cortical collecting duct of rat kidney. 252 30

The case of a 7-year-old boy with the normotensive form of "chloride-shunt" syndrome is described. An unusual feature was the clinical presentation with lithiasis, caused by marked hypercalciuria of renal origin. The present studies were carried out to investigate the nature of the renal tubular defect. Indices for proximal and distal sodium chloride reabsorption were increased during hypotonic saline diuresis. Baseline sodium chloride excretion was low but increased above the range of control values after acute furosemide administration. Baseline potassium excretion was low, was not modified by the infusion of sodium chloride and increased significantly during infusions of sodium sulphate or sodium bicarbonate. Calcium excretion remained unchanged during sodium chloride, sodium sulphate or sodium bicarbonate infusions, but increased after furosemide administration. Nasal insufflation of 1-desamino-8-D-arginine-vasopressin induced both an increase in potassium excretion and a decrease in calcium and magnesium excretion. Plasma atrial natriuretic peptide was increased and was not significantly modified by infusion of hypertonic saline or acute administration of furosemide. These findings indicate that the primary renal abnormality appears to be an enhanced tubular reabsorption of sodium chloride, apparently present in the proximal tubule and the ascending loop of Henle. The associated presence of hypercalciuria also suggests a transport defect in the distal tubule. Decreased potassium excretion probably depends on a voltage-shunting defect in the cortical collecting tubule, which can be reversed by increasing the delivery of non-reabsorbable anions or by enhancing the conductance of the luminal membrane.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:"Chloride-shunt" syndrome: an overlooked cause of renal hypercalciuria. 253 69

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