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

It has been demonstrated previously that a high concentration of potassium in the serosal bathing medium (5-21.5 mM) potentiates the increase in short-circuit current caused by vasopressin or exogenous cyclic AMP. The same concentration of potassium in the bathing medium inhibited the increase in short-circuit current caused by theophylline. The increases in osmotic water permeability caused by vasopressin or cyclic AMP were unaffected by a serosal potassium concentration of 21.5 mM. The increase in osmotic water permeability caused by theophylline was inhibited by 21.5 mM potassium. The concentration of cyclic AMP in either intact total bladder or isolated toad bladder cells was increased two- or three-fold by theophylline. Increasing the concentration of potassium to 21.5 mM did not alter cyclic AMP concentration in either the absence of presence of theophylline. One interpretation of these results is that theophylline increases osmotic water flow and short-circuit current by a mechanism other than by inhibition of cyclic nucleotide phosphodiesterase.
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PMID:Effects of high potassium concentration on theophylline responses of toad bladder. 19 Aug 97

One of several factors affecting the secretion of renin by the kidneys is the sympathetic nervous system. The sympathetic input is excitatory and is mediated by beta-adrenergic receptors, which are probably located on the membranes of the juxtaglomerular cells. Stimulation of sympathetic areas in the medulla, midbrain and hypothalamus raises blood pressure and increases renin secretion, whereas stimulation of other parts of the hypothalamus decreases blood pressure and renin output. The centrally active alpha-adrenergic agonist clonidine decreases renin secretion, lowers blood pressure, inhibits ACTH and vasopressin secretion, and increases growth hormone secretion in dogs. The effects on ACTH and growth hormone are abolished by administration of phenoxybenzamine into the third ventricle, whereas the effect on blood pressure is abolished by administration of phenoxybenzamine in the fourth ventricle without any effect on the ACTH and growth hormone responses. Fourth ventricular phenoxybenzamine decreases but does not abolish the inhibitory effect of clonidine on renin secretion. Circulating angiotensin II acts on the brain via the area postrema to raise blood pressure and via the subfornical organ to increase water intake. Its effect on vasopressin secretion is debated. The brain contains a renin-like enzyme, converting enzyme, renin substrate, and angiotensin. There is debate about the nature and physiological significance of the angiotensin II-generating enzyme in the brain, and about the nature of the angiotensin I and angiotensin II that have been reported to be present in the central nervous system. However, injection of angiotensin II into the cerebral ventricles produces drinking, increased secretion of vasopressin and ACTH, and increased blood pressure. The same responses are produced by intraventricular renin. Angiotensin II also facilitates sympathetic discharge in the periphery, and the possibility that it exerts a similar action on the adrenergic neurons in the brain merits investigation.
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PMID:The renin-angiotensin system and the central nervous system. 19 Dec 99

Mechanisms for the concentrating defect produced by fluoride were examined in the rat. Free-water clearance at all levels of delivery was normal after 5 days of chronic fluoride administration in the hereditary hypothalamic diabetes insipidus rat. In the Sprague-Dawley rats, during moderate fluoride administration (120 micronmol/kg per day), urine osmolality and cyclic AMP excretion decreased and urine volume increased, but after exogenous vasopressin, volume decreased and osmolality and cyclic AMP increased appropriately. During larger daily doses of fluoride (240 micronmol/kg per day) urinary osmolality and cyclic AMP decreased and volume increased, which was similar to the changes seen during lower fluoride dosages, but these parameters did not change after exogenous vasopressin. These data suggest that ascending limb chloride reabsorption is unaltered by fluoride administration; in the presence of sufficient fluoride, collecting tubular cells apparently do not generate cyclic AMP or increase permeability appropriately in response to vasopressin. The postulated defect is felt to be due to either a decrease in ATP availability or to a direct inhibitory effect of fluoride on the vasopressin-dependent cyclic AMP generating system.
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PMID:Effect of sodium fluoride on concentrating and diluting ability in the rat. 19 87

Nine active neurohypophyseal principles have been isolated and identified among the vertebrates. Arginine-vasotocin is the most ubiquitous, occurring in pituitary glands from representatives of all the major vertebrate groups. There is much more variation in structure among the principles that resemble oxytocin. The manner in which these evolved remains unclear. Arginine-vasotocin stimulates smooth muscles from a wide variety of vertebrate species. It can stimulate contraction of oviducts from many jawed fishes and tetrapods. The oxytocin-like peptides are usually less active in this respect. Among adult mammals arginine-vasotocin is replaced by arginine-vasopressin which has much less oxytocin activity. Thus, although arginine-vasotocin may both stimulate oviducts and cause water retention in nonmammalian tetrapods, oxytocic and antidiuretic functions can be regulated independently by oxytocin and vasopressin in mammals. Arginine-vasotocin elicits vasoconstrictor responses in even the most primitive vertebrates. These may be systemic or regional. Their distribution may determine whether arginine-vasotocin acts as a diuretic or an antidiuretic agent. It is possible that the most primitive neurohypophyseal functions were related to cardiovascular regulation and that the neurohypophysis acquired its osmoregulatory functions later in vertebrate evolution.
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PMID:Evolution of neurohypophyseal hormones and their receptors. 19

The efficacy of demeclocycline hydrochloride in suppressing the tubular action of tumoral antidiuretic products was tested in seven patients with the syndrome of inappropriate antidiuretic hormone secretion. In all patients, demeclocycline hydrochloride (1,200 mg/day) induced production of hypotonic urine and corrected hyponatremia despite large fluid intakes. Comparison of the response to a standard water load before and during treatment showed a notable improvement in the response to water ingestion. Even though demeclocycline moderately impairs renal function, it appears to be the treatment of choice in the chronic form of the syndrome.
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PMID:Demeclocycline. Treatment for syndrome of inappropriate antidiuretic hormone secretion. 19 65

Angiotensin II is a peptide normally present in the bloodstream and central nervous system. Exogenous angiotensin induces drinking which is inhibited by saralasin, a specific receptor antagonist. Administration of saralasin does not reduce endogenously stimulated drinking. Angiotensin is dipsogenic after intravenous or intracerebroventricular infusion, raising the possibility of multiple access routes to the brain. Water deprived rats were given saralasin by both routes simultaneously to block the access of endogenous angiotensin to recentors reached from blood and ventricular cerebrospinal fluid (CSF). Water deprivation increased plasma (Na+), hematocrit, vasopressin content and renin activity but saralasin treatment did not reduce water intake after 30 or 60 min. Therefore, blood or CSF-bore angiotensin does not appear to be an absolute requirement for water deprivation drinking behavior.
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PMID:Drinking behavior in water deprived rats after angiotensin receptor blockade. 19 67

The authors report two cases and consider the various physiopathological mechanisms of inappropriate hypersecretion of antidiuretic hormone. An exploration including clearance of free water and, in some cases, estimation of ADH before and after a water load, then before and after administration of ethyl alcohol, permits one to determine the mechanism. It seems advisable to reserve the term Schwartz-Bartter syndrome to paraneoplasic syndromes linked to ectopic and autonomous secretion of ADH.
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PMID:[Inappropriate secretion of antidiuretic hormone: true and false Schwartz-Bartter syndrome. Apropos of 2 cases]. 19 21

3 cases of inappropriate vasopressin secretion during one case of anaplastic carcinoma of the lung, one case of carcinoma of the prostate with bony metastases and one case of acute intermittent porphyria are presented. The plasma levels of vasopressin, measured by radioimmunoassay were high. Treatment with demeclocycline was attempted in one case. The clearance of free water was positive but the treatment was poorly tolerated by the digestive tract.
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PMID:[Syndrome of inappropriate secretion of vasopressin. Apropos of 3 cases]. 19 87

Prostaglandin E biosynthesis and its effect on water permeability were investigated in the toad urinary bladder. Arginine vasopressin (1 mU/ml) increased prostaglandin E (PGE) biosynthesis from 0.5+/-0.1 to 5.0+/-0.4 pmol/min per hemibladder (mean +/-SEM, n= 8, P less than 0.001). Maximal vasopressin-stimulated PGE biosynthesis, 6.4+/-0.2 pmol/min per hemibladder, occurred at vasopressin concentrations in excess of 3 mU/ml. Half-maximal stimulation of PGE biosynthesis occurred at a vasopressin concentration of approximately 0.7 mU/ml, whereas half-maximal stimulation of water flow occurred at a vasopressin concentration of approximately 5 mU/ml. Vasopressin-stimulated PGE biosynthesis did not depend on water flow along an osmotic gradient or upon sodium transport. Thin-layer chromatographic analysis of the lipids released from hemibladders labeled with tritium-arachidonic acid revealed that vasopressin stimulates the release of arachidonic acid from intracellular lipid stores without affecting the percentage of free arachidonic acid converted to PGE. Neither cyclic AMP nor theophylline stimulated PGE biosynthesis although they mimic arginine vasopressin (AVP) in stimulating water permeability. Biosynthesis of PGE was inhibited by mepacrine, a phospholipase inhibitor, and by agents that inhibit arachidonic acid oxygenase. The inhibition of PGE biosynthesis resulted in augmented vasopressin- and theophylline-stimulated water flow, but had no effect on cyclic AMP-stimulated water flow. We interpret these results to mean that endogenous PGE inhibits basal and vasopressin-stimulated adenylate cyclase activity. In contrast to the effects of AVP on permeability and transport, AVP stimulates PGE biosynthesis by a mechanism that does not depend on an increase in cellular cyclic AMP levels. The water permeability response of the toad urinary bladder to vasopressin is inhibited by PGE synthesized by the bladder in response to vasopressin.
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PMID:Vasopressin-stimulated prostaglandin E biosynthesis in the toad urinary bladder. Effect of water flow. 19 20

Chlorpropamide is known to enhance the water permeability response of the toad urinary bladder to vasopressin and to theophylline. In other studies, we have shown that prostaglandin E synthesis by the toad bladder inhibits the water permeability response to arginine vasopressin and to theophylline. In this study, the effect of chlorpropamide on vasopressin-, theophylline-, and cyclic AMP-stimulated water flow and on prostaglandin E biosynthesis was investigated in the toad urinary bladder in vitro. Chlorpropamide inhibited prostaglandin E biosynthesis during vasopressin-, theophylline- and cyclic AMP-stimulated water flow. Tolbutamide and glyburide, two other sulfonylurea compounds, also enhanced vasopressin-stimulated water flow and inhibited vasopressin-stimulated prostaglandin E biosynthesis. We conclude that the mechanism of enhancement on vasopressin-stimulated water flow by the sulfonylureas is the inhibition of prostaglandin E biosynthesis.
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PMID:Inhibition of vasopressin-stimulated prostaglandin E biosynthesis by chlorpropamide in the toad urinary bladder. Mechanism of enhancement of vasopressin-stimulated water flow. 19 21


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