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 diffusional water permeabilities of collecting ducts in the presence and absence of antidiuretic hormone have been measured in isolated papillae from normal, hypokalaemic and hypercalcaemic rats. In a similar in vitro situation the effect of antidiuretic hormone on the papillary content of cyclic AMP has been measured. The diffusional water permeability of collecting ducts in the absence of antidiuretic hormone did not differ significantly in papillae taken from the different groups of rats. The diffusional water permeability in the presence of ADH was 7.4 +/- 0.2 (S.E.M.) mum s-1 in collecting ducts taken from normal rats. In collecting ducts taken from hypokalaemic or hypercalcaemic rats the corresponding values were 5.9 +/- 0.3 and 5.8 +/- 0.5 mum s-1 respectively. This significant decrease (P less than 0.01) in the response to antidiuretic hormone would shift the point at which distal tubule fluid first attains isotonicity with the interstitium. If this shifts from cortex to medulla a greater amount of water enters the interstitium of the medulla and produces an impairment of maximal urinary concentrating ability and this defect could explain most of the observed results in hypokalaemic and hypercalcaemic. Cyclic AMP content of the tissue after the addition of ADH was reduced in papillae taken from hypokalaemic rats. This reduced activation of adenyl cyclase could be the mechanism responsible for the impaired response in water permeability but it is also possible that there is interference, with the chain of reactions mediating permeability changes, at a separate site.
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PMID:A study in vitro of the concentrating defect associated with hypokalaemia and hypercalcaemia. 18 84

The authors have evaluated urinary adenosine 3',5'-monophosphate (cyclic AMP) excretion and renal function during Pitressin administration, hypertonic saline administration, and water deprivation in two siblings with vasopressin-resistant diabetes insipidus and in normal control subjects. After vasopressin administration normal subjects experienced a 2-fold rise in urinary cyclic AMP excretion from 3.2 +/- 0.7 to 5.6 +/- 1.3 nmol/min (P less than 0.001) whereas cyclic AMP excretion was unchanged in both patients (patient AC 4.4 +/- 0.9 to 4.3 +/- 2.1; patient TC 2.2 +/- 0.9 to 2.6 +/- 0.9 nmol/min) with nephrogenic diabetes insipidus (NDI). Urinary cyclic AMP excretion was measured during infusion of 2.5% saline, after vasopressim administration, and after water deprivation. Cyclic AMP excretion was not different from control values in the NDI patients during any of the experimental conditions. Furthermore, there was no difference in cyclic AMP excretion when periods of dilute urine excretion (patient AC 4.5 +/- 1.1; patient TC 2.1 +/- 0.8 nmol/min) were compared with periods when urine concentration was greater than that of plasma (AC 3.5 +/- 1.3; TC 1.8 +/- 0.9 nmol/min). Both subjects responded to parathyroid hormone infusion with a 2-fold increase in urinary cyclic AMP excretion. Excretion of concentrated urine was paralleled by a marked decrease in urine flow to less than 1 ml/min/m2. During periods of hypotonic urine excretion (Uosm/Posm less than 1.0) average glomerular filtration rate (GFR) in patient AC was 67.0 +/- 3.0 ml/minm2 whereas in patient TC it was 70.1 +/- 8.1 ml/min/m2. When each patient was excreting a hypertonic urine (Uosm/Posm greater than 1.0) after fluid deprivation their GFR had decreased significantly (P = 0.001) to 31.6 +/- 8.9 and 33.3 +/- 10.3 ml/min/m2, respectively. Ability of these two subjects with NDI to concentrate their urine to Uosm/Posm greater than 1.0 in the absence of an increase in urinary cyclic AMP but associated with a decrease in GFR to 50% normal indicates that urinary concentration was effected by a reduction in GFR rather than a partial response to antidiuretic hormone (ADH). Their ability to concentrate their urine during periods of modest volume depletion would protect them from progressing to more severe stages of dehydration and result in the relatively benign course of their disease. It is feasible that in patients previously reported to have had clinically "partial" NDI this mechanism may have been operative.
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PMID:The mechanism of urinary concentration in nephrogenic diabetes insipidus. 18 7

The cation specific ionophore A23187 (Io) is a useful tool for studying the role of intracellular Ca++ (Ca++)i in physiologic processes. The present studies explore the role of (Ca++)i on Na transport in the toad bladder. Scraped bladder cells exposed to 1 muM Io for 60 min took up 100% more 45Ca than control cells. Io, 1 muM, added to the serosal side of bladders incubated in standard Ringers containing 2.5 mM Ca++ inhibited short circuit current (SCC) values by a mean of 30% at 60 min and 50% at 90 min. Io did not inhibit SCC significantly in bladders incubated in Ringers containing 0.2 mM Ca++. These data indicate that the effects of Io on SCC depend on the levels of external Ca++ and suggest that entry of Ca++ into cells mediates the inhibition of base-line SCC. PReincubation of the bladders with either lanthanum chloride or pentobarbital prevented the increased 45Ca uptake produced by ionophore as well as theinhibition of SCC caused by the antibiotic. Vasopressin, antidiuretic hormone (ADH). 10 MU/ml, increased peak SCC by 247% in bladders preincubated for 1 h in Ringers with 2.5 mM Ca++ and 1 muM Io and by 318% in control bladders (P less than 0.01). Bladders exposed to 1 muM Io in Ringers with 0.2 mM Ca++ had an increase in SCC after ADH comparable to that observed in controls. Since the effects of ADH on SCC are mediated by cyclic AMP, we tested the effects of Io on cAMP production by scraped toad bladder cells. ADH increased cAMP from 8 to 30 pmol/mg protein in controls but it did not increase cAMP over base-line values in the presence of Io when the Ringers contained 2.5 mM Ca++. Io did not inhibit cAMP production in response to ADH when the Ca++ in the Ringers was 0.2 mM. The results indicate that Io inhibits baseline and ADH stimulated SCC by increasing (Ca++)i or Ca++ bound to the cell membrane. It is suggested that: ()( (Ca++)i or membrane-bound Ca++ plays a key role in base-line and ADH stimulated Na transport in the toad bladder; (2) inhibition of ADH stimulated SCC may be due inpart to decreased cAMP generation in response to ADH when (Ca++)i or membrane-bound Ca++ levels are increased.
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PMID:Effects of ionophore A23187 on base-line and vasopressin-stimulated sodium transport in the toad bladder. 19 Feb 65

Many hormones initiate their biologic actions by augmenting the intracellular concentrations of 3',5'-adenosine monophosphate (cyclic AMP). The nucleotide has been found in body fluids; its determination in plasma and urine can be performed by a rapid, simple and specific method: the cyclic AMP assay kit of the Radiochemical Centre (Amersham, England). The assay is based on the competition between unlabelled cAMP and a fixed quantity of the tritium labelled compound for binding to a bovine muscle protein which has a high specificity and affinity for cAMP. Different factors must be considered in evaluating the 24 h urinary content of the nucleotide: the renal or extrarenal origin of cAMP and the functional status of the kidneys. In basal conditions the urinary cAMP excretion is significantly correlated with creatinine excretion (n = 67; r = 0.47; p less than 0.001) thus confirming that the most part of cAMP excreted is derived from the plasma by glomerular filtration. Parathyroid hormone (PTH) stimulates adenylate cyclase predominantly in the renal cortex, whereas vasopressin (ADH) stimulated the enzyme in the medulla; thus PTH and ADH could increase the amount of cAMP in the urine from the renal source. In a case of diabetes insipidus and infusion of ADH caused a prompt rise in cAMP urinary excretion. In 5 normals an infusion of bovine synthetic parathyroid hormone caused an increased excretion of cAMP that preceded the phosphaturic response. An infusion of salmon synthetic calcitonin caused a rise in phosphate excretion and no increase in cAMP urinary content. As it concerns the two calciotopic hormones, PTH and CT, it is reasonable to assume that renal receptors are distinct. The 24 h urinary excretion of cAMP in 55 control subjects (3613 +/- 1460 D.S. n moles) was contrasted with the lower excretion in 25 elderly subjects (70-93 years: 1804 +/- 699 n moles), with the high cAMP excretion in a patient with hyperparathyroidism (that fell to normal values following removal of the parathyroid adenoma) and with the low cAMP excretion in patients with primary or surgical hypoparathyroidism. The mean 24 h cAMP excretion in patients with renal insufficiency was significantly decreased when compared to control subjects. These findings and recent reports confirm that the 24 h urinary output of cAMP may be considered an useful index of pharathyroid function in man.
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PMID:[The diagnostic value of the determination of cyclic 3',5'-adenosine monophosphate (cAMP) in urine]. 19 Jun 33

A peptide-containing extract (PE) from Helix nervous system modifies the endogenous bursting pattern of electrical activity in Helix neurone F-1. This effect is similar to that induced in neuron F-1 by certain phosphodiesterase inhibitors and cAMP derivatives. The PE, and the vertebrate peptide hormones vasopressin and oxytocin, also cause an accumulation of cAMP in Helix ganglia in vitro. The factor in the PE which causes the cAMP accumulation is destroyed by Pronase, is lost on dialysis, and is stable to boiling. In all these respects it is identical to the factor which causes the change in neuronal electrical activity. The PE also stimulates adenylate cyclase activity in a crude membrane fraction prepared from Helix ganglion homogenates. This stimulation is abolished by prior dialysis of the PE, or pretreatment of the PE with pepsin, but is not affected by boiling of the PE. Pepsin-treated PE has no effect on electrical activity in neuron F-1. The adenylate cyclase-stimulating activity of the PE, like the factor which modifies neurone F-1 electrical activity, elutes in the void volume of a Sephadex G-10 column. The included volume of this column contains a factor which inhibits PE modification of neuronal electrical activity, and also inhibits both basal and PE-stimulated adenylate cyclase activity. The data are consistent with the possibility that cAMP mediates the effects of the PE on electrical activity in molluscan neurones.
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PMID:Modulation of electrical activity and cyclic nucleotide metabolism in molluscan nervous system by a peptide-containing nervous system extract. 20 Mar 7

The basal release of vasopressin from the isolated neural lobe of the rat decreased in the presence of exogenous cAMP, 8Br-cAMP, diB-cAMP, theophylline, SQ 20,009 and RO20-1724. The concentration-related decrease in vasopressin release, in the presence of phosphodiesterase inhibitors, was accompanied by a progressive increase in cAMP concentration in the neural lobe. The findings suggest a local modulation of vasopressin release from the neural lobes.
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PMID:Inhibitory effects of cyclic AMP on vasopressin release from the rat neural lobe in vitro. 20 16

Urinary excretion of adenosine 3',5' -cyclic monophosphate (cAMP) and immunoreactive arginine vasopressin (AVP) were investigated after water loading and following ethanol loading in two rat strains selected for their voluntary ethanol intake. After ethanol loading ethanol preferring (AA) rats excreted more cAMP but less AVP than water preferring (ANA) rats. The results suggest that the strain difference in cAMP excretion is of renal origin and is not due to vasopressin or parathormone. Differences in the sympathetic nervous activity may be responsible for the difference in cAMP excretion.
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PMID:Urinary cyclic AMP and vasopressin excretion in rat strains selected for their alcohol intake. 20 97

The microviscosity of cellular membranes (or membrane fluidity) was measured in suspensions of single mucosal cells isolated from the urinary bladder of the toad, Bufo marinus, by the technique of polarized fluorescence emission spectroscopy utilizing the hydrophobic fluorescent probe, perylene. At 23 degrees C, 5 mM dibutyryl cyclic 3',5'-AMP decreased the apparent microviscosity of the cell membranes from 3.31 to 3.07 P, a minimum decrease of 7.3% (P less than 0.001) with a physiological time course. Direct visualization of the cell suspension indicated that 98% of the cells were viable, as indicated by Trypan Blue dye exclusion. The fluorescent perylene could be seen only in plasma membranes, suggesting that the measured viscosity was that of plasma membrane with little contribution from the membranes of cellular organelles. Addition of antidiuretic hormone to intact hemibladders stained with perylene produced changes in fluorescence consistent with a similar 7% decrease in apparent microviscosity with a physiological time course. However, finite interpretation of the findings in intact tissue cannot be made because the location and the fluorescent lifetime of the probe could only be conducted on the isolated cells. Comparison with previously determined relationships between water permeability and microviscosity in artificial bilayers suggests that the 7% (a lower limit) decrease in microviscosity would produce only a 6.5% increase in water permeability.
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PMID:Microviscosity of mucosal cellular membranes in toad urinary bladder: relation to antidiuretic hormone action on water permeability. 20 70

In vivo experiments were performed in male Wistar rats to elucidate the probable relation between renal concentrating ability and medullary cyclic AMP content as influenced by changes of hydration and by administration of antidiuretic hormone (ADH). Cyclic AMP levels were 37% lower in water diuretic than in control animals (P less than 0.01), but were not significantly changed during prolonged antidiuresis induced by dehydration or ADH administration. Nor could any change of cyclic AMP levels be demonstrated between 2 and 20 min after ADH injection. Significant increases of medullary cyclic AMP content occurred following stress, anesthesia, and administration of isoproterenol and 3-isobutyl-1-methylxanthin. The results suggest that the level of cyclic AMP in the renal medulla may not be an important determinant of the antidiuretic response produced by ADH in rats.
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PMID:Dissociation between antidiuretic response and renal medullary cyclic AMP levels in the rat. 20 98

Vasopressin increases the permeability of receptor cells to water and, in tissues such as toad bladder, to solutes such as urea. While cyclic AMP appears to play a major role in mediating the effects of vasopressin, there is evidence that activation of the water permeability system and the urea permeability system involves separate pathways. In the present study, we have shown that inhibitors of oxidative metabolism (rotenone, dinitrophenol, and methylene blue) selectively inhibit either vasopressin-stimulated water flow or vasopressin-stimulated urea transport. There was no inhibition, however, when exogenous cyclic AMP was substituted for vasopressin, and little to no inhibition when the potent analogue 8-bromoadenosine 3',5'-cyclic monophosphate (8-Br-cAMP) was employed. Rotenone had no effect on adenylate cyclase activity or cyclic AMP levels within the cell; dinitrophenol decreased adenylate cyclase activity minimally. Additional studies with vinblastine and nocodazole, inhibitors of microtubule assembly, demonstrated an inhibition of vasopressin and cyclic AMP-stimulated water flow but showed no effect on urea transport. We would conclude that water and urea transport, as examples of hormone-stimulated processes, have different links to cell metabolism, and that in addition to cyclic AMP, a non-nucleotide pathway may be involved in the action of vasopressin.
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PMID:Effect of metabolic inhibitors on vasopressin-stimulated transport systems in the toad bladder. 22 66


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