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)

In mice with hereditary nephrogenic diabetes insipidus (NDI), the inability of vasopressin to increase hydraulic water permeability is reflected in a lack of intramembranous particle (IMP) clusters in apical membranes of inner medullary collecting ducts. The lack arises from anomalously high activity of one or two isozymes of adenosine 3',5'-cyclic monophosphate-phosphodiesterase (cAMP-PDE). We asked whether inhibition of these isozymes with rolipram and cilostamide would raise not only the tissue content of cAMP but also and simultaneously restore IMP clusters. Inner medullary collecting ducts from NDI mice were incubated in vitro. Tissue content of cAMP (fmol of cAMP per bundle) and number of IMP clusters (per 100 microns 2 of principal cell apical membrane) were, respectively: control, 44.8 +/- 13.0 and 4.16 +/- 1.49; arginine vasopressin (AVP), 31.7 +/- 8.0 and 3.98 +/- 1.56; rolipram and cilostamide, 109.7 +/- 21.0 and 58.09 +/- 15.74; and AVP plus rolipram and cilostamide, 305.7 +/- 75 and 48.63 +/- 11.03 (with the last four values showing significant difference from control and AVP only, respectively). In addition, treating NDI mice with rolipram and cilostamide in vivo reduced their high fluid turnover. We conclude that failure by AVP to increase cAMP in cells of collecting ducts, which results from anomalously high activity of one or two specific isozymes of cAMP-PDE, is the major or sole cause for the excretion of hypotonic urine in NDI mice (DI +/+ Severe strain).
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PMID:Induction of intramembranous particle clusters in mice with nephrogenic diabetes insipidus. 165 82

There is evidence in the rat that stimulation of renal alpha 2-adrenoceptors modulates vasopressin antidiuretic action and vasopressin-stimulated adenylate cyclase activity. In the present study, we tested the ability of various alpha 2-adrenoceptor agonists to antagonize vasopressin-induced antidiuresis in the conscious hydrated dog and to inhibit vasopressin-induced adenosine 3',5'-cyclic monophosphate (cAMP) generation in rat and dog cortical collecting tubules. Vasopressin infusion (0.01 ng.kg-1.min-1) in five dogs resulted in a decrease in free water clearance from 2.90 +/- 0.42 to -0.34 +/- 0.08 ml/min. The vasopressin receptor antagonist SKF 105494 inhibited this response. Administration of norepinephrine (0.5 microgram.kg-1.min-1) or clonidine (20 micrograms/kg), however, failed to alter the vasopressin-induced antidiuresis. In vitro studies demonstrated that epinephrine caused a dose-dependent reduction in vasopressin-stimulated cAMP levels in cortical collecting tubules from the rat (50% effective concentration 32 nM) but not from the dog. The data indicate that there is a species difference in alpha 2-adrenoceptor modulation of vasopressin action.
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PMID:Modulation of vasopressin antidiuretic action by alpha 2-adrenoceptors is species specific. 165 34

The ratio of reabsorption of osmotically free water to osmolal clearance in individual urine voids was about the same before and after short-term spaceflights (the points fall on the same regression line). This ratio was reduced after long-term flights, so that the regression lines for pre- and postflight values have different slopes. This change in the function relating the two factors was accompanied by increased vasopressin in blood plasma and probably was caused by altered cellular reaction to vasopressin. The decrease in the effect of vasopressin may have been caused by development of hypokalemia and hypercalcemia in the cosmonauts, and decrease in cellular potassium in the outer renal medulla (this effect was observed in experiments on rats after flights on biosatellites). We established that, in addition to cAMP, cGMP and inositol trisphosphate participate in cellular reactions to vasopressin. Increases in the concentration of cGMP and decrease in the formation of inositol trisphosphate in the presence of neomycin increase the hydro-osmotic effect of vasopressin. We hypothesize that modulation of the effect of vasopressin in cosmonauts is due to change in the functional state of their kidneys.
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PMID:Mechanism of postflight decline in osmotic concentration of urine in cosmonauts. 166 Feb 60

The effect of hormones on cell volume was studied in isolated perfused rat liver by assessing the intracellular water space as the difference between a [3H]inulin- and a [14C]urea-accessible space. The intracellular water space (control value 559 +/- 7 microliters/g of liver; n = 88) increased on addition of insulin (35 nM) or phenylephrine (5 microM) by 12 or 8% respectively, whereas it decreased with cyclic AMP (cAMP; 50 microM), glucagon (100 nM) or adenosine (50 microM) by 9, 13 or 6% respectively. Both insulin and glucagon exerted half-maximal effects on cell volume and cellular K+ balance at hormone concentrations found physiologically in the portal vein. Adenosine-induced cell shrinkage was explained by a net K+ release from the liver. Phenylephrine (5 microM) led to cell swelling by about 8%, which was additive to insulin-induced swelling. Extracellular ATP (20 microM) induced cell shrinkage by about 6%; this was additive to adenosine-induced shrinkage. Vasopressin (15 nM) did not appreciably change cell volume, but induced marked cell shrinkage when glucagon or cAMP was present. Insulin- and phenylephrine-induced cell swelling was counteracted by cAMP. Hormone-induced changes of intracellular water space could sufficiently explain accompanying liver mass changes induced by glucagon, cAMP, adenosine or vasopressin, but not those by phenylephrine and extracellular ATP. The data show that liver cell volume is subject to hormonal regulation, in part owing to modification of cellular K+ balance. Glucagon- and insulin-induced cell volume changes occur already in the presence of physiological hormone concentrations. The effects of Ca2(+)-mobilizing hormones on cell volume are not uniform. In view of the recently established role of cell volume changes in modulating liver cell function, the present findings open a new perspective on the mechanisms of hormone action in liver, underlining our previous hypothesis that cell volume changes may represent a 'second messenger' of hormone action.
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PMID:Regulation of cell volume in the perfused rat liver by hormones. 166 Feb 61

The maximal urinary osmolality that can be reached by the kidney is reduced with age. This may be due to impaired NaCl transport by the medullary thick ascending limb of Henle's loop, which is part of the renal concentrating mechanism and is modulated by antidiuretic hormone (ADH). We therefore tested in vitro a possible age-related change in the transport capacity and in the response of this nephron segment to ADH in young (1-2 months) and old (20-24 months) mice. The transepithelial potential difference (Vte) was significantly higher in young mice (+8.5 +/- 0.4 mV, n = 13) than in old ones (+6.6 +/- 0.5 mV, n = 17). Addition of 0.1 nmol.1-1 ADH to the bath solution significantly increased Vte by 5.2 +/- 0.5 mV in the young and by 3.1 +/- 0.6 mV in the old animals. Application of dibutyryl-cAMP (0.1 mmol.1-1) did not further increase the hormonal response in both groups. The ADH-mediated increase in the corresponding equivalent short-circuit current (ISC = Vte/Rte) was twice as great in young mice as in old, indicating that the stimulation of NaCl transport by ADH across the medullary thick ascending limb is significantly reduced with age. These results suggest that the previously reported age-related defect in the urinary concentrating ability of the kidney is partly due to a decreased response of the medullary thick ascending limb to ADH.
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PMID:Vasopressin stimulation of NaCl transport in the medullary thick ascending limb of Henle's loop is decreased in aging mice. 166 May 94

The addition of norepinephrine, epinephrine, or forskolin to collagenase-dispersed rat liver hepatocytes increase cAMP and result in a 15% loss in total cell Mg2+ within 5 min. Conversely, carbachol and vasopressin induce a 10-15% increase of total cell Mg2+. Permeabilized hepatocytes also mobilize a large pool of Mg2+ when stimulated by ADP or cAMP. This stimulation is completely inhibited by atractyloside and bongkrekic acid, two different specific inhibitors of the mitochondrial adenine nucleotide translocase. cAMP directly mobilizes Mg2+ efflux from isolated rat liver mitochondria. 50 nM cAMP or 250 microM ADP induces in 5 min a mitochondrial loss of about 6 nmol of Mg2+/mg of protein and a stimulation of ATP efflux. The effect of cAMP is specific, is not reproduced by other cyclic or noncyclic nucleotides, and is inhibited by inhibitors of the adenine nucleotide translocase. These data indicate that cAMP is a messenger for a major mobilization of Mg2+ in hepatocytes. A major target for the effect of cAMP are mitochondria, which lose up to 20-25% of their total Mg2+ in 5 min, both within the cell and after isolation. Evidence is presented suggesting that the adenine nucleotide translocase is the target of the cAMP-dependent Mg2+ efflux and that cAMP may change the operation of the translocase. This, in turn, could change within the matrix the substrate of choice of the translocase from ATP to ATP.Mg.
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PMID:Cyclic AMP-induced Mg2+ release from rat liver hepatocytes, permeabilized hepatocytes, and isolated mitochondria. 166 10

The effect of parathyroid hormone (PTH)-like peptide PTH-related protein (PTHrP)(1-34) from a human cancer cell line on renal electrolyte transport was compared with human PTH(1-34) in a thyroparathyroidectomized anesthetized rat model. Comparing submaximal, maximal and supramaximal phosphaturic concentrations of hPTH with the same PTHrP concentrations, no significant difference could be demonstrated in the urinary excretion of calcium, magnesium, inorganic phosphate or cAMP. Even the small (30.3%) and brief (45 min) reduction in fractional water excretion with the maximal (1 nM/kg/h) hPTH concentration was approximated by PTHrP. It is concluded that the structural homology between hPTH and PTHrP allows a similar action on renal electrolyte transport, including the partial agonist effect of higher concentrations of PTH on vasopressin-induced water transport.
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PMID:Synthetic human parathyroid hormone-related protein and rat renal electrolyte transport. 166 7

Glomerular and tubular cells were obtained from normal and pathological human renal biopsies. Single nephron structures were isolated by microdissection for culture. Proximal and distal tubular cells were cultivated for 5-6 weeks (three passages), whereas outgrowth of glomerular cells was sparse and after three weeks infiltrated by mesangial cells. The morphology of cultures obtained from pathological tissue was comparable with the morphology of normal cells, although cultures were more often overgrown by fibroblasts. In culture, both proximal and distal tubular cells retained physiological responses characteristic of their origin. Epidermal growth factor induced growth of proximal tubular cells. The proximal tubular cells were furthermore characterized by cAMP response to parathyroid hormone (PTH) stimulation. The distal tubular cells showed cAMP response to both PTH and vasopressin stimulation. Twelve of 17 cultures obtained from patients with no tubular injuries showed cAMP response to PTH stimulation compared with 2 of 9 cultures from renal tissue with tubular injuries.
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PMID:Human renal biopsies as source of cells for glomerular and tubular cell cultures. 166 40

Methods of blocker-induced noise analysis were used to investigate the way in which forskolin and vasopressin stimulate Na transport at apical membranes of short-circuited frog skin transporting Na at spontaneous rates of transport. Experiments were done under conditions where the apical Ringer solution contained either 100 mM Na or a reduced Na concentration of 5 or 10 mM Na and buffered with either HCO3 or HEPES. Reduction of apical solution Na concentration caused a large autoregulatory increase of Na channel density (NT) similar in magnitude to that observed previously in response to blocker (amiloride) inhibition of apical membrane Na entry. Forskolin at 2.5 microM caused maximal and reversible large increases of NT, which were larger than could be elicited by 30 mU/ml vasopressin. In both the absence and presence of the autoregulatory increase of NT (caused by reduction of apical Na concentration), forskolin caused large increases of NT. Although the fractional increases of NT in response to forskolin were roughly similar, the absolute increases of NT were considerably larger in those tissues studied at reduced Na concentration and where baseline values of NT were markedly elevated by reduction of apical Na concentration. Because the effects on NT were additive, it is likely that the cAMP-dependent and autoregulatory mechanism that lead to changes of NT are distinct. We speculate that autoregulation of NT may involve change of the size of a cytosolic pool of Na-containing vesicles that are in dynamic balance with the apical membranes. cAMP-dependent regulation of NT may involve change of the dynamic balance between vesicles and the apical membranes of these epithelial cells. Alternative hypotheses cannot at present be ruled out, but will require incorporation of the idea that regulation of NT can occur both by hormonal and nonhormonal (autoregulatory) mechanisms of action.
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PMID:Activation of epithelial Na channels by hormonal and autoregulatory mechanisms of action. 166 57

Basal adenosine 3',5'-cyclic monophosphate (cAMP) content and the modulation of its production were studied in the frog's semicircular canal epithelium. This epithelium secretes endolymph, a K(+)-rich, positively polarized fluid. The basal cAMP content measured by microradioimmunoassay was 244 +/- 14.2 fmol/structure per 5 min (n = 30). This content was increased about 8 times by 10(-5) M forskolin. Vasotocin, the frog antidiuretic hormone, increased the cAMP production by factors of 1.3 and 3.3 at concentrations of 10(-8) M and 10(-7) M, respectively. This stimulatory effect of vasotocin was blunted by the addition of alpha 2-adrenergic agonists, such as 10(-8) M-10(-5) M norepinephrine, in the presence of 10(-5) M propranolol, or 10(-5) M clonidine. Prostaglandin E2 at a concentration of 10(-8) M, which did not affect the cAMP production, did not modify the response to vasotocin. Glucagon (10(-6) M), calcitonin (10(-6) M), and parathyroid hormone (10 units/ml) did not affect the cAMP content. Prostaglandin E2 (10(-7) M) and the beta-adrenergic agonist isoproterenol (10(-6) M) stimulated the cAMP production by a factor of 1.6. These results indicate that the frog semicircular canal is a target of both vasotocin and catecholamines and that catecholamines through alpha 2-receptors modulate vasotocin-induced cAMP generation. Further, this interaction might be of physiological relevance in the modulation of ion transport in this structure.
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PMID:Antidiuretic hormone stimulation of adenylate cyclase in semicircular canal epithelium. 167 38

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