Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Total and Na+, K+-ATPase activities have been measured in sections (10 micron thick) from blocks of rat kidney cultured for 5 h at 37 degrees C, pH 7.5, in Glasgow Eagle's Minimum Essential Medium. Synthetic [arginine]vasopressin [( Arg]VP) stimulated ATPase activity in the thick tubular cells of the renal outer medulla over the concentration range 0.01-10 fmol/l, but failed to affect ATPase activity in the proximal and distal convoluted tubules of the cortex. The increase in medullary total ATPase activity induced by [Arg]VP and its analogues was wholly due to stimulation of Na+, K+-ATPase activity. Stimulation of medullary ATPase activity was blocked by [Arg]VP antiserum. The [Arg]VP analogues desmopressin, [lysine]vasopressin, [arginine]vasotocin and oxytocin stimulated medullary Na+, K+-ATPase activity, the three last-named analogues being considerably less potent than [Arg]VP.
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PMID:The stimulation of Na+, K+-ATPase activity in the medulla of the rat kidney by [arginine] vasopressin and its analogues. 632 92

An organ culture system of a male guinea pig hypothalamo-neurohypophyseal complex (HNC) was established. On day 5 in culture, (Na+ -K+) ATPase activity was 0.83 +/- 0.11 mM Pi/mg prot/hr (mean +/- SEM): that is 67% of that on day 1 in culture. 3H-thymidine incorporated into DNA in the explants of HNC was 1,205 +/- 185 cpm/microgram DNA. The explants responded to the elevated KCl medium and the hypertonic solution of sodium chloride with a 470 +/- 38% and 298 +/- 31% increase in arginine vasopression (AVP) release, respectively. This response was inhibited by the addition of tetrodotoxin to the culture medium. AVP release from the explants in res-onse to angiotensin II increased significantly in a dose dependent manner. [Sar1, Ile8] angiotensin II, however, attenuated the response of the explants to angiotensin II when administered simultaneously with angiotensin II. These results suggest that angiotensin II and its analogue cause the AVP release from the explants in a competitive manner. The concentrations of AVP in the culture media made hypertonic with sodium chloride, sucrose and mannitol were 298 +/- 31% (p less than 0.01), 251 +/- 36% (p less than 0.01) and 255 +/- 59% (p less than 0.05) of their control values, respectively. The hypertonic solutions of sodium chloride, sucrose and mannitol caused AVP release from the explants in vitro, while the hypertonic solutions of glucose and urea were revealed to be poor osmotic stimuli on AVP release. These results support the concept of osmoreceptors to release AVP from the hypothalamo-neurohypophyseal axis.
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PMID:[Osmotic pressure and angiotensin II stimulation of arginine vasopressin release from a guinea pig hypothalamo-neurohypophyseal complex in organ culture (author's transl)]. 644 94

A new method of measuring vasopressin activity is described. It depends on the finding that the Na+-K+-ATPase activity, measured cytochemically, in the thick ascending limb of the loop of Henle in rat renal tissue maintained in vitro, responded to increasing concentrations of synthetic arginine vasopressin in a log-dose related fashion. The limit of sensitivity was 0.002 pg/ml (2 x 10(-15) mol/l). The dose-responses were reproducible; the inter-assay coefficient of variation was 6.4% at a vasopressin concentration of 0.02 pg/ml. Normal plasma stimulated this Na+-K+-ATPase activity, the stimulation being reduced by 98% when the plasma had been treated with an antiserum specific for vasopressin. Measured in this system, the circulating levels of plasma vasopressin, in healthy adults after 18h dehydration, was 4.0 +/- 0.3 pg/ml (mean +/- SEM; n = 4) and fell to 0.6 +/- 0.1 pg/ml following a water load. Absolute plasma vasopressin values obtained by the cytochemical bioassay were comparable to those measured by radioimmunoassay (r = +0.97, p less than 0.001).
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PMID:A cytochemical bioassay for arginine vasopressin: preliminary studies. 645 47

The effect of vanadate, a potent inhibitor of Na-K-ATPase, on the hydroosmotic response to vasopressin (AVP) and transepithelial voltage (Vt) in cortical collecting tubules was examined. At 37 degrees C, exposure of collecting tubules to bath vanadate (10(-4) M) for 30 min inhibited the increase in hydraulic water permeability (Lp) in response to AVP or 8-bromo-cyclic adenosine monophosphate by 68 and 76%, respectively. When vanadate was present only in the lumen no inhibition of the AVP response was observed. Incubation of tubules with ouabain (10(-5) M) for 30 min inhibited the AVP-induced increase in Lp to the same extent as vanadate. At 25 degrees C, vanadate inhibited the increase in Lp by AVP if added before but not after the hormone. Addition of vanadate to the bath caused a rapid decrease in the lumen-negative Vt that is consistent with Na-K-ATPase inhibition. Luminal vanadate also inhibited Vt but the rate of decrease of Vt was much slower than in the presence of bath vanadate. We conclude that vanadate inhibits the development but not the maintenance of the AVP-induced increase in water permeability in the collecting tubule. Since the effect of ouabain was similar to that of vanadate, the results suggest that inhibition of Na-K-ATPase directly or indirectly interferes with the initiation of the AVP-induced increase in luminal membrane water permeability at a site distal to cAMP formation.
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PMID:Inhibition of vasopressin action by vanadate in the cortical collecting tubule. 655 36

The application of cell culture techniques to the study of epithelial transport function is illustrated by the renal-derived MDCK system. MDCK cells display a typical epithelial morphology with an asymmetric localisation of the (Na+-K+)-ATPase to the lateral interspace membranes. Transepithelial ion transport is observed (using cell monolayers grown on permeable millipore filters clamped into standard Ussing chambers) which is sensitive to hormonal stimulation by adrenaline, exogenous ATP, PGE1, vasopressin and aldosterone. The development of epithelial characteristics in culture is discussed.
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PMID:Cultured monolayers of MDCK cells: a novel model system for the study of epithelial development and function. 675 30

In the isolated urinary bladder of the toad, 10(-5)-10(-4)M orthovanadate produces inhibition of the active transport of Na+ and H+ ions as well as of antidiuretic hormone-mediated osmotic flow of water. Since transport of H+ ions and osmotic water flow are not inhibited when (Na+ + K+)-ATPase is inhibited by ouabain, biological actions of vanadate are not necessarily related to inhibition of (Na+ + K+)-ATPase.
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PMID:Vanadate: non-selective inhibition of transepithelial transport of Na+, H+ and water. 677 87

We assessed the effects of antidiuretic hormone and cyclic adenosine monophosphate (cAMP) analogues on transepithelial voltage, Ve, and/or net chloride absorption in isolated mouse medullary (mTALH) and cortical (cTALH) thick ascending limbs of Henle; the passive NaCl permeability characteristics and electrical properties of the mTALH; and the effects of anion and cation substitutions and transport inhibitors on both basal and ADH-stimulated Ve and/or net chloride absorption in the mTALH. The data demonstrate that these two segments are functionally heterogeneous: ADH, at concentrations comparable to plasma levels seen in mammalian species during ordinary antidiuresis, and/or cAMP increase three- to fourfold the rate of NaCl absorption in the mTALH but not in the cTALH. The ion substitution and inhibitor data are consistent with the view that NaCl absorption in the mTALH depends on a secondary active transport process: NaCl entry across luminal membranes is a coupled process of indeterminate stoichiometry that is driven by the transmembrane electrochemical gradient for Na+, which is maintained by Na+-K+-ATPase. Finally, the data demonstrate that the mTALH is electrically leaky whether measured electrically, 11 omega . cm2, or isotopically, 50 omega . cm2, but essentially water impermeable; and that the mTALH is perm-selective for Na+ with respect to Cl-. The disparity between electrical resistances measured directly with respect to those calculated from tracer fluxes, together with the hybrid characteristics of mTALH junctional complexes (leaky to Na+ and Cl-; tight to water), may be reconciled by assuming that mTALH junctional complexes contain passive ion permeation pathways composed of narrow channels through which ions pass in single-file fashion.
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PMID:NaCl transport in mouse medullary thick ascending limbs. I. Functional nephron heterogeneity and ADH-stimulated NaCl cotransport. 731 65

Wa have previously reported that insulin accelerates recovery of intracellular Ca2+ concentrations ([Ca2+]i) from pressor agonist-induced Ca2+ loads and stimulates both plasmalemmal and sarcoplasmic-reticulum Ca(2+)-ATPase gene expression in cultured and freshly isolated vascular smooth-muscle cells (VSMCs), suggesting that insulin attenuation of vascular tone may result from modulation of [Ca2+]i. Accordingly, we have now evaluated the linkage between this insulin-regulation of VSMC[Ca2+]i and classical actions of insulin (i.e. glucose transport and metabolism). Cultured VSMCs were incubated in the presence or absence of insulin in a medium containing either pyruvate, glucose, 3-O-methylglucose or 2-deoxyglycose. Insulin caused an 87% increase in [Ca2+]i recovery rate after stimulation with arginine-vasopressin (P < 0.01) and caused a marked increase in Ca(2+)-ATPase mRNA and protein levels in the presence of glucose. Comparable increases in both [Ca2+]i recovery and Ca2(+)-ATPase expression were found when glucose was replaced by 2-deoxyglucose. In contrast, no stimulation was found in either the glucose-free or 3-O-methylglucose-containing medium. As both glucose analogues are transported, but only 2-deoxyglucose is phosphorylated, this indicates that glucose transport and metabolism to glucose 6-phosphate is essential for insulin regulation of VSMC [Ca2+]i, possibly via a glucose-6-phosphate-dependent carbohydrate-response element in the Ca2(+)-ATPase gene.
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PMID:Insulin stimulation of intracellular free Ca2+ recovery and Ca(2+)-ATPase gene expression in cultured vascular smooth-muscle cells: role of glucose 6-phosphate. 748 95

Cells can rapidly and reversibly alter solute transport rates by changing the kinetics of transport proteins resident within the plasma membrane. Most notably, this can be brought about by reversible phosphorylation of the transporter. An additional mechanism for acute regulation of plasma membrane transport rates is by the regulated exocytic insertion of transport proteins from intracellular vesicles into the plasma membrane and their subsequent regulated endocytic retrieval. Over the past few years, the number of transporters undergoing this regulated trafficking has increased dramatically, such that what was once an interesting translocation of a few transporters has now become a widespread modality for regulating plasma membrane solute permeabilities. The aim of this article is to review the models proposed for the regulated trafficking of transport proteins and what lines of evidence should be obtained to document regulated exocytic insertion and endocytic retrieval of transport proteins. We highlight four transporters, the insulin-responsive glucose transporter, the antidiuretic hormone-responsive water channel, the urinary bladder H(+)-ATPase, and the cystic fibrosis transmembrane conductance regulator Cl- channel, and discuss the various approaches taken to document their regulated trafficking. Finally, we discuss areas of uncertainty that remain to be investigated concerning the molecular mechanisms involved in regulating the trafficking of proteins.
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PMID:Role of membrane trafficking in plasma membrane solute transport. 751 93

Agonists which stimulate the inositol 1,4,5 trisphosphate ([1,4,5]-IP3)-dependent mobilization of Ca2+ from intracellular stores also stimulate entry of divalent cations across the cell membrane. Under appropriate experimental conditions, divalent cation entry across the cell membrane can be monitored as the rate at which the intracellular fluorescence of divalent cation indicators is quenched by the addition of Mn2+ to the extracellular medium. We report that addition of vasopressin to fura-2-loaded glomerular mesangial cells in culture markedly accelerated the rate at which Mn2+ quenched fura-2 fluorescence at its Ca(2+)-insensitive wavelength in the presence of extracellular NaCl, but that this quench response was attenuated when Cl- was removed from the extracellular medium by equimolar substitution with impermeant anions (gluconate, methanesulfonate, acetate, lactate). Similarly, loss of agonist-induced quench also occurred when Cl- was substituted with gluconate in K(+)-containing media. Addition of the Cl- channel inhibitor, 5-nitro-2-(3-phenylpropylaminobenzoic acid) (NPPB), also inhibited Mn(2+)-induced quench of fura-2 fluorescence following vasopressin addition. In contrast, in the presence of gramicidin to provide an alternate conductance pathway to accompany divalent cation entry, agonist-dependent Mn2+ quench occurred even in the absence of extracellular Cl-, indicating that the requirement for Cl- was not the result of cotransport on a common transporter nor the result of Cl- serving as a necessary cofactor for divalent cation entry. A similar dependence on extracellular Cl- was observed for other Ca(2+)-mobilizing agonists such as endothelin, as well as the intracellular Ca2+ ATPase inhibitor, thapsigargin. Extracellular Cl- dependence for agonist-induced divalent cation entry was also reflected in a corresponding extracellular Cl- dependence for agonist-induced mesangial cell contraction. It has been previously shown by ourselves (Kremer et al., 1992a, Am. J. Physiol., 262:F668-F678) and others that agonist-stimulated calcium mobilization in mesangial cells is accompanied by inhibition of K+ conductance and increased Cl- conductance. Accordingly, we conclude that the current findings suggest that activation of Cl- conductance provides regulated charge compensation for receptor-mediated divalent cation entry in response to Ca(2+)-mobilizing vasoconstrictor agonists in mesangial cells.
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PMID:Chloride is required for receptor-mediated divalent cation entry in mesangial cells. 752 36


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