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Query: UNIPROT:P01185 (
vasopressin
)
23,126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The transepithelial flux of chloride was increased by aldosterone treatment of amphibian skin and bladder and this was reflected by increased "shunt" conductance. The hormonal effect depended on the presence of chloride on the epithelial side of the preparation. These changes in tissue conductance and chloride permeability appear to be a direct effect of aldosterone as they did not occur when sodium transport was stimulated with
vasopressin
or hypotonicity. Chloride efflux was reduced in magnitude by indacrinone and
DIDS
, as well as after removal of chloride from the solution on the epithelial side of the preparations. These results suggest that, rather than merely diffusing along (a) paracellular pathway(s), chloride flows through (a) cellular structure(s), notably mitochondria-rich cells. These cells can therefore be considered as targets for aldosterone.
...
PMID:Increased chloride permeability of amphibian epithelia treated with aldosterone. 243 71
Acidification of the medium bathing the serosal surface of the toad urinary bladder results in impairment of the water permeability response to
vasopressin
. The magnitude of the hydrosmotic response to a maximal concentration of either
vasopressin
or the cyclic nucleotide analogue 8-(p-chlorophenylthio)-cyclic 3',5'-adenosine monophosphate (C1PhS-cAMP) was progressively reduced when serosal bath pH was decreased from 8.5 to 6.5. The disulfonic stilbenes SITS and
DIDS
and the diuretic furosemide, agents known to interfere with anion transport and with the regulation of intracellular pH in other tissues, inhibited the water flow response to
vasopressin
and C1PhS-cAMP in a pH-dependent manner when added to the serosal bathing medium. Inhibition of the hydrosmotic response to 10(-5) M C1PhS-cAMP was estimated to be half-maximal at 1.5 X 10(-4) M SITS, 2 X 10(-5) M
DIDS
, and 1 X 10(-5) M furosemide. The degree of inhibition induced by the anion transport inhibitors varied inversely with the concentration of exogenous cyclic nucleotide. SITS,
DIDS
, and furosemide had no effect on either basal or
vasopressin
-stimulated short-circuit current at serosal pH 8.5; all three agents inhibited basal short-circuit current at pH 7.1 but had no effect on the natriferic response to
vasopressin
. These results are consistent with the view that changes in intracellular hydrogen ion and/or anion concentration can selectively inhibit the increase in water permeability elicited by
vasopressin
at a step(s) distal to the generation of cAMP.
...
PMID:Anion transport inhibitors: effects on water and sodium transport in the toad urinary bladder. 298 47
The hormonal control of Cl transport was examined in rabbit cortical collecting tubules using the lumen-to-bath 36Cl tracer rate coefficient (KCl, nm/s). Tracer movement via Cl-HCO3 exchange was minimized by using HCO3-CO2-free solutions. The electrical driving force was minimized by treating with amiloride. Under these conditions, net Cl transport was zero, yet there was a large KCl that fell 88% on removing bath (trans) Cl. These results are consistent with the mechanism of tracer flux being predominantly Cl self exchange. KCl fell spontaneously with time in vitro; after this decline KCl could be stimulated with 8-bromo-cAMP. cAMP present from the onset of perfusion prevented the time-dependent fall in KCl. When tracer movement was restricted to diffusion by eliminating Cl self exchange (0 Cl bath), cAMP had no effect on KCl. Although both isoproterenol and
vasopressin
are known to stimulate adenylate cyclase in this epithelium, only isoproterenol mimicked the cAMP effect on KCl. The isoproterenol effect was blocked by either propranolol or prostaglandin E2. Lumen addition of the disulfonic stilbene
DIDS
had no effect on KCl. Lumen addition of furosemide or trichloromethiazide had minimal or no effect. Taken together, these results indicate that Cl self exchange is regulated by beta-adrenergic agents acting via cAMP. The lack of an effect of
vasopressin
suggests cellular heterogeneity in this response to cAMP.
...
PMID:Regulation of chloride self exchange by cAMP in cortical collecting tubule. 301 99
Cicletanine sulfate was tested on bicarbonate-dependent pHi changes in cultured vascular smooth muscle (A10 line). Cicletanine sulfate exhibited double reactivity with regard to the cell alkalinization induced by bicarbonate uptake. The analysis of 11 concentration-response curves revealed a high reactivity component (IC50 approximately 3.5 x 10(-8) mol/L) and a weak reactivity component (IC50 approximately 4 x 10(-4) ml/L). Regarding the cell acidification induced by bicarbonate extrusion, cicletanine sulfate exhibited a single high reactivity component (IC50 = 5.9 +/- 2.9 x 10(-7) mol/l; mean +/- SD, n = 7). The high and weak reactivity sites were both sensitive to
DIDS
. Analysis of the data strongly suggested that the highly reactive site corresponds to a sodium-independent (Cl-/HCO3-] exchanger, which catalyzes net bicarbonate efflux, and the weak-reactivity site corresponds to the inwardly directed sodium-dependent [Cl-/HCO3-] exchanger. Three cell growth factors--epidermal growth factor,
arginine-vasopressin
, and insulin--were able to stimulate the sodium-independent [Cl-/HCO3-] exchanger in A10 cells. Finally, cicletanine sulfate (30 mumol/L) partially inhibited serum-dependent A10 cell growth. In conclusion, cicletanine sulfate and cell growth factors exert opposite effects (inhibition and stimulation, respectively) on the sodium-independent [Cl-/HCO3-] exchanger in cultured vascular smooth muscle. The effect of cicletanine sulfate on the sodium-independent [Cl-/HCO3-] exchanger may account for the ability of cicletanine to favorably alter vascular pathology in spontaneously hypertensive rat (SHR) models.
...
PMID:Opposite effects of cell growth factors and cicletanine sulfate on the sodium-independent [Cl-/HCO3-] exchange in cultured vascular smooth muscle. 821 30
The diuretic drug xipamide improves myocardial relaxation in hypertensive patients with left ventricular hypertrophy, but its mechanism of action is unknown. Here, xipamide was tested in cultured rat heart myogenic H9c2 cells and newborn cardiomyocytes for its effects on cell acidification (and Ca2+ mobilization). In H9c2 cells, blocking Na+/H+ exchange with amiloride (2 mM) provoked cell acidification with rate = 0.82 +/- 0.17 pH units/h (n = 6). Xipamide 1 microM maximally inhibited 50 +/- 7% (n = 9) of cell acidification. The action of xipamide required the presence of HCO3- and was antagonized by the HCO3(-)-transport blocker
DIDS
(4,4'-diisothiocyanostilbene-2.2'-disulfonic acid). Conversely, the carbonic anhydrase (EC 4.2.1.1) inhibitor acetazolamide failed to prevent xipamide action. Finally, xipamide was without significant effect on the Ca2+ signals induced by endothelin-1,
vasopressin
or the Ca2+ ionophore ionomycin. In newborn rat cardiomyocytes, xipamide reduced amiloride-induced cell acidification at similar concentrations as in H9c2 cardiocytes, but with a slightly higher extent of maximal inhibition (70-80%). In conclusion, xipamide reduced amiloride-dependent cell acidification in the rat heart myogenic H9c2 cell line and in newborn rat cultured cardiomyocytes. This action of xipamide seems to be related to a complex interaction with
DIDS
-sensitive HCO3- movements. Prevention of cell acidification by xipamide could be involved in the beneficial effects of this compound in myocardial relaxation and left ventricle filling in hypertensive patients with left ventricular hypertrophy.
...
PMID:Inhibition by xipamide of amiloride-induced acidification in cultured rat cardiocytes. 914 85
1. Taurine, prominently concentrated in glial cells in the supraoptic nucleus (SON), is probably involved in the inhibition of SON
vasopressin
neurones by peripheral hypotonic stimulus, via activation of neuronal glycine receptors. We report here the properties and origin of the osmolarity-dependent release of preloaded [3H]taurine from isolated whole SO nuclei. 2. Hyposmotic medium induced a rapid, reversible and dose-dependent increase in taurine release. Release showed a high sensitivity to osmotic change, with a significant enhancement with less than a 5% decrease in osmolarity. Hyperosmotic stimulus decreased basal release. 3. Evoked release was independent of extracellular Ca2+ and Na+, and was blocked by the Cl- channel blockers
DIDS
(4,4'-diisothiocyanatostilbene-2,2'-disulphonic acid) and DPC (N-phenylanthranilic acid), suggesting a diffusion process through volume-sensitive Cl- channels. 4. Evoked release was transient for large osmotic reductions (> or = 15%), probably reflecting regulatory volume decrease (RVD). However, it was sustained for smaller changes, suggesting that taurine release induced by physiological variations in osmolarity is not linked to RVD. 5. Basal and evoked release were strongly inhibited by an incubation of the tissue with the glia-specific toxin fluorocitrate, but were unaffected by a neurotoxic-treatment with NMDA, demonstrating the glial origin of the release of taurine in the SON. 6. The high osmosensitivity of taurine release suggests an important role in the osmoregulation of the SON function. These results strengthen the notion of an implication of taurine and glial cells in the regulation of the whole-body fluid balance through the modulation of
vasopressin
release.
...
PMID:Properties and glial origin of osmotic-dependent release of taurine from the rat supraoptic nucleus. 951 5
Betaine, taurine, and inositol participate as osmolytes in liver cell volume homeostasis and interfere with cell function. In this study we investigated whether osmolytes are also released from the intact liver independent of osmolarity changes. In the perfused rat liver, phagocytosis of carbon particles led to a four- to fivefold stimulation of taurine efflux into the effluent perfusate above basal release rates. This taurine release was inhibited by 70-80% by the anion exchange inhibitor
DIDS
or by pretreatment of the rats with gadolinium chloride. Administration of
vasopressin
, cAMP, extracellular ATP, and glucagon also increased release of betaine and/or taurine, whereas insulin, extracellular UTP, and adenosine were without effect. In isolated liver cells, it was shown that parenchymal cells and sinusoidal endothelial cells, but not Kupffer cells and hepatic stellate cells, release osmolytes upon hormone stimulation. This may be caused by a lack of hormone receptor expression in these cells, because single-cell fluorescence measurements revealed an increase of intracellular calcium concentration in response to
vasopressin
and glucagon in parenchymal cells and sinusoidal endothelial cells but not in Kupffer cells and hepatic stellate cells. The data show that Kupffer cells release osmolytes during phagocytosis via
DIDS
-sensitive anion channels. This mechanism may be used to compensate for the increase in cell volume induced by the ingestion of phagocytosable material. The physiological significance of hormone-induced osmolyte release remains to be evaluated.
...
PMID:Release of osmolytes induced by phagocytosis and hormones in rat liver. 1066 46
The ductal epithelium of the semicircular canal forms much of the boundary between the K+-rich luminal fluid and the Na+-rich abluminal fluid. We sought to determine whether the net ion flux producing the apical-to-basal short-circuit current (I(sc)) in primary cultures was due to anion secretion and/or cation absorption and under control of receptor agonists. Net fluxes of 22Na, 86Rb, and 36Cl demonstrated a basal-to-apical Cl- secretion that was stimulated by isoproterenol. Isoproterenol and norepinephrine increased I(sc) with an EC50 of 3 and 15 nM, respectively, and isoproterenol increased tissue cAMP of native canals with an EC50 of 5 nM. Agonists for adenosine, histamine, and
vasopressin
receptors had no effect on I(sc). Isoproterenol stimulation of I(sc) and cAMP was inhibited by ICI-118551 (IC50 = 6 microM for I(sc)) but not by CGP-20712A (1 microM) in primary cultures, and similar results were found in native epithelium. I(sc) was partially inhibited by basolateral Ba2+ (IC50 = 0.27 mM) and ouabain, whereas responses to genistein, glibenclamide, and
DIDS
did not fully fit the profile for CFTR. Our findings show that the canal epithelium contributes to endolymph homeostasis by secretion of Cl- under beta 2 adrenergic control with cAMP as second messenger, a process that parallels the adrenergic control of K+ secretion by vestibular dark cells. The current work points to one possible etiology of endolymphatic hydrops in Meniere's disease and may provide a basis for intervention.
...
PMID:Chloride secretion by semicircular canal duct epithelium is stimulated via beta 2-adrenergic receptors. 1238 54
