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)

The NA-K-ATPase of toad skin was characteristically sensitive to Na, K, and ATP. It was not affected by amiloride, vasopressin, cAMP, and thyroxine, but stimulated by insulin. Ouabain, a potent inhibitor at 37 degrees C, did not inhibit the enzyme activity significantly at 23 degrees C. The optimal pH for the enzyme activity increased as temperature decreased. However, the optimal OH-/H+ ratio of the medium remained constant at 16 regardless of temperature. The Km for ATP remained unchanged between 37 and 8 degrees C if the OH-/H+ ratio was held constant at 16, but increased as temperature decreased if the pH of the medium was held constant at 7.4. The enzyme activity showed no appreciable variation between 37 and 20 degrees C with a constant OH-/H+ ratio of 16, whereas it decreased logarithmically at a constant pH of 7.4 over the same temperature range. These results indicate the presence of a typical Na-K-ATPase system in toad skin and that the enzyme is in the most active catalytic state at a fixed level of OH-/H+ ratio in the medium regardless of incubation temperature.
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PMID:Properties of toad skin Na-K-ATPase with special reference to effect of temperature. 1 98

Cyclic AMP accumulates in the Ringer solution bathing the toad urinary bladder in vitro. At least 4 times more cyclic AMP is released into the solution bathing the serosal surface than into the solution bathing the mucosal surface. Most of the cyclic AMP originates in the epithelial cells rather than the stroma. Vasopressin increased the content of cyclic AMP in the epithelial cells and increases the amount of cyclic AMP in the Ringer solution. Since there is not an increase in medium cyclic AMP when cell cyclic AMP levels are increased by theophylline, it is suggested that theophylline may reduce the permeability of the cell membrane to cyclic AMP. Finally, it is demonstrated that 10 mM NaF increase the amount of cyclic AMP in the epithelial cells and in the solution bathing the bladder, but block the effect of vasopressin on water permeability, presumably at a step subsequent to the formation of cyclic AMP.
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PMID:Release of cyclic AMP by toad urinary bladder. 16 96

It is well established that active sodium-ion transport and water flow across isolated toad bladder are increased by antidiuretic hormone (ADH) and by cAMP. These agents were also observed in previous studies to cause changes in the amount of radioactive phosphate in a specific protein in the toad bladder. This protein, found by SDS-polyacrylamide gel electrophoresis of toad bladder epithelial preparations, had an apparent molecular weight of 49,000 daltons. In the present study, a correlation was found between the ability of a variety of substances to affect the amount of radioactive phosphate in this 40,000-dalton protein and their ability to alter the rate of sodium transport. Thus several agents (ADH, cAMP, theophylline, adenine, prostaglandin E1, and Mn Cl-2) caused a decrease in the amount of radioactive phosphate in the 49,000-dalton protein and also stimulated active sodium transport across the bladder. Conversely, ZnCl-2 produced an increase in the amount of radioactive phosphate in this protein and an inhibition of sodium transport. With each of these agents, the time-course of change in phosphorylation of this protein was, in general, similar to that for sodium transport. A second phosphoprotein, with an apparent molecular weight of about 42,000 daltons, showed changes in parallel with, but less extensive than, those observed in the 49,000 dalton protein. There was no consistent relationship between changes in level of phosphorylation of either in the 49,000- or 42,000- dalton protein and changes in osmotic water permeability. The results are compatible with the possibility that regulation by ADH and by cAMP of sodium transport in the toad bladder epithelium may be mediated through regulation of the amount of phosphate in a specific protein.
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PMID:Regulation of protein phosphorylation and sodium transport in toad bladder. 16 89

We have shown previously that overhydration of toads renders their urinary bladders less responsive to the antidiuretic action of vasopressin (AVP). The present study investigates the relationship between osmotic swelling of vasopressin target cells and their sensitivity to AVP and dibutyryl cyclic adenosine monophosphate (db-cAMP). Conditions which engender osmotic swelling of toad bladder epithelial cells, such as immersing bladders on both surfaces in hypotonic Ringer's fluid or subjecting them to a net mucosal-to-serosal volume flux, markedly inhibited the effectiveness of db-cAMP in raising bladder permeability to water. This inhibitory phenomenon was seen both with serosal and mucosal applications of the nucleotide. Examination of isolated epithelial cells by phase contrast microscopy showed them to behave as osmometers, doubling their volume as the effective osmolality of the incubation medium was halved. AVP was found to increase the total content of cAMP about 3.5-fold both in the swollen and the normal cells, so that the actual concentration of cAMP may have diminished as the cell volume increased. Consistent with this suggestion was the observation that increasing exogenous db-cAMP abolished, in part, the inhibitory effects of hypotonicity. These observations indicate that homeostasis of body fluids in the toad depends in part upon the osmotic regulation of anti-diuretic homone action, and that intracellular cAMP may participate in coupling changes in cell volume to the altered state of responsiveness of the vasopressin target cell.
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PMID:Effect of hypotonicity on cyclic adenosine monophosphate formation and action in vasopressin target cells. 16 79

1. Angiotensin I, a decapeptide, stimulated the accumulation of cyclic 3',5'-AMP (cyclic AMP) and the release of vasopressin from incubated rat neurohypophyses. 2. Various octapeptides related to angiotensin II were capable of producing similar neurohypophyseal effects. 3. Longer incubation periods were needed with peptides having alterations or omission (e.g. heptapeptide 2-8) at position 1 of the parent molecule to evoke similar effects to those of angiotensin II. 4. Our results suggest strongly that physiological doses of angiotensin-related molecules stimulate the secretion of vasopressin through cyclic AMP, and that the neurohypophyseal receptor responsible for these effects is similar to that involved in their peripheral actions.
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PMID:Structural requirements for angiotensin analogues to accumulate cyclic AMP and release vasopressin from the incubated rat neurohypophysis. 16 24

Scanning electron-microscopy (SEM) was used to investigate the hydrosmotic effect of vasopressin on the apical surface of urinary bladders of toads Bufo marinus. Bladders were mounted on glass chambers and water fluxes were monitored with an optical method. Tissues were fixed in 2% glutaraldehyde and processed for SEM. Three types of cells were seen on the surface of control bladders:large polygonal (granular) cells, with blunt microvilli; smaller (mitochondria-rich) cells, with longer microvilli; goblet cells. Neither exposure of the bladders to a large osmotic gradient nor exposure to vasopressin in the absence of a gradient altered appreciably the epithelial surface. In contrast, the combination of vasopressin and an osmotic gradient resulted ina conspicuous diminution of the blunt microvilli. However, the small cells with longer microvilli remained unchanged. Identical results were seen with cAMP or theophylline in the presence of an osmotic gradient. These findings suggest that the hydrosmotic effect of vasopressin is mainly exerted on the granular cells of toad bladder and confirm observations made by others with the electron-microscope.
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PMID:The hydrosmotic effect of vasopressin: a scanning electrom-microscope study. 17 Apr 6

1. Sodium nitroprusside is a potent relaxant of smooth muscles with a predominantly tonic response, e.g. rat aorta contracted by noradrenaline, angiotensin II, Phe2-Lys8-vasopressin, BaC1(2), or KC1, and guinea-pig tracheal smooth muscle contracted by carbachol. 2. Smooth muscle preparations from the splanchnic region and with varying degrees of phasic contractility are less sensitive and develop tachyphylaxis (portal vein, duodenum of the rat) or are unresponsive to sodium nitroprusside (vas deferens, uterus of the rat). 3. Cardiac auricles of the guinea pig are not affected by sodium nitroprusside in either frequency or amplitude or spontaneous contractions. 4. Sdium nitroprusside causes a parallel shift of the dose-response curve of rat aorta to noradrenaline to the right and reduces the maximum response. 5. The drug has no blocking or stimulant effect on alpha- or beta-adrenoceptors, respectively. 6. Sodium nitroprusside inhibits the contractile response of calcium-depleted depolarized rat aorta to extra-cellular calcium. Like verapamil, it inhibits the increment in 45calcium uptake of rabbit aorta elicited by K+. Sodium nitroprusside significantly reduced 45calcium binding by microsomes prepared from rabbit aorta. 7. Rabbit aorta was incubated with lanthanum chloride to prevent calcium influx; sodium nitroprusside reduced the maintained rapid contraction phase in response to noradrenaline which is believed to be based on the intracellular activation of calcium. 8. In rat aorta, cellular cAMP and ATP levels were not found to be affected by the drug. 9. Rabbit aorta, "skinned" by glycerination is unresponsive to sdoium nitroprusside. 10. It is concluded that sodium nitropruside acts on exictation-contraction coupling predominantly in tonic smooth muscle by interfering with both the influx and the intracellular activation of calcium.
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PMID:Mode of action of sodium nitroprusside on vascular smooth muscle. 17 May 45

Transitional epithelium lining rabbit urinary bladders was isolated and studied in vitro. The homogeneity of the isolated epithelium was demonstrated by light and electron microscopical monitoring as well as cell culture studies. Transitional epithelium responded to epinephrine and prostaglandin E1 (PGE1) in the presence of 2mM 1-methyl, 3-isobutylxanthine (MIX) with increases in intracellular levels of cyclic adenosine 3':5'-monophosphate (cyclic AMP). Corticotropin, aldosterone, insulin, parathyroid hormone and vasopressin were slightly but significantly stimulatory under similar conditions. Glucagon and oxytocin were not stimulatory at the concentrations tested. The effects of epinephrine and PGE1 were potentiated by 2mM MIX 20-fold or greater. The cells were slightly more sensitive to PGE1 then to epinephrine. The prostaglandin produced a noticeable response at about 10nM, while effects of epinephrine were discernible at 0.1muM. Maximal responses to both effectors were seen at about 10muM. The action of 10muM epinephrine, but not 10muM PGE1, was completely abolished by 0.1mM propranolol. Responses to combinations of epinephrine and PGE1 were additive. Cyclic AMP accumulated in the incubation medium of transitional epithelial cells exposed to epinephrine, PGE1, MIX, or combinations of the agonists. The appearance of cyclic AMP in the medium was slow compared to the rate of intracellular accumulation, but reached significant levels following prolonged stimulation.
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PMID:The effects of hormones on cyclic adenosine 3':5'-monophosphate accumulation in transitional epithelium of the urinary bladder. 17 60

The acute effects of intraperitoneal lithium on the phosphaturic responses to parathyroid hormone (PTH) and pharmacologic doses of vasopressin were studied in rats. Lithium significantly inhibited the phosphaturic response to PTH at a dosage of 90 mug/kg/hr but did not affect the response to 30 mug/kg/hr. Conversely, lithium eliminated the phosphaturic response to vasopressin at a dosage of 300 mU/kg/hr but did not affect the response to dibutyryl adenosine 3', 5'-monophosphate (db-cAMP), 10 mg/kg/hr. Renal lithium content was increased substantially after the larger dose of PTH and was diminished slightly after db-cAMP and the larger dose of vasopressin. The latter two treatments also inhibited renal lithium reabsorption whereas the smaller dose of vasopressin and both dosages of PTH did not. These results indicate that lithium interferes with the phosphaturic responses to certain dosages of pth and vasopressin and suggest that renal lithium reabsorption and tissue lithium uptake may in part determine the extent of this cation-hormonal interaction. In addition, a competitive type of interaction between lithium and vasopressin is postulated.
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PMID:Selective lithium inhibition of hormonal phosphaturic responses. 17 56

1. Physiological concentrations of antidiuretic hormone increase diffusional water permeability but not measurable cyclic AMP content in the isolated papilla of the rat's kidney. 2. Theophylline (6 mM) increases diffusional water permeability and cyclic AMP content in the isolated papilla of the rat's kidney. 3. The increase in water permeability is detected with 5 muunits.ml-1 of ADH and is maximal with 50 muunits.ml-1. The same maximum was achieved with 6 mM theophylline. 4. Cyclic AMP and dibutyryl cyclic AMP both increase water permeability, but to a lesser extent than theophylline or ADH. 5. In the presence of theophylline, ADH causes a dose related generation of tissue cyclic AMP up to a dose of 2,000,000 muunits.ml-1. 6. Adenyl cyclase is increasingly activated by ADH up to doses of 2,000,000 muunits.ml-1. 7. These results suggest that while ADH activates the adenyl cyclase system and changes water permeability there are sufficient disparities to cast doubt on an exclusive role for cyclic AMP as the second messenger.
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PMID:The interrelationships between antidiuretic hormone, adenyl cyclase, tissue cyclic AMP and diffusional water permeability. 18 92


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