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)

Arginine (AVP) and lysine vasopressin induce a weak but statistically significant increase in the water permeability of Amoeba proteus plasmalemma. Vasotocin and deaminovasopressin, which share the hydroosmotic properties of AVP on classical vertebrate systems, are without effects on Amoeba while SKF 101926, a synthetic AVP antagonist, is even more effective than the parent compound. Theophyllin and dibutyryl-cAMP do not affect AVP action on Amoeba. Lithium, oxytocin, and carbachol are also without effect. Thus, it is unlikely that either V2 (cAMP) or V1 (phosphatidylinositol choline) receptors are involved. A clear correlation has been found between the amphiphilic character of tested peptides and their effect on Amoeba water permeability. Classical amphiphilic peptides, melittin, mastoparan, and fragment 1-8 of alpha-neoendorphin, also increased water permeability in Amoeba. It is known that vasopressin can interact with artificial lipid membranes, increasing their permeability to water. We propose that amphiphilic members of the AVP family interact directly with the lipid phase of the Amoeba membrane. Their incorporation within the lipid bilayer may cause local disruptions or may create micellar water channels as shown for other amphiphilic proteins. Our observations provide a model for the early evolution of peptide hormone systems, preceding the appearance of specific membrane receptors and associated second messenger amplifying mechanisms.
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PMID:The amphiphilic action of vasopressin and analogues on the plasma membrane of Amoeba proteus. 214 31

Lithium therapy is known to reduce the renal responsiveness to arginine vasopressin (AVP: the antidiuretic hormone in man) and a proportion of treated patients develop polyuria and polydipsia. In this study seven nonpolyuric female patients receiving lithium treatment for an affective disorder (lithium group) were age-matched with seven healthy females (control group). The mean response of plasma AVP to osmotic stimulation was significantly enhanced in the lithium group but the mean osmotic threshold for AVP release was unchanged. Thirst appreciation in the lithium group commenced and increased overall at an osmotic stimulus 5 mmol/kg less than the control group. It is suggested that primary thirst does play a role in the expression of lithium-induced polyuria.
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PMID:The effect of lithium therapy on arginine vasopressin secretion and thirst in man. 237 37

Lithium salts are widely used agents for the prophylactic treatment of affective disorders. Lithium salts may be associated with distal nephron dysfunction. Kallikrein is a protease which is generated by the distal nephron. We used an amidolytic assay of chromatographically purified enzyme to determine the urinary excretion rate of active kallikrein in relation to lithium treatment. All plasma lithium concentrations were within the therapeutic range (0.4 to 0.9 mmol/liter). In 15 patients the urinary excretion rate of active kallikrein was 267.4 +/- 65.6 mU/24 hrs before lithium treatment, and fell to 117.8 +/- 39.6 mU/24 hrs (P less than 0.05) on day 14 of lithium treatment. This reduction was associated with a decrease of immunoreactive kallikrein in the same urines by 66%. In another 15 patients who had undergone lithium therapy for an average period of 5.6 years, the urinary excretion rate of active kallikrein was 86.1 +/- 14.5 mU/24 hrs, while 21 age-matched healthy controls had an excretion rate of 364.1 +/- 58.4 mU/24 hrs (P less than 0.05). Measurements of immunoreactive kallikrein in the same urine samples demonstrated a reduction of kallikrein after long-term lithium treatment by 78%. These observations could not be attributed to changes in creatinine clearance, renal sodium or potassium excretion rates or plasma concentrations of aldosterone and vasopressin. Addition of lithium to the urine in vitro had no demonstrable effect on kallikrein measurement by amidolytic assay. We conclude that lithium in therapeutic plasma concentrations may directly suppress the secretion of kallikrein by renal connecting tubule cells.
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PMID:Lithium treatment reduces the renal kallikrein excretion rate. 238 81

Lithium transport across the urinary bladder of Bufo marinus has been studied by means of the short-circuit current technique, as well as unidirectional ion flux measurements. Exposure to lithium of the epithelial (mucosal) surface of this preparation led to a slow, progressive decrease of ion transport, with increasing discrepancy between short-circuit current and lithium influx; in fact there was still an appreciable lithium influx across bladder exposed to amiloride even though short-circuit current was suppressed. Ohmic conductance and sodium efflux barely increased under these circumstances. Upon replacement of lithium by sodium on the epithelial side, the preparations recovered slowly indeed, and residual lithium could be detected in bladder tissue for more than 2 hr while the rate of sodium extrusion at the basal-lateral cell border was slowed down. Recovery from exposure to lithium was accelerated by vasopressin and amphotericin, both of which facilitate sodium entry at the apical border of the epithelium. Thus the lasting deleterious influence of lithium on sodium transport might result from the fact that this ion, once trapped in the cytoplasm, closes the sodium channels.
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PMID:Mechanism of inhibition by lithium of sodium transport in the toad bladder. 242 68

Estimations of proximal tubule sodium reabsorption with the FELi method come closer to direct measurements than any other indirect method. There is little doubt that most lithium reabsorption takes place in the proximal tubules, very likely in proportion to the reabsorption of sodium and water. It is also likely that changes in proximal tubule sodium reabsorption due to changes in volume status are paralleled by changes in proximal tubule lithium reabsorption, at least in the superficial nephrons. Nonetheless, changes in FELi probably do not purely reflect changes in proximal reabsorption, since lithium is also handled beyond the proximal tubules. Acknowledged problems are lithium reabsorption in Henle's loop and in the late distal and collecting tubules. The latter occurs in the rat and the dog, but not or much less in men. Sodium restriction enhances this lithium transport considerably. It is as yet uncertain whether other conditions, such as increased vasopressin activity or lowering of renal perfusion pressure, also influence this transport. Amiloride appears to prevent this reabsorption of lithium. Therefore, this drug can be used in lithium clearance studies whenever unwanted "distal" lithium reabsorption is expected. Lithium reabsorption in Henle's loop forms a greater problem as it cannot be prevented by any drug without influencing proximal tubule reabsorption. It is estimated that about 7% of the filtered lithium (one-tenth of total lithium reabsorption) is normally taken up here, preferentially in deep nephrons. In view of studies with furosemide, this reabsorption probably varies with sodium intake, but the proportion of this variation to that of proximal tubule lithium reabsorption is obscure. This remains an uncertain factor in any circumstance where the lithium clearance method is used. In some conditions the change in FELi may be so large relative to the expected changes in proximal reabsorption, that use of FELi as marker of end-proximal solute delivery seems unjustified. Disproportionately large suppression is likely during mineralo-corticoid-induced volume expansion, and stimulation during prostaglandin synthesis inhibition and vasopressin. Based on observations in these conditions the potential range of lithium reabsorption in the loop of Henle would be 0 to 15% of filtered load. In this review attention was paid mainly to the validity of lithium clearance as a pure "proximal marker". Many of our interpretations suffer from incomplete certainty with respect to the renal effects of tested maneuvers, a problem which is acknowledged.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Evaluation of lithium clearance as a marker of proximal tubule sodium handling. 268 25

The effect of lithium on the hypothalamo-pituitary-adrenal axis was studied in vivo and in vitro. The levels of plasma vasopressin, ACTH and corticosterone increased after the administration of lithium (LiCl 4 mmol/kg BW, 11 days) in rats, while the tissue vasopressin concentration in the median eminence, the rest of the hypothalamus and the posterior pituitary was decreased. The CRF concentration in the posterior pituitary increased markedly, but it did not change significantly in the median eminence or the rest of the hypothalamus. The elevated plasma ACTH level might be at least partly due to the increased vasopression secretion. Lithium stimulated ACTH secretion per se and also enhanced vasopressin-induced ACTH secretion in cultured pituitary cells and in half pituitary incubations, while it did not affect CRF-induced ACTH secretion. Lithium inhibited CRF-induced cAMP accumulation in half pituitary incubations, while lithium and vasopressin did not affect cAMP accumulation per se or even when administered together. The results suggest that lithium-induced ACTH release is via a cAMP-independent mechanism. Thus, it is possible that lithium stimulates ACTH release by acting directly on the corticotroph, stimulating vasopressin release and potentiating vasopressin-induced ACTH release.
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PMID:Effects of lithium on the hypothalamo-pituitary-adrenal axis. 285 38

The preferred average conformation and structural subdomain interactions of the nonapeptide hormones vasopressin and ocytocin have been analyzed through the determination of their hydrodynamic volume and the thermal coefficient of the frictional resistance to rotation of their tyrosine residue. A spherical gross shape and an ellipsoidal gross shape were assessed respectively for ocytocin and vasopressin by fluorescence polarization analysis. Investigation of the thermal coefficient of viscosity and the critical temperature of both hormones and analogues indicated that strong interactions hold together the two structural subdomains of ocytocin (the flexible six-membered ring and the COOH-terminal tripeptide tail). An opposite situation was found in the case of vasopressin where such interactions could not be detected between the rigid ring and the flexible COOH-terminal tail. Lithium ions were shown to promote ocytocin binding to specific neurophysin sites restricted, under standard conditions, to vasopressin. In the presence of lithium, the gross conformational shape of ocytocin becomes similar to that of vasopressin but in the absence of salt. In addition, the ocytocin ring becomes more rigid in the presence of lithium while decreasing interactions between the ring and the COOH-terminal tail were detected. It is proposed that lithium ions induce specific conformational rearrangements of ocytocin toward a vasopressin-like structure, allowing recognition of this hormonal ligand by a specific vasopressin binding domain of neurophysins.
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PMID:Salt-dependent structural changes of neurohormones: lithium ions induce conformational rearrangements of ocytocin to a vasopressin-like structure. 299 81

Lithium treated rats become polyuric and at the same time develop pronounced dilatations of distal tubular segments and characteristics enzyme histochemical changes. In the present study we have compared lithium-polyuric Wistar rats with lithium treated rats in which the polyuria was prevented either by administration of a vasopressin analogue or by water restriction. The kidneys were studied using enzyme histochemistry and light microscope morphometry. The characteristic lithium induced changes were present in all groups irrespective of the presence or absence of polyuria. It is concluded therefore, that the morphological and enzyme histochemical changes are induced by the lithium ion per se and not by the accompanying polyuria.
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PMID:Lithium-induced morphological changes in the rat kidney at different levels of urine flow. 318 16

In order to clarify the effect of piretanide in the nephrons, pharmacokinetics and pharmacodynamics of piretanide were studied under a hydropenic condition in the rabbit. The hydropenic condition was developed by a simultaneous infusion of an antidiuretic hormone and hyperosmotic saline. Lithium was used as the indicator of the proximal sodium reabsorption. Plasma concentrations and urinary excretion rates of piretanide were not influenced by the hydration state of the body. The glomerular filtration rate (GFR) showed a long lasting decrease after piretanide administration; however, the urinary excretion rates of salts and water were increased prominently just after administration. The lithium clearance ratio, which was obtained by dividing the lithium renal clearance by GFR, indicated that piretanide inhibited the proximal reabsorption of sodium. The urine osmolarity after piretanide administration showed a significant decrease, and this indicated that the osmolarity of the renal medulla was also influenced by piretanide. From these observations, a model describing the transport of water and osmotic substances in the nephrons was constructed to calculate the effect of piretanide. The results indicated that the diuretic effect of piretanide in the hydropenic rabbit was reasonably described by the model. The model parameters obtained suggested that the site of action of piretanide in the proximal tubules might be in the peritubular side rather than inside the lumen, whereas the site of action in the loop of Henle might be inside the lumen.
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PMID:Pharmacokinetic and pharmacodynamic studies of piretanide in rabbits. II: Effects on the proximal tubules and the loop of Henle. 337 69

Human platelets were prelabeled with [3H] inositol and exposed to thrombin or vasopressin. The radioactive inositol monophosphates were separated by high-performance liquid chromatography and identified by cochromatography with unlabeled standard substances. Radioactive inositol 1-monophosphate (Ins 1-P) and inositol 4-monophosphate (Ins 4-P) were detected in unstimulated platelets and accumulated in response to thrombin or vasopressin. Ins 4-P as well as Ins 1-P increased after the formation of inositol 1,4-bisphosphate (Ins 1,4-P2) and inositol 1,4,5-trisphosphate (Ins 1,4,5-P3). Lithium augmented the accumulation of Ins 1-P and Ins 1,4-P2 in stimulated platelets, and also of Ins 4-P in platelets stimulated by vasopressin, but not by thrombin. The results indicate that Ins 1,4-P2 formed in stimulated platelets is partly degraded to Ins 4-P. The significance of Ins 4-P as a marker molecule for the study of inositol phosphate metabolism in stimulated cells is discussed.
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PMID:Evidence for the formation of inositol 4-monophosphate in stimulated human platelets. 399 93

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