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)

The vasopressin precursor is composed of 3 domains in line, namely vasopressin, MSEL-neurophysin and a glycopeptide referred to as copeptin, which are separated during the processing. In guinea pig neurohypophysis, the precursor is partially processed so that a two-domain fragment, MSEL-neurophysin--copeptin, can be found along with free MSEL-neurophysin adn copeptin. Guinea pig copeptin has been sequenced. It is a glycopeptide composed of 38 amino acid residues rather than the 39 found in other mammalian copeptins. Compared with other copeptins, that from guinea pig shows a few substitutions and the deletion of one acidic residue, probably in position 32. This deletion might be responsible for incomplete cleavage by the trypsin-like processing enzyme.
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PMID:Guinea pig copeptin. The glycopeptide domain of the vasopressin precursor. 308 70

Neurohypophysial hormones and neurophysins are derived from common precursors processed during the axonal transport from the hypothalamus to the neurohypophysis. Two neurohormones, an oxytocin-like and a vasopressin-like, on one hand, two neurophysins, termed VLDV-and MSEL-neurophysins according to residues in positions 2, 3, 6 and 7, on the other, are usually found in vertebrate species. In contrast to placental mammals that have oxytocin and arginine vasopressin, marsupials have undergone a peculiar evolution. Two pressor peptides, lysipressin and vasopressin for American species, lysipressin and phenylpressin for Australian macropods, have been identified in individual glands and it is assumed that the primordial vasopressin gene has been duplicated in these lineages. On the other hand, the reptilian mesotocin is still present in Australian species instead of the mammalian oxytocin, while the North American opossum has both hormones and South American opossums have only oxytocin. The neurophysin domain of each precursor is encoded by 3 exons and different evolutionary rates have been found for the 3 corresponding parts of the protein. The central parts, encoded by the central exons, are evolutionarily very stable and nearly identical in the 2 neurophysins of a given species. Recurrent gene conversions have apparently linked the evolutions of the 2 precursor lineages. In mammals, the 3-domain precursor of vasopressin is processed in 2 stages: a first cleavage splitting off vasopressin and a second cleavage separating MSEL-neurophysin from copeptin. Two distinct enzymatic systems seem to be involved in these cleavages. Processing is usually complete at the level of the neurohypophysis, but an intermediate precursor encompassing MSEL -neurophysin and copeptin linked by an arginine residue has been characterized in guinea pig. In vitro processing of this intermediate through trypsin--Sepharose reveals cleavages only in the interdomain region. In non-mammalian tetrapods, such as birds and amphibians, mesotocin and vasotocin are associated with neurophysins in precursors similar to those found in mammals. However, processing of the vasotocin precursor seems to be different from the processing of the vasopressin precursor, with a single cleavage leading to the hormone release.
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PMID:Structure, processing and evolution of the neurohypophysial hormone-neurophysin precursors. 314 12

The observation that suckling evokes a modest rise in serum TSH when compared with that of prolactin is inconsistent with the hypothesis that TRH serves as a hypophysiotropic mediator of this response. In the present study we attempted to provide an explanation for this discrepancy by determining whether any of a growing number of putative prolactin releasing factors could alter pituitary responsiveness to TRH. Anterior pituitaries from lactating (day 14) rats were monodispersed with trypsin, cultured for 2 days, and then incubated in the presence of medium alone or medium containing TRH, dopamine, or a combination of these secretagogues. Companion sets of cultures were incubated concurrently with either beta-endorphin, neurotensin, oxytocin, serotonin, vasoactive intestinal polypeptide, or lysine vasopressin. As expected, TRH stimulated and dopamine suppressed prolactin release. None of the substances tested except oxytocin had a significant effect on pituitary cell responsiveness to TRH or dopamine. Oxytocin had no effect on prolactin secretion when tested alone or in combination with TRH and dopamine. TRH alone stimulated TSH release by these cultures, while oxytocin and dopamine were ineffective by themselves. However, TSH secretion by cultures treated simultaneously with TRH and oxytocin could be suppressed to approximately half of that released by cells incubated with TRH alone. These results demonstrate that oxytocin attenuates TRH-induced TSH release by a direct action on pituitary cells without affecting the prolactin response. This selectivity of responsiveness imparted by oxytocin might contribute to the blunted release of TSH after suckling.
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PMID:Oxytocin attenuates TRH-induced TSH release from rat pituitary cells. 315 75

The vasopressin precursor in the rat hypothalamus has been studied, using trypsin to release desglycinamide vasopressin and coupling it to glycinamide (T & G treatment). The resulting amidated nonapeptide was detected and measured with a radioimmunoassay for vasopressin. The "vasopressin" produced in this way had the full immunoreactivity of the authentic peptide but eluted from an hplc column 1 min earlier and appeared to have a larger molecular weight. It was found that T&G treatment generated vasopressin immunoreactivity in extracts of the supraoptic nucleus (SON) of the Brattleboro rat in just the same way as it did in normal animals. Furthermore, this procedure produced vasopressin immunoreactivity in those hplc fractions from Brattleboro SON extracts that corresponded with the elution time of vasopressin precursor. Similar amounts of "vasopressin" could be generated from Brattleboro and normal SONs. These results support the suggestion that the Brattleboro SON synthesizes an aberrant vasopressin precursor which is not processed by the cell.
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PMID:The vasopressin precursor in the Brattleboro (di/di) rat. 324 81

A 'big' frog (Rana esculenta) neurophysin, encompassing sequences homologous to mammalian MSEL-neurophysin and copeptin, has been passed through a trypsin-Sepharose column in order to compare its conformation with that of the two-domain intermediate precursor isolated from guinea pig. Whereas the polypeptide possesses 8 arginine residues, only two cleavages were observed located in a putative inter-domain sequence (at Arg-94 and Arg-114). Because free vasotocin has been isolated from the frog, it is assumed that pro-vasotocin has a three-domain conformation similar to that of pro-vasopressin but processing in amphibians involves only one step rather than two steps as in mammals.
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PMID:An amphibian two-domain 'big' neurophysin: conformational homology with the mammalian MSEL-neurophysin/copeptin intermediate precursor shown by trypsin-sepharose proteolysis. 325 54

We previously observed, using a relatively primitive assay, that small oral doses (on the order of 1 microgram = 1 nmol = 1000 pmol per rat) of vasopressin can produce antidiuresis in hydrated rats, and that the oral activity was enhanced by simultaneous administration of an inhibitor of intestinal proteolysis. A more sensitive semi-automated computer-linked apparatus was used to conveniently and quickly compare the antidiuretic activities of the two natural and one synthetic vasopressin peptides by several routes of administration. (The approximate dose in pmol that resulted in a 50% decrease in urine flow is indicated in square brackets.) Intravenous lysine vasopressin was used as the benchmark dose [5]. Arginine and lysine vasopressin [3500], and the synthetic analogue, 1-deamino-8-D-arginine vasopressin (DDAVP) [20], were active by oral administration. The oral activities of arginine and lysine vasopressin were always enhanced by the simultaneous administration of aprotinin [1000], a natural inhibitor of trypsin; the effect of aprotinin on the oral activity of DDAVP was inconsistent. The vasopressins were more active when administered by the rectum: arginine vasopressin [20] and DDAVP [10]. The rectal activities of the peptides were increased by the absorption adjuvant, 5-methoxysalicylate (arginine vasopressin [10]; DDAVP [0.5]). The vasopressin peptides were also delivered by mouth in an impermeable coating of an azoaromatic cross-linked polymer, which is degraded by bacteria in the colon, to release the peptides in the upper colon for absorption (lysine vasopressin [525]).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vasopressin: a model for the study of effects of additives on the oral and rectal administration of peptide drugs. 334 21

Classical techniques for studying modulations of microvascular permeability have a time resolution of minutes. A newly developed method allows continuous measurement of the electrical resistance of the microvascular membrane in vivo (Olesen & Crone 1983). The technique exploits microelectrodes impaled into the vascular lumen and is based on cable analysis of the vessel. It was applied to venules on the surface of the frog brain to test the effect on microvascular permeability of a wide variety of substances. The following agents increased ionic permeability reversibly within seconds: 5-hydroxytryptamine, bradykinin, ATP, ADP, AMP, phospholipase A2, arachidonic acid, leukotriene C4, oxygen-derived free radicals, ionophore A23187, and unbound Evans blue dye. An irreversible permeability increase was induced by protamine sulphate, neuraminidase, trypsin, melittin, and snake venoms from Crotalus durissus terrificus and Bothrops atrox. The following substances were without effect within an administration period of 5 min: histamine, epinephrine, putrescine, angiotensin II, vasoactive intestinal polypeptide (VIP), substance P, neurotensin, vasopressin, adenosine, PGE2, PGF2 alpha, prostacyclin (PGI2), leukotriene B4, albumin, heparin, plant cytokinins, hyaluronidase, thrombin, wasp venom. Variations in pH between 5.1 and 8.6 did not change permeability. Three conclusions are drawn from the observations: (1) the permeability of cerebral microvessels can be modulated by specific agents, (2) the agents induced changes in the endothelium within a few seconds, and (3) the rapid permeability increase induced by inflammatory mediators was less than two-fold and reversible within minutes.
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PMID:Substances that rapidly augment ionic conductance of endothelium in cerebral venules. 348 16

Vasoactive peptides contain a high proportion of proline residues which make them resistant to hydrolysis by many peptidases. However, post proline cleaving enzyme (PPCE; EC 3.4.21.26), a proline specific endopeptidase which specifically hydrolyzes internal peptide bonds on the carboxyl side of proline residues, has been shown to inactivate numerous vasoactive peptides including angiotensins, kinins, substance P, vasopressin and oxytocin. In order to determine whether PPCE could be involved in vascular metabolism of vasoactive peptides, we carried out localization and characterization studies of PPCE-like activity in hog aorta and mesenteric artery. PPCE was assayed fluorometrically at pH 7.0 using the specific PPCE substrate CBZ-Gly-Pro-4-methyl-coumarinylamide. The subcellular distribution of vascular PPCE was essentially the same as that of the cytosolic marker enzyme lactic dehydrogenase (LDH). PPCE was enriched six-fold in the cytosolic fraction (11.4 +/- 2.7 units/mg) and unlike the plasma membrane-bound proline specific exopeptidase dipeptidyl-(amino)peptidase IV (DAP IV; EC 3.4.14.5), little or no activity could be detected in the microsomal or plasma membrane fractions. Similar to PPCE characterized from other sites, vascular PPCE was stabilized and activated by dithiothreitol and EDTA, and inhibited by DFP, p-chloromercuriphenyl sulfonic acid, L-1-tosylamido-2-phenylethylchloromethyl ketone, Cu++, Ca++, and Zn++. Vascular PPCE was unaffected by inhibitors of trypsin and kallikrein (Aprotinin, ABTI), aminopeptidase M (bestatin, amastatin), neutral endopeptidase (phosphoramidon), angiotensin I converting enzyme (captopril) or carboxypeptidase N (MERGETPA). These data demonstrate that PPCE is present in vascular endothelium and/or smooth muscle.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vascular, post proline cleaving enzyme: metabolism of vasoactive peptides. 354 18

Membrane proteins from isolated, purified ox neurohypophyseal secretory granules were separated by sodium dodecylsulphate (SDS) polyacrylamide gel electrophoresis (PAGE). Using a gel overlay technique, after renaturation procedures, it was demonstrated that 125J calmodulin bound in a Ca2+-dependent way to two protein bands with molecular weights (MW) of 58,000 and 52,000. Binding of small amounts of calmodulin to other protein bands was independent of calcium. No calmodulin binding to granule content proteins could be detected. Treatment of the granules with trypsin prior to separation of membrane proteins removed the Ca2+-dependent binding proteins from the granule membrane. On incubation of granules with [gamma-32P]ATP, protein bands with MW of 52,000 and 45,000 showed a marked phosphorylation activity. The 52,000 band had the same electrophoretic mobility as one of the calmodulin-binding bands. However, no effect of calmodulin on phosphorylation of this band could be demonstrated.
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PMID:Identification of calmodulin-binding proteins on membranes of secretory granules isolated from bovine neurohypophyses. 372 45

To assess possible interactions of circulating vasopressin with the synthesis or activation of renal kallikrein, we studied the effect of chronic infusion of vasopressin (7.2 U/kg/day i.p.) for 6 days on the urinary excretion of total and active kallikrein in conscious rats. We determined urinary total, active and inactive kallikrein by measuring kallikrein activity using a kininogenase assay before and after the treatment with trypsin (200 micrograms/ml). Chronic infusion of vasopressin induced sustained decreases in urinary total, active and inactive kallikrein excretion, but did not affect the ratio of active to total kallikrein. The infusion of vasopressin induced significant increases in circulating levels of vasopressin (248.1 +/- 35.2 pg/ml in vasopressin-infused rats (n = 7) compared to 95.5 +/- 14.6 pg/ml in vehicle-infused rats (n = 7), p less than 0.001) and in weight gain (39.6 +/- 1.3 g in vasopressin-infused rats (n = 7) compared to 29.1 +/- 3.3 g in vehicle-infused rats (n = 7), p less than 0.05), and also sustained decreases in water intake and urine volume, but it did not induce any change in urinary sodium excretion. Circulating levels of angiotensin II was decreased by chronic infusion of vasopressin. Thus, the present study suggests that the elevation of circulating vasopressin levels induces a decrease in the synthesis of renal kallikrein.
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PMID:Decreased urinary active and inactive kallikrein by chronic infusion of vasopressin in conscious rats. 384 7

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