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)

Using the Merrifield solid-phase method, we have synthesized 18 new 2-O-alkyltyrosine-substituted analogues (where alkyl = methyl and ethyl) of the arginine-vasopressin (AVP) vasopressor antagonists [1-deaminopenicillamine]-arginine-vasopressin (dPAVP), [1-(beta-mercapto-beta,beta-diethylpropionic acid)]arginine-vasopressin (dEt2AVP), and [1-(beta-mercapto-beta,beta-cyclopentamethylenepropionic acid)]arginine-vasopressin (d(CH2)5AVP) and of their 8-D-arginine (d(R2)DAVP) analogues, their 4-valine (dR2VAVP) analogues, and their 4-valine,8-D-arginine (d(R2)VDAVP) analogues [where R = CH3 or C2H5 and 2R = (CH2)5]. These analogues were tested for agonistic and antagonistic activities in in vivo rat vasopressor and rat antidiuretic and in vitro rat uterus assay systems. Although many exhibit very low antidiuretic activities, none of the new analogues antagonize antidiuretic responses to AVP. They exhibit no evident pressor activities and are in fact all highly effective antagonists of the vasopressor responses to AVP. They are also potent antagonists of the in vitro oxytocic responses to oxytocin, both in the absence and in the presence of Mg2+. These analogues together with their corresponding antivasopressor pA2 values are as follows: 1. dPTyr(Et)AVP, 8.40 +/- 0.08; 2. dEt2Tyr(Me)AVP, 8.53 +/- 0.06; 3. dEt2Tyr(Et)AVP, 8.46 +/- 0.08; 4. d(CH2)5Tyr(Et)AVP, 8.47 +/- 0.04; 5. dPTyr(Me)DAVP, 8.31 +/- 0.08; 6. dPTyr(Et)DAVP, 8.27 +/- 0.06; 7. dEt2Tyr(Me)DAVP, 8.57 +/- 0.03; 8. dEt2Tyr(Et)DAVP, 8.33 +/- 0.06; 9. d(CH2)5Tyr(Me)DAVP, 8.41 +/- 0.05; 10. d(CH2)5Tyr(Et)DAVP, 8.45 +/- 0.05; 11. dPTyr(Me)VAVP, 8.36 +/- 0.07; 12. dPTyr(Et)VAVP, 8.07 +/- 0.13; 13. dEt2Tyr(Me)VAVP, 8.29 +/- 0.08; 14. dEt2Tyr(Et)VAVP, 8.42 +/- 0.06; 15. dPTyr(Me)VDAVP, 7.84 +/- 0.06; 16. dPTyr(Et)VDAVP, 8.46 +/- 0.03; 17. dET2Tyr(Me)VDAVP, 8.35 +/- 0.10; 18. dEt2Tyr (Et)VDAVP, 8.19 +/- 0.07. Seven of these analogues are clearly more potent vasopressor antagonists than their respective unalkylated tyrosine-containing parents. In the remaining 11, antagonistic potency was not changed significantly. In no instance did 2-O-alkyltyrosine substitution decrease antagonistic potency. With pA2 values equal to or greater than 8.40, nine of these antagonists (numbers 1-4, 7, 9, 10, 14, and 16) are among the most potent vasopressor antagonists reported to date. They could thus serve as additional valuable pharmacological tools in studies on the roles of AVP in the control of blood pressure in normal and in pathophysiological conditions. These findings may also provide useful clues to the design of more potent and selective antagonists of AVP.
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PMID:Synthesis and some pharmacological properties of 18 potent O-alkyltyrosine-substituted antagonists of the vasopressor responses to arginine-vasopressin. 404 23

1. When applied directly to the brain, angiotensin II amide, as either the valine(5) octapeptide, causes rats in normal fluid balance to drink water.2. The drinking response to angiotensin injections is copious, rapid, repeatable within the same test session, and stable over months of testing in the same animal.3. The response is motivationally potent and specific. After injection the animals move directly to the source of water and drink. There is typically no preliminary hyperactivity or subsequent depression. The animals do not eat, gnaw or exhibit other behaviours that are not normally seen during spontaneous drinking. The injections rouse sleeping animals to drink and interrupt eating in animals deprived of food for two days.4. The region of the brain that is most sensitive to angiotensin includes the anterior hypothalamus, the preoptic region, and the septum including the nucleus accumbens.5. Intracranial renin elicited drinking. Bradykinin and vasopressin did not, nor did adrenaline, noradrenaline or aldosterone. In the most sensitive region, sites positive for angiotensin also yielded drinking to carbachol.6. Responses were obtained with 5 ng (ca. 5 p-mole) and occurred reliably with 50 ng angiotensin or more. The dose-response curve for amount drunk rose from 5 to 100 ng and levelled off thereafter. Angiotensin is therefore the most potent dipsogen known and is effective at doses that are reasonably within the concentration range for circulating endogenous angiotensin.7. Injections into the sensitive region of doses of angiotensin that were effective for drinking did not produce peripheral haemodynamic changes in lightly anaesthetized rats.8. This work strengthens the suggestion that angiotensin is a natural hormone of drinking behaviour that participates in extracellular thirst by its release from the kidney and subsequent direct action on a specific chemoreceptive region in the anterior diencephalon and limbic lobe.
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PMID:Drinking induced by injection of angiotensin into the rain of the rat. 432 23

1. Recently it has been shown that injection of angiotensin II into the anterior diencephalon causes the rat to drink water. In the present experiments the dipsogenic action of a number of other substances including substances related to angiotensin was tested.2. Injection of 0.001 Goldblatt u. renin into the angiotensin-sensitive region causes the water-replete rat to drink. Drinking is slower in onset and continues for longer than after injection of angiotensin II.3. Synthetic tetradecapeptide renin substrate and angiotensin I were as effective as angiotensin II at causing water-replete rats to drink.4. beta-aspartic acid(1)-valine(5)-angiotensin II was also fully effective; but the D-arginine substituted octapeptide was much less effective.5. The (2-8) heptapeptide retained about 50% of the dipsogenic activity of the octapeptide, whereas the absence of phenylalanine at the other end of the peptide chain in the (1-7) heptapeptide results in an inactive compound.6. The (3-8) hexapeptide and the (4-8) pentapeptide, both of which have phenylalanine at the end of the chain, and the (1-4) and (5-8) tetrapeptide fragments of angiotensin II showed only a slight action on intake of water.7. Kallikrein, bradykinin, adenosine-3'5-cyclic phosphate, vasopressin and oxytocin caused no drinking when injected into the angiotensin-sensitive region.8. It is concluded that the requirements for the dipsogenic activity of angiotensin are the same as those for its other biological actions with the qualification that the precursor peptides are also active, presumably because they give rise to angiotensin II locally.
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PMID:The effect on drinking of peptide precursors and of shorter chain peptide fragments of angiotensin II injected into the rat's diencephalon. 432 62

A sensitive and precise method for assaying the water permeability response evoked by neurohypophyseal hormones and their synthetic analogues on the isolated urinary bladder of the toad (Bufo marinus L.) is described. The method permits detection of 8-arginine-vasotocin at concentrations as low as 10(-12)M. This sensitivity, not achieved heretofore with this tissue, results largely from minimizing interference of inhibitory substances by means of an "in vitro circulation assembly." The precision of the method derives from a direct comparison between the cumulative dose-response curve of an agonist of unknown potency acting on one hemibladder and that of a reference compound acting on the contralateral hemibladder. Crystalline deamino-oxytocin is used as the reference standard in this assay. The intrinsic activity of 2-(O-methyltyrosine)-oxytocin, as defined by the maximal response, is 12% lower than that of deamino-oxytocin. All other hormonal peptides investigated have the same intrinsic activity as deamino-oxytocin, even 5-valine-oxytocin, in spite of its extremely low affinity. A comparison of the potencies of 8-arginine-vasotocin vs. 8-arginine-vasopressin, 8-ornithine-vasotocin vs. 8-ornithine-vasopressin, 8-alanine-oxytocin vs. 8-alanine-oxypressin, and deamino-8-alanine-oxytocin vs. deamino-8-alanine-oxypressin suggests that an isoleucine residue in position 3 imparts a higher specificity for binding of the hormonal peptide molecule to the bladder receptor than a phenylalanine residue in this locus.
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PMID:A sensitive hydroosmotic toad bladder assay. Affinity and intrinsic activity of neurohypophyseal peptides. 569 11

Arginine-vasopressin (AVP) acts on vasoconstriction and diuresis through two different types of receptors (V1 and V2, respectively). Since AVP also modifies ACTH release, we have attempted to determine which class of receptors mediates the capacity of AVP to increase ACTH secretion and to potentiate the effect of corticotropin-releasing factor (CRF) on the pituitary using two AVP antagonists: [1-deaminopenicillamine-2-(O-methyl)tyrosine]arginine-vasopressin [dPTyr(Me)-AVP], which blocks V1 receptors, and [1-beta-mercapto-beta,beta-cyclopentamethylene propionic acid)2-D-leucine-4-valine]arginine vasopressin [d(CH2)5DLeuValAVP], which interferes with V2 receptors. dPTyr(Me)AVP, but not d(CH2)5DLeuValAVP, inhibited the ACTH-releasing as well as the CRF-potentiating effects of both AVP and its antidiuretic analog [1-deamino-8-D-arginine]vasopressin (dDAVP). These results suggest that the actions of AVP and dDAVP on the corticotrophs is primarily mediated through V1 (pressor-like) receptors.
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PMID:Studies of the nature of the interaction between vasopressin and corticotropin-releasing factor on adrenocorticotropin release in the rat. 608 90

[1-deaminopenicillamine, 4-valine, 8-D-arginine]Vasopressin (DPVDAVP), a specific antagonist of the pressor activity of vasopressin, and teprotide, a converting enzyme inhibitor, were infused intravenously in conscious, fasted (24-30 h) but not water-deprived cats which had been implanted previously with flow probes on their superior mesenteric arteries and with arterial and venous cannulae. Infusion of DPVDAVP (20 micrograms/min) alone or teprotide (1 mg over 5 min) alone caused only small and statistically nonsignificant changes in mesenteric conductance and arterial pressure. However, infusion of DPVDAVP during the plateau phase of the response to teprotide or, conversely, administration of teprotide during the plateau phase of the response to DPVDAVP caused large increases in mesenteric conductance and small but significant decreases in arterial pressure. The results are consistent with the hypothesis that vasopressin and angiotensin are redundant overlapping mechanisms that play a significant role in the control of the mesenteric resistance vessels of the conscious fasted cat; when one system is inhibited, the other compensates to maintain resistance.
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PMID:Redundant nature of the vasopressin and renin--angiotensin systems in the control of mesenteric resistance vessels of the conscious fasted cat. 619 52

Two antagonists of the pressor action of arginine-vasopressin (AVP) were studied in conscious, normally hydrated dogs: 1-deaminopenicillamine-4-valine-8-D-arginine-vasopressin, or dPVDAVP, and 1-(beta-mercapto-beta, beta-cyclopentamethylene propionic acid)2-(O-methyl)tyrosine arginine-vasopressin, or d(CH2)5Tyr(Me)AVP. We first examined the hemodynamic effects of these antagonists when given alone. The infusion of dPVDAVP, 200 ng/kg/min, increased cardiac output (measured with an aortic electromagnetic flowmeter) by 23% and heart rate by 27%, leaving arterial pressure unchanged. Most of the change in cardiac output reflected a large increase in skeletal muscle blood flow, as determined by radioactive microspheres. The injection of d(CH2)5Tyr(Me)AVP, 10 micrograms/kg, had little effect on cardiac output, arterial pressure, and heart rate. We then examined the ability of the two antagonists to block the hemodynamic responses to injections of AVP. In the absence of the antagonists, AVP induced dose-related increases in mean arterial pressure and total peripheral resistance, as well as decreases in heart rate and cardiac output. The antagonist dPVDAVP shifted the dose-response curves to the right without changing their slope. On the contrary, the hemodynamic response to AVP was strikingly modified following blockade with d(CH2)5Tyr(Me)AVP. Cardiac output and heart rate increased, whereas total peripheral resistance decreased, for doses of AVP between 25 and 400 ng/kg. It is concluded that some antagonists of the pressor action of vasopressin may influence hemodynamics of conscious dogs by effects other than competitive antagonism at the level of vascular receptors.
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PMID:Hemodynamic effects of antagonists of the vasoconstrictor action of vasopressin in conscious dogs. 620 31

Previous studies have shown that vasopressin stimulates the mitotic activity in adrenal zona glomerulosa cells in intact as well as in hypophysectomized rats. (Payet and Isler, Cell and Tissue Res. 172, 1976; Payet and Lehoux, J. steroid Biochem. 12, 1980). We now report that this effect is direct and specific, since vasopressin stimulates the mitotic activity of rat adrenal zona glomerulosa cells in primary cultures. These cells were prepared by dissociation with collagenase in the culture medium MEM-d-Valine. Isolated cells were placed in 3.5 diameter petri dishes in MEM-d-valine medium containing 15% fetal calf serum and antibiotics for two days and 5% fetal calf serum for subsequent cultures. The medium was changed at 24 hr intervals. The hormones were added 3 days after the culture was started. The mitogenic effect of vasopressin was found to be dependent both on time and hormone concentrations. Vasopressin (10(-11) M) stimulated thymidine incorporation 4.8 +/- 0.6-fold after 2 days of treatment and 5.3 +/- 1.6-fold after 8 days. When ACTH (10(-11) M) was added together with vasopressin (10(-11) M) the mitogenic effect was enhanced at 6.5 +/- 1.9-fold after 2 days and 12.9 +/- 6.9-fold after 8 days of treatment. The aldosterone and corticosterone outputs were also stimulated by the combined presence of vasopressin and ACTH in the incubation medium; a maximal effect was observed between 6 and 8 days of treatment. Vasopressin (10(-11) M) + ACTH (10(-11) M) stimulated the aldosterone output 7-fold and that of corticosterone by 18-fold. When added alone, vasopressin, as well as ACTH alone had only a small effect on the aldosterone output. However, ACTH alone stimulated the corticosterone output 10-fold. In conclusion, vasopressin is an important and specific growth factor of the adrenal zona glomerulosa cells. In addition, together with ACTH vasopressin stimulates the aldosterone and corticosterone output both in vivo and in vitro in primary cell cultures.
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PMID:Vasopressin: a potent growth factor in adrenal glomerulosa cells in culture. 632 70

V1 vasopressin, angiotensin, alpha-adrenergic, and glucagon receptors in liver were studied on membrane fractions prepared from two groups of jerboas ( Jaculus orientalis) given dry or water-enriched diets for periods of 4 to 7 weeks, and from rats acutely treated with pharmacological amounts of arginine-vasopressin (AVP) or (1-deamino-8-D-arginine)-vasopressin (dDAVP). Tritiated (8-lysine)-vasopressin ([3H]vasopressin), tritiated (1-asparagine-5-valine)-angiotensin II ([3H]angiotensin II), tritiated dihydroergocryptine ([3H] DHEC ), and iodinated glucagon ([125I]-glucagon) were used as specific labeled ligands of these receptors. The V1 vasopressin, angiotensin, alpha-adrenergic, and glucagon receptors detected in both groups of jerboas were identical to receptors found in rat liver plasma membranes in regard to the apparent dissociation constants for their respective labeled ligands. Furthermore, vasopressin receptors in jerboa liver membranes discriminated as efficiently as rat liver receptors between the natural neurohypophyseal peptides arginine-vasopressin and lysine-vasopressin on the one hand and the structural analogs (1-deamino-8-D-arginine)-vasopressin and (4-valine-8-D-arginine)-vasopressin on the other. The reduction of antidiuretic hormone (ADH) secretion in jerboas fed a water-enriched diet compared to those on a dry diet (75 +/- 25 pM versus 372 +/- 86 pM) was accompanied by an increase in the number of liver vasopressin receptors (2.79 +/- 0.53 versus 1.25 +/- 0.14 pmol [3H]vasopressin bound/mg protein). The modifications observed were specific for vasopressin receptors, as judged by the maximal binding capacities of [3H]angiotensin II, [3H] DHEC , and [125I]-glucagon, which remained unchanged in jerboas whatever the levels of endogenous circulating ADH. Similarly, administration of pharmacological doses of AVP by iv infusion to rats induced, 2 hr later, a loss of about 50% of V1 liver vasopressin receptors, while the numbers and apparent dissociation constants of angiotensin, alpha-adrenergic, and glucagon liver receptors remained unchanged, and V2 kidney vasopressin receptors were almost desensitized. For V1 liver and V2 kidney vasopressin receptors, the desensitization process was strikingly dependent on the antidiuretic/glycogenolytic activity ratio of the peptide used. Thus, im injection to rats of dDAVP (an analog possessing a very high antidiuretic/glycogenolytic activity ratio) induced, 1 hr later, a total loss of V2 kidney receptors without modification of the number and apparent dissociation constant of V1 liver receptors.
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PMID:Plasma antidiuretic hormone levels and liver vasopressin receptors in the jerboa, Jaculus orientalis, and rat. 632 98

Arginine vasopressin (AVP) and angiotensin II (ANG II) reduce the glomerular filtration rate and ultrafiltration coefficient. Vasodilatory prostaglandins (PG) antagonize these effects. AVP and ANG II also cause mesangial cell contraction. Therefore, possible PG stimulation by these peptides and two vasopressin analogues was studied in cultured rat glomerular mesangial cells. The effect of altered calcium availability on PG production was also studied. Glomeruli from 75-100-g Sprague-Dawley rats were cultured in supplemented nutrient media for 28 d and experiments were performed on the first passage. Mesangial cell morphology was confirmed by electron microscopy. Cells produced PGE2 much greater than PGF2 alpha greater than 6-keto-PGF1 alpha greater than thromboxane B2 when incubated with the divalent cation ionophore, A23187, or arachidonic acid (C20:4). ANG II and AVP selectively stimulated PGE2 at threshold concentrations of 10 nM ANG II and 100 pM of AVP. The effects of the antidiuretic analogue 1-desamino-8-D-arginine vasopressin (dDAVP) and the antipressor analogue [1-(beta-mercapto-beta beta-cyclopentamethylene propionic acid)-4-valine, 8-D-arginine]-vasopressin (d[CH2]5VDAVP), were studied. Neither compound stimulated PGE2 and preincubation with d(CH2)5VDAVP abolished, and dDAVP blunted, AVP-enhanced PGE2 production. Incubation in verapamil, nifedipine, or zero calcium media blocked peptide-stimulated PGE2 production. Increasing extracellular calcium or adding A23187 increased PGE2 synthesis. Selective stimulation of PGE2 by ANG II or AVP in mesangial cells suggests a hormone-sensitive phospholipase and a coupled cyclooxygenase capable of synthesizing only PGE2. Since neither vasopressin analogue stimulated PGE2, but both blocked AVP-enhanced PGE2 production, we conclude that these cells respond to the pressor activity of AVP. This is a calcium-dependent process. Selective stimulation of PGE2 by ANG II and AVP may modulate their contractile effects on the glomerulus.
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PMID:Prostaglandin synthesis by rat glomerular mesangial cells in culture. Effects of angiotensin II and arginine vasopressin. 640 23

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