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 rat adipocyte contains two separate mechanisms for prostaglandin (PG) production. Norepinephrine stimulates prostacyclin (PGI2) and PGE2 production and triglyceride lipolysis in isolated rat adipocytes. In contrast, the vasoactive peptides angiotensin II, vasopressin, and bradykinin stimulate PGI2 production, but not PGE2 production or triglyceride lipolysis, in these cells. In this study, we characterized the two separate mechanisms of PG production with respect to the time course, the role of cAMP, the identity of the adrenergic receptor, and the effects of insulin and glucocorticoids. Angiotensin II stimulated PGI2 production rapidly (at 5 min) and independently of cAMP. beta-Adrenergic stimulation with isoproterenol produced a rapid 11-fold increase in the cAMP concentration and stimulated PGI2 production more slowly (at 120 min). The phosphodiesterase inhibitor 1-methyl-3-isobutylxanthine (0.2 and 0.5 mM) and the adenylate cyclase activator forskolin (10 microM) also stimulated cAMP production rapidly and PGI2 production more slowly. 1-Methyl-3-isobutylxanthine (5.0 mM) further stimulated cAMP levels, but prevented the increase in PGI2 production and blunted the increase in glycerol release seen at lower concentrations. beta-Adrenergic blockade with propranolol or timolol completely inhibited the norepinephrine- or isoproterenol-stimulated production of PGI2 and triglyceride lipolysis, respectively. Insulin selectively inhibited isoproterenol-stimulated PGI2 production and triglyceride lipolysis at physiological concentrations, but had no effect on angiotensin II-stimulated PGI2 production. In contrast, dexamethasone inhibited PGI2 production induced by both isoproterenol and angiotensin II. We conclude that: angiotensin II stimulates PGI2 production rapidly and independently of cAMP, but isoproterenol stimulates PGI2 production more slowly, an effect that is cAMP dependent; insulin inhibits the cAMP-dependent beta-adrenergic stimulation of PGI2 production (and triglyceride lipolysis), but not the cAMP-independent angiotensin II-induced stimulation of PGI2 production (this suggests that the former effect is mediated by a decrease in cAMP levels in the adipocyte); and dexamethasone inhibits both mechanisms of PGI2 production. Both mechanisms of PGI2 production by rat adipocytes are exquisitely sensitive to hormonal regulation.
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PMID:Prostacyclin production by isolated rat adipocytes: evidence for cyclic adenosine 3',5'-monophosphate-dependent and independent mechanisms and for a selective effect of insulin. 242 31

Whereas interactions between antidiuretic hormone (ADH) and prostaglandins (PGs) have been reported in the cortical collecting tubule (CCD), the precise effects of arginine vasopressin (AVP) and its analogue, 1-desamino-8-D-arginine vasopressin (dDAVP) on PGE2 synthesis remain controversial. We examined the dynamic response of PGE2 synthesis to these two analogues in isolated rabbit CCD. Microdissected CCD were superfused, and basal and hormone-induced PGE2 synthesis were determined by enzyme immunoassay. Addition of arachidonic acid (AA) steeply increased basal PGE2 synthesis, in the 0-1 microM-dose range. The presence of AA was necessary to obtain a stimulatory effect of AVP on PGE2 synthesis. AVP induced an immediate, transitory, and dose-dependent stimulation of PGE2 synthesis. A maximal effect was obtained at 10(-8) M; PGE2 synthesis was increased by approximately 150-200% over the basal synthesis. With dDAVP, a very weak response was obtained only at 10(-7) M. From these results, we conclude that PGE2 synthesis in CCD is stimulated by ADH. This effect of ADH does not depend on the V2-receptor pathway and suggests the presence of V1-receptors in CCD.
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PMID:Effects of AVP and dDAVP on PGE2 synthesis in superfused cortical collecting tubules. 250 29

PGI2, or prostacyclin, and PGE2 are major derivatives of arachidonic acid. Arachidonic acid is converted by the cyclooxygenase enzyme to intermediate prostaglandin endoperoxides which are then enzymatically converted to PGI2 and PGE2 as well as to thromboxane A2 and PGF2 alpha. Aspirin and other nonsteroidal anti-inflammatory drugs inhibit the cyclooxygenase enzyme thereby reducing the amount of PGE2 and PGI2 produced. In the kidney, major stimuli of prostaglandin synthesis include vasoconstrictor hormones such as angiotensin II, vasopressin, endothelin and norepinephrine. Renal PGI2 and PGE2 synthesis is also increased after renal ischemia, immune injury to the kidney, and with renal parenchymal disease. Renal prostaglandin production also increases with severe arteriosclerotic cardiovascular disease, congestive heart failure, and severe hepatic disease. The increment of renal prostaglandin synthesis is important since PGI2 and PGE2 act as modulators of renal ischemia and vasoconstriction. The modulatory action leads to a negative feedback loop through which PGE2 and PGI2 and renal blood vessels in glomeruli reduce the vasoconstrictor action of the agonist, such as angiotensin II or norepinephrine. Nonsteroidal anti-inflammatory drugs can have nephrotoxic effects if they are used in clinical situations in which renal prostaglandin synthesis has increased compensatorily. In other words, the administration of indomethacin or other prostaglandin inhibitory drugs will reduce renal blood flow and glomerular filtration rate in patients with congestive heart failure, significant hepatic disease, or renal ischemia and vasoconstriction. PGI2 and PGE2 may have additional beneficial effects within the kidney in addition to being vasodilatory.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prostaglandin I2 and the kidney. 251 64

AA is metabolized by a cytochrome P450, NADPH-dependent epoxygenase to four regioisomeric epoxyeicosatrienoic acids (EETs). The EETs are further hydrated enzymatically to their respective diols, vic-dihydroxyeicosatrienoic acids (DHETs). We studied the effect of pretreatment with DHETs on 10 microU/cm2 arginine vasopressin (AVP)-stimulated hydraulic conductivity (Lp) (Lp x 10(-7) cm/atm/s, mean +/- SE) in rabbit cortical collecting ducts (CCDs) perfused in vitro at 37 degrees C. At 10(-6) M all four DHETs were potent inhibitors of the hydroosmotic effect of AVP. 14,15-DHET was the most potent isomer; it reduced AVP-induced Lp from a control value of 234.75 +/- 11.7, n = 17, to a value of 95.2 +/- 8.39, n = 5, P less than 0.0001, a reduction of AVP-mediated water flow of 60%. The inhibitory effect of 14,15-DHET was dose dependent and significant to nanomolar concentrations. 14,15-DHET at 10(-7) M was as potent an inhibitor of AVP's activity as was 10(-7) M PGE2. AVP's hydroosmotic effect is mediated through its intracellular second messenger, cAMP. 8-p-Chlorophenylthio-cAMP (CcAMP) at 10(-4) M induced a peak Lp of 189.6 +/- 11.0, n = 8; pretreatment with 10(-6) M 14,15-DHET reduced CcAMP-peak Lp to 132.0 +/- 13.4, n = 5, P less than 0.01, demonstrating a post-cAMP effect. Gas chromatography/mass spectroscopy suggests that EETs are present in extracts purified from CCDs. We conclude that cytochrome P450 epoxygenase eicosanoids are potent inhibitors of the hydroosmotic effect of vasopressin and are endogenous constituents of normal CCDs, the major target tissue for AVP.
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PMID:Cytochrome P450 metabolites of arachidonic acid are potent inhibitors of vasopressin action on rabbit cortical collecting duct. 255 46

Inhibition of prostaglandins (PGs) synthesis induces responses on renal function that are age-dependent. Indomethacin in the adult rat potentiates the response to vasopressin whereas in the newborn rat blocks the response to dehydration. These differences suggest that the sensitivity of the renal tissue to PGs changes as the animal matures. This study was designed to analyze the characteristics of the receptors to PGE2 in the developing rat and to compare with that of the adult rat. Binding was performed in cortical and medullary slices incubated with tritiated PGE2. It was found that the renal uptake of the radioactive ligand had three components, the first is the synthesis of endogenous prostaglandins, the second is tubular secretion (only in cortex) and the third is binding to receptor sites. We found it necessary to eliminate the first two components (with indomethacin and p-amino-hippurate) to achieve an adequate measurement of the apparent affinity of the binding sites to PGE2. Under these conditions the cortex bound more PGE2 than the medulla (at all ages) and the highest affinity was observed in the neonatal cortex. Synthesis of prostaglandin E2 was higher in newborn than in adult rats. In vivo, indomethacin and acetaminophen blocked the response of the newborn rat to dehydration whereas in the weaning and adult rat the response was not changed by these inhibitors of the synthesis of prostaglandins. Our results suggest a major role of the prostaglandins in the regulation of the water balance in the neonate.
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PMID:Development of the receptors to prostaglandin E2 in the rat kidney and neonatal renal functions. 256 Sep 67

1. The actions of angiotensin II, bradykinin, oxytocin, arginine vasopressin, relaxin, serotonin and the prostaglandins E2 and F2 alpha were examined on preparations of costo-uterine muscle from stilboestrol-treated rats. 2. All the agonists, except relaxin, when used in concentrations which contract the rat uterus, also produced contractions of costo-uterine muscles. Concentration-response curves were steep and maximal responses to the agonists were comparable. The negative log molar EC50 values were: serotonin, 6.5; angiotensin II, 8.8; bradykinin, 8.4; PGE2, 8.3; PGF2 alpha, 7.1. The EC50 values (units/L) for oxytocin and vasopressin were 4.4 and 2.7 respectively. 3. Indomethacin (2.8 or 5 mumol/L) did not decrease the contractile effects of the peptides or serotonin. The effects of serotonin were reduced, but not reversed, by methysergide (0.94 mumol/L). 4. Porcine relaxin inhibited field stimulation-induced contractions of costo-uterine muscle and uterine horns from immature rats pretreated with oestradiol cypionate and from stilboestrol-treated mature rats. It was much less potent, and its effects were less clearly concentration-related, on costo-uterine muscle. 5. The inhibitory effects of relaxin on the uterus were unaffected by propranolol (1 mumol/L), confirming that on this tissue relaxin acts independently of the release of catecholamines. Progesterone (30 mumol/L) was also without effect on the action of relaxin on the uterus. 6. These results taken together indicate that the costo-uterine muscle of the rat: (i) contracts in response to serotonin and the peptides angiotensin II, arginine vasopressin, bradykinin and oxytocin independently of the release of the contractile prostaglandins F2 alpha and E2; and (ii) in contrast to the uterus, may lack a significant population of receptors for relaxin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Actions of some autacoids and peptides, including relaxin, on costo-uterine muscle from rats. 257 64

Prostaglandin (PG) inhibits the hydroosmotic effect of vasopressin. We therefore reexamined the interaction of vasopressin (VP), cAMP, and prostaglandins in toad bladder epithelial cells. Vasopressin slightly, but reproducibly, stimulated PGE2 and thromboxane B2 (TXB2) synthesis in cells prepared by the use of collagenase. When cells were prepared in the presence of a readily reversible cyclooxygenase inhibitor, ibuprofen, subsequent PGE2 synthesis was enhanced sevenfold but that of TXB2 was not. Increasing cAMP by either phosphodiesterase inhibition or 8-bromo-cAMP significantly inhibited both basal and VP-stimulated PGE2 synthesis. This inhibition was overcome by addition of arachidonic acid. Future studies employing these agents will have to consider these effects. VP enhanced 32P labeling of phosphatidylinositol (PI) and phosphatidic acid. This effect was prevented by the phosphodiesterase inhibitor, which also decreased phosphatidylcholine labeling. The results indicate that the phosphodiesterase inhibitor for cAMP may decrease PG formation by interfering with phospholipase activation. Furthermore, VP, similar to its effect in the liver, also increases PI turnover in toad bladder. This may initiate PG synthesis and provide a link among VP, cAMP, and calcium. A double-reciprocal feedback is proposed, whereby VP stimulates PG synthesis in a cAMP-independent manner and also inhibits PG synthesis in a cAMP-dependent manner.
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PMID:Interactions of vasopressin, cAMP, and prostaglandins in toad urinary bladder. 257 84

Renal function has been studied by the clearance (cl.) method during hypotonic polyuria--four 15-min cl. periods--and successive antidiuresis--two 60-min cl. periods (A1, A2)--induced by lysine-8-vasopressin (LVP), 5 mU in bolus followed by infusion at a rate of 0.04 mU/min. The endogenous creatinine cl. (Cc) and the osmotic cls. (Cosm, CH2O) were determined by the usual methods as well as the absolute and fractional urinary excretions of water, sodium, chloride and potassium. The urinary concentrations of PGE2, 6-keto-PGF1 alpha and TxB2 were determined by the RIA method. This study protocol has been applied to 28 healthy women either in normal potassium balance (N, n = 14) or after potassium depletion (KD) induced by low potassium dietary intake (less than or equal to 10 meq/d) plus natriuretic treatment according to two different time patterns: two KD groups were obtained with potassium cumulative deficit of 160 +/- 43 (D2, n = 8) and 198 +/- 22 meq (D3, n = 6). The early % effects of LVP, i.e. (A1-P)% of P (mean polyuria), were significantly different only in D3 as compared to N. Precisely, the LVP-effect to reduce Cc was blunted; moreover a LVP-effect to reduce renal sodium and chloride fractional excretions and a tendentiously enhanced LVP-effect to reduce water fractional excretion were observed. These tubular effects are likely related to the inhibited renal synthesis of prostanoids in the D3 group.
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PMID:[Renal function in experimental potassium depletion. I. Effects of lysine-8-vasopressin in hypotonic polyuria]. 262 31

Renal function has been studied by the clearance (cl.) method during hypotonic polyuria--four 15-min cl. periods--and successive antidiuresis--two 60-min cl. periods (A1, A2)--induced by lysine-8-vasopressin (LVP), 5 mU in bolus followed by infusion at a rate of 0.04 mU/min. The endogenous creatinine cl. (Cc) and the osmotic cls. (Cosm, CH2O) were determined by the usual methods as well as the absolute and fractional urinary excretions of water, sodium, chloride and potassium. The urinary concentrations of PGE2, 6-keto-PGF1 alpha and TxB2 were determined by the RIA method. This study protocol has been applied to 20 healthy women submitted to paired functional explorations in both the absence and presence of indomethacin (100 mg i.m.); the drug effects have been evaluated in both normal potassium balance (N2, n = 6) and in two groups of potassium depletion (KD) with potassium cumulative deficit of 160 +/- 43 (D2, n = 8) and 198 +/- 22 meq (D3, n = 6), respectively. As regards the early % effects of LVP, i.e. (A1-P)% of P (mean polyuria), the inhibition of prostanoid synthesis with indomethacin produced significant changes: 1) an enhanced reduction in renal chloride excretion in all experimental groups; 2) a reduction in renal sodium and chloride fractional excretions in both KD groups; 3) an enhanced antidiuretic effect in D3 only, i.e. in the experimental condition with inhibition of prostanoid renal synthesis present during the control study.
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PMID:[Renal function in experimental potassium depletion. II. Indomethacin and effects of lysine-8-vasopressin in hypotonic polyuria]. 262 32

Brattleboro rats with hereditary diabetes insipidus make it possible to investigate effects of the urea concentration on the in vitro and in vivo production of prostaglandins E2 and F2 alpha (PGE2 and PGF2 alpha) by the renal papilla independently of any vasopressin effects. The rates of prostaglandin production in vitro are increasing between 100 and 1030 mmol/l urea and decreasing above 1030 mmol/l. The ratio PGE2/PGF2 alpha remains constant at about 4. Normally hydrated and 24 h water-deprived animals in steady state of urine formation were compared in vivo. Urine osmolality increased from 167 +/- 6 (N = 5) to 1113 +/- 35 (N = 15) mosmol/kg water and papillary urea concentration from 50 +/- 7 to 304 +/- 19 mmol/l after water deprivation. Urinary excretion rates of PGF2 alpha increased from 0.83 +/- 0.12 to 3.80 +/- 0.37 ng/h. The excretion of PGE2 was unaffected. PGE2 + PGF2 alpha excretion rates increased from 1.62 +/- 0.25 to 4.61 +/- 0.42 ng/h. These values are in accordance with values predicted from work with Sprague-Dawley rats. Together with previously published data on Sprague-Dawley rats these results indicate that variations of prostaglandin production in the conscious rat in steady state of urine formation can be accounted for by variations of plasma vasopressin and of papillary urea concentration. Variations in the excretion fraction are due to other causes.
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PMID:Effects of urea on the in vitro production of prostaglandins and on urinary excretion in Brattleboro rats. 271 97

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