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)

Oxytocin and the related peptide [Arg8]vasopressin (AVP) have previously been shown to bind with equally high affinity to oxytocin binding-sites (presumed oxytocin receptors) present within the uterus and oviduct of oestrous ewes. There is a possibility, therefore, that AVP mediates oxytocic actions through these binding sites. For the present study, ewes in seasonal anoestrus were treated with oestradiol-17 beta (50 micrograms subcutaneously, daily for 2-4 days). It was shown initially that this treatment stimulated the development of high-affinity oxytocin binding-sites (Kd 4.4 +/- 0.8 nmol L-1) which had similar affinity for AVP (Kd 4.2 +/- 0.9 nmol L-1) in the myometrium. The efficacy of oxytocin and AVP in vivo were compared by recording electromyographic (EMG) activity from the ampullary-isthmic junction of the left oviduct and the left uterine horn of four conscious ewes. Before oestradiol treatment there was no EMG response to oxytocin even at supraphysiological (1000 mU) doses. During oestradiol treatment, EMG activity was consistently increased in response to injections of 25 mU and 100 mU oxytocin via the jugular vein, but not to saline or 100 mU AVP. Higher doses of AVP were not investigated because of the possibility of cardiovascular side effects. A subsequent blood sampling experiment showed that maximal concentrations of oxytocin and AVP (achieved in peripheral plasma during the first 2 min following injection into the jugular vein) were of a similar order of magnitude after injection of equivalent doses of the two peptides. It is concluded that AVP probably does not mediate biological activity through the oxytocin receptor in non-pregnant ewes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Actions of oxytocin and vasopressin on oestrogen-induced electromyographic activity recorded from the uterus and oviduct of anoestrous ewes. 799 89

Previously it has been shown that vasopressin (VP) and oxytocin are converted by aminopeptidase activity in brain membranes into fragments with potent CNS activities. This report concerns the properties of this enzyme activity, addressed as VP-converting aminopeptidase (VP-AP) activity, in membranes of the rat brain. The VP-AP activity had a pH optimum at pH 7.0 and had a Km of 17 microM for its action on VP. Amastatin was the most potent aminopeptidase inhibitor. Enzyme activity was inhibited by relatively low concentrations of metal chelators. Treatment of brain membranes by EDTA resulted in loss of enzyme activity that was completely reversed by 10 microM Zn2+, indicating that VP-AP activity is a metallopeptidase. Several VP analogues and fragments, in particular VP(1-8), inhibited the action of enzyme activity on VP. Among peptides unrelated to VP, angiotension I, somatostatin, and porcine ACTH(1-39) markedly inhibited enzyme activity. Solubilization of VP-AP activity from brain membranes and gel filtration on Sephadex G200 showed two peaks of activity, one eluting with an apparent mass of about 140 kDa, the other in the void volume. Gel filtration fractions were able to convert [3H][Phe3]VP in a step-wise fashion. The VP-AP-like activity was found in many tissues outside the brain. Highest activity was present in lung, kidney, parts of the gastrointestinal tract, ovary, and uterus. The results indicate that VP-AP activity is a widely distributed enzyme with probably multiple functions, one of which involves the metabolism of vasopressin in the brain.
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PMID:Properties of aminopeptidase activity involved in the conversion of vasopressin by rat brain membranes. 799 91

Angiotensin receptors are present in many tissue types, including adrenal cortex, renal glomeruli, heart, hypothalamus, liver, pancreas, pituitary, platelets, renal tubules, uterus and vascular smooth muscle. Two high-affinity receptor subtypes have been identified by radioligand binding with antagonists: losartan (DuP 753/MK954) identifies AT1 receptors; PD123177 and CGP42112A are markers for AT2 receptors. Angiotensin II may be produced locally in tissues outside the humoral system. For example, it is found in the brain, kidney and heart. Within the brain, the heptapeptide angiotensin(1-7) mimics some effects of angiotensin II, but may be formed directly from angiotensin I. Evidence for non-ACE-mediated angiotensin II production has been reported in the heart. Intravascular angiotensin II receptors are implicated in the central release of vasopressin and other hypophyseal hormones, in increasing sympathetic outflow, in the thirst response and, possibly, in cognitive function; in the inotropic and chronotropic effects of angiotensin II on the heart as well as in growth/hypertrophy; in the control of aldosterone release and in the balance between cortisol and aldosterone secretion; and in modulating sodium, chloride and bicarbonate transport within the kidney. Effects on the reproductive system, liver and pancreas have not been established. The pharmacological effects of angiotensin II antagonists will depend on their distribution characteristics as well as affinity for specific receptor subtypes. At present, however, the physiological role of AT2 receptors has not been defined.
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PMID:Role of angiotensin in the extravascular system. 823 88

Relaxin is a polypeptide hormone best known for its role in parturition. However, high affinity relaxin receptors have been localized in the rat brain and heart in addition to the uterus. Several lines of evidence also suggest that relaxin may be involved in the regulation of blood pressure, heart rate, and the release of oxytocin and vasopressin. We now show by Northern analysis that a 1-kilobase relaxin transcript is detected in the rat brain as well as the ovary of pregnant rats. Using in situ hybridization, relaxin mRNA is localized in discrete regions of the male and female brains, including the anterior olfactory nucleus, tenia tecta, pyriform cortex, neocortex, and hippocampus. Developmental studies show that relaxin mRNA is present in the 1-day postnatal brain, while relaxin receptors are not detectable until 7 days after birth. The relaxin receptor binding affinity was similar in the developing brains, but there was a steady increase in relaxin binding sites during postnatal days 7 to 29, suggesting that relaxin may play a role in brain maturation. While relaxin mRNA is not detected in the heart, high levels of relaxin receptors are detected in the cardiac atrium as early as 1 day after birth. These atrial receptors remained at similar levels throughout postnatal development, suggesting an important role for relaxin in cardiovascular function.
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PMID:Expression of relaxin mRNA and relaxin receptors in postnatal and adult rat brains and hearts. Localization and developmental patterns. 839 68

[Arg8]vasopressin and oxytocin are the two main members of the neurohypophysial hormone family found to be present in nearly all mammals. [Lys8]vasopressin ([Lys8]VP) has been identified as the antidiuretic hormone in pig and some marsupial families. The porcine-derived kidney epithelial cell line, LLC-PK1, expresses both [Lys8]VP receptors coupled to the activation of adenylate cyclase (V2 receptors) and oxytocin receptors. Here we report the molecular cloning of the V2 [Lys8]VP receptor and the oxytocin receptor from LLC-PK1 cells. The cloned V2 [Lys8]VP receptor differs from human and rat V2 [Arg8] receptors mainly in its N-terminal region, in residues located in the extracellular loops and in intracellular phosphorylation sites. When expressed in COS7 cells, the V2 [Lys8]VP receptor exhibits the relative order of ligand affinity [Lys8]VP = [Arg8]VP >> 1-deamino[D-Arg8]VP > or = oxytocin and adenylate-cyclase stimulation, expected for the porcine V2 [Lys8]VP receptor but different from V2 [Arg8]VP receptors. Adenylate-cyclase activation by [Lys8]VP was inhibited in COS7 cells by a V2 antagonist. The cloned oxytocin receptor exhibits in COS7 cells a ligand specificity typical of mammalian oxytocin receptors. mRNA-distribution analysis revealed a single 5.5-kb transcript in the uterus from pregnant guinea pig.
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PMID:Molecular cloning and functional characterization of V2 [8-lysine] vasopressin and oxytocin receptors from a pig kidney cell line. 839 86

L-366,509, a member of a novel class of nonpeptidyl compounds, has been characterized as an orally active oxytocin (OT) antagonist. L-366,509 exhibits a moderate binding affinity (K(i) values, 370-780 nM) for the rat, rhesus and human uterine OT receptor. L-366,509 also binds to vasopressin receptor subtypes (arginine vasopressin-V1 and V2) with measurable affinity in rat (K(i) values, 25-30 microM) and primate (K(i) values, 2-6 microM) tissues. In rat uterine slices, L-366,509 inhibits (IC50 = 1.6 microM) the stimulation of phosphatidylinositol turnover induced by OT but not bradykinin. In the rat isolated uterus, L-366,509 is a competitive and reversible OT antagonist (pA2 = 7.32). In vivo, L-366,509 given i.v. (10 mg/kg) or intraduodenally (10-50 mg/kg) to rats causes a marked and long-lasting inhibition of OT-stimulated uterine activity. OT antagonist activity in a pregnant rhesus macaque (approximately day 135 gestation) is also observed with L-366,509 after i.v. or p.o. dosing. L-366,509 represents a prototype for a new chemical class of OT antagonists with significant p.o. bioavailability.
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PMID:Identification of an orally active, nonpeptidyl oxytocin antagonist. 842 33

Previous studies in rats have implicated central oxytocin (OT) pathways in the onset of maternal behavior, female sexual receptivity, and the response of the pups to social separation. However, the rat is not ideal for studying effects of OT on attachment as rats fail to form selective, enduring social bonds. To study male-female pair bonds, our laboratory has focused on a microtine rodent, the prairie vole, which is monogamous and highly affiliative. Adult prairie voles form pair bonds after mating (with prolonged, repeated bouts of copulation). As mating releases OT in several species of mammals, we hypothesized that this release was important for pair bond formation in the prairie vole. Central administration of an OT antagonist (but not a V1 antagonist) prevents pair bonding without interfering with the mating behavior. Moreover, central infusion of OT (but not vasopressin, AVP) facilitates pair bonding n the absence of mating. In males, it is AVP (not OT) that appears necessary for pair bond formation. The pattern of OT (and AVP) receptor distribution in the prairie vole brain is entirely distinct from the pattern observed in the closely related non-monogamous montane vole. OT receptors (OTR) in these two species show virtually identical kinetics, specificities, and cDNA sequences (RNA from parturient uterus). In current studies, we are screening genomic libraries from prairie and montane voles to determine if species differences in OTR promoters account for the strikingly different patterns of regional expression in brain. These studies should ultimately provide insight into a neuroendocrine mechanism for pair bond formation.
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PMID:Oxytocin and the molecular basis of monogamy. 871 71

Using in situ hybridization methods that discriminate mRNAs encoding rat vasopressin V1a, V1b, V2 and oxytocin receptors in hepatic, brain and renal tissues, experiments were done to determine whether estrogen and/or progesterone influence renal vasopressin receptor (VR) or oxytocin receptor (OTR) transcripts. Estrogen induced OTR gene expression in the outer stripe of the outer medulla and increased expression of OTRs in macula densa cells. Outer stripe OTR mRNA peaked with 4 days of estrogen treatment, and decreased to undetectable levels with 31 days of treatment of ovariectomized females. Estradiol's induction of outer stripe OTR mRNA expression was blocked by the antiestrogen, tamoxifen, but was not affected by high levels of circulating oxytocin. A role for OTRs in regulating renal function independently of adrenal steroids was suggested by findings that adrenalectomized males showed high levels of OTR transcripts in outer stripe proximal tubule and cortical macula densa cells after 5 and 10 micrograms/100g of estradiol. Consistent with specialized roles for OTRs during female reproduction, OTR transcripts could not be detected in renal tissues of peri-parturient females, at times when OTR mRNA levels were very high in uterus. OTR gene expression in macula densa cells reappeared 4-8 days into lactation and attained control levels by day 20. Physiological experiments showed that estrogen + oxytocin decreased plasma [Na+] levels in ovariectomized rats at a time when proximal tubule OTR expression is maximal. These data are consistent with 1) cell-specific regulation by estrogen of renal OTR gene expression and 2) the possibility that OTRs may be important mediators of steroid-induced alterations in renal fluid and/or solute reabsorption.
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PMID:Oxytocin receptor gene expression in female rat kidney. The effect of estrogen. 871 83

In order to study the involvement of oxytocin (OT) and vasopressin (AVP) in mechanisms of uterine activation and to clarify the therapeutic potential of antagonists to these hormones in preterm labour and primary dysmenorrhoea, studies of human uterine contractility in vivo and in vitro as well as measurements of OT and AVP V1a receptors were performed. Good correlations between OT receptor concentrations and effects on contractility were observed in both the pregnant and non-pregnant states, which indicates that OT acts specifically on its own receptor in the uterus. For AVP there was lack of such correlation which may suggest that this hormone influences both the OT and AVP V1a receptor sites. At the onset of labour both preterm and at term no marked increase in the OT receptor concentration was observed, but OT may still be involved in the initiation of labour, being produced locally in the uterus and not detectable in plasma. We observed a reduced OT receptor concentration in advanced labour and after OT infusion, which suggests that OT influences its own receptor. The AVP V1a receptor concentration and the effect of AVP on the uterus were about equal to those for OT, and the concentration of AVP V1a receptors also tended to decrease in advanced labour, observations which support an involvement also of AVP in the mechanisms of labour. In non-pregnant women AVP receptors as well as uterine effects of AVP in vitro and in vivo were about five times higher than those for OT, and the effect of AVP was increased premenstrually. This firmly supports an aetiological role of this peptide in the uterine hyperactivity of primary dysmenorrhoea. We have also shown that the analogue 1-deamino-2-D-Tyr-(OEt)-4-Thr-8-Orn-OT, which blocks both the OT and AVP V1a receptor sites, given by intravenous infusion inhibits both preterm labour and dysmenorrhoea, and this is in agreement with our receptor and contractility findings.
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PMID:Potential use of oxytocin and vasopressin V1a antagonists in the treatment of preterm labour and primary dysmenorrhoea. 871 23

Although the neurohypophyseal hormone oxytocin (OT) is best know for its role in reproduction, OT also stimulates natriuresis at physiological plasma levels. This effect is mediated via specific renal OT receptors (OTRs). In the present study, we have characterized rat renal OTR gene transcripts and assessed their regulation during gestation and in response to gonadal steroid treatment. Using a specific rat OTR probe, two major OTR messenger RNA (mRNA) bands [6.7 and 4.8 kilobases (kb)] were detected in renal extracts, corresponding to two of the three bands present in rat uterus. In contrast to the dramatic rise of OTR mRNA levels at term in the uterus and pituitary, renal OTR mRNA levels underwent a strong more than 3-fold decrease at term. Binding studies using a iodinated specific OT antagonist revealed a concomitant decrease in renal OT-binding sites. On the other hand, estrogen (E2) treatment led to an increase in renal OTR mRNA levels, as is also the case in the uterus and pituitary. However, the predominant E2-induced mRNA species were shorter (3.6 and 3.2 kb) than those present in control rat kidneys (6.7 and 4.8 kb). Analysis by reverse transcriptase-PCR and 5'- and 3'-directed complementary DNA probes indicated that the E2-induced OTR mRNA transcripts possessed the same coding region, but contained a shortened 3'-untranslated region. Binding studies showed that E2 treatment also led to an increase in renal OT-binding sites, suggesting that the shortened OTR transcripts encoded a functional receptor. The present study indicates that the uterine-type OTR gene is expressed in rat kidneys, but that the mechanisms controlling the expression of this gene in the two tissues are markedly different. The differential tissue-specific regulation of OTR gene expression may represent a mechanism by which circulating OT can assume a multifunctional role in both reproduction and sodium homeostasis.
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PMID:Renal oxytocin receptor messenger ribonucleic acid: characterization and regulation during pregnancy and in response to ovarian steroid treatment. 877 Aug 90

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