UNIPROT:P01178 - FACTA Search

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Query: UNIPROT:P01178 (oxytocin)
15,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Arginine vasopressin (AVP) acts on at least two receptor types, classified on the basis of their second messengers. The V1 receptor acts via mobilization of intracellular calcium through phosphatidylinositol hydrolysis and influences blood pressure and hepatic glycogenolysis. The V2 receptor acts via cAMP through activation of adenylate cyclase and causes antidiuresis. Previous studies of the different AVP receptors have been hampered by the use of nonselective radioligands, such as [3H]AVP (which binds to all types of V1 and V2 receptors, certain oxytocin receptors, and neurophysins) as well as the difficulty of measurement of second messengers. This paper describes the use of selective V1 and V2 radioligands with in vitro autoradiography to study V1 and V2 binding sites in rat tissues. [125I][1-(beta-mercapto-beta,beta-cyclopentamethylene propionic acid), 7-sarcosine] arginine vasopressin ([125I][d(CH2)5,Sarcosine7]AVP), a selective V1 antagonist radioligand, bound to regions of the brain, testis, superior cervical ganglion, liver, blood vessels, and renal medulla. Pharmacological characterization of [125I][d(CH2)5,Sarcosine7]AVP binding was consistent with that expected for binding to V1 receptors. There was no specific binding demonstrable to pituitary, renal glomeruli, gut, heart, spinal cord, ovary, adrenal medulla, or adrenal cortex. [3H]1-deamino [8-D-arginine] vasopressin [( 3H]DDAVP), a potent V2 receptor agonist radioligand, was used to study V2 receptors. Specific binding was only identified in the kidney consistent with the known distribution of antidiuretic V2 receptors on renal collecting tubules. No binding was demonstrated on endothelium or liver where DDAVP might influence clotting factor release, nor in the brain, spinal cord, sympathetic ganglia, heart or vascular smooth muscle, regions where DDAVP might cause vasodilatation. These studies demonstrate the use of these radioligands to study V1 and V2 receptors in a variety of tissues. Also, since these ligands are selective they are of particular use to study the different receptor subtypes in tissues where V1 and V2 receptors coexist, such as in the kidney.
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PMID:Localization of vasopressin binding sites in rat tissues using specific V1 and V2 selective ligands. 230 15

The response of cAMP to antidiuretic hormone (ADH) was studied using rat renal medullary cells in a monolayer culture. In addition, cAMP response to parathyroid hormone (PTH) was studied in renal cortical cells. As the culture aged, an increase in basal cAMP content and a gradual decrease in the cAMP responsiveness to arginine vasopressin (AVP) were observed. After 2 days of culture, AVP and hPTH-(1-34) produced a rapid increase in intracellular cAMP with single peaks, after 10 min and 5 min, respectively. Extracellular cAMP was increased linearly by both AVP and hPTH-(1-34). The response of cAMP to AVP was markedly greater in the medulla than in the cortex, while the response to hPTH-(1-34) was remarkable only in the cortex. Outstanding sensitivity of cAMP responsiveness was observed in this system, i.e., 10(-12) M AVP (1 pg/ml) and 2.43 X 10(-10) M hPTH-(1-34) (1 ng/ml) provoked significant increases in cAMP from the basal level of 0.31 +/- 0.04 and 0.59 +/- 0.05 pmol/dish to 0.79 +/- 0.03 and 1.07 +/- 0.13 pmol/dish, respectively (P less than 0.001). In the medulla, potencies of lysine vasopressin (LVP), DDAVP and oxytocin at a concentration of 10(-9) M were 76.1%, 154.2% and 8.1% of that of AVP, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Rat renal cell monolayer culture: a sensitive method for investigating ADH and PTH actions on the kidney by determining adenosine 3' :5'-cyclic monophosphate. 241 6

The effects of oxytocin and cAMP on ion transport were investigated in toad urinary bladders incubated with Ca2+-free solutions on the apical side. Under these conditions both oxytocin and cAMP markedly stimulated the movements of Na+, K+, Rb+, Cs+, Li+, and NH4+ through a pathway that is insensitive to amiloride. The amiloride-insensitive currents were inhibited by the addition of Ca2+, Sr2+, or Mg2+ to the apical solution. The movement of the monovalent cations was associated with a spontaneous Lorentzian component in the power spectrum of the fluctuation in short-circuit current. The plateau of the Lorentzian component was enhanced by oxytocin and cAMP and was depressed by divalent cations. Methohexital inhibited the stimulation of monovalent cation movements caused by oxytocin. These findings suggest that oxytocin and cAMP activate at least two kinds of ionic channels in the apical membrane of toad urinary bladder: the well-known amiloride-sensitive channel and an amiloride-insensitive channel that allows the movement of several monovalent cations and is blocked by Ca2+ and other divalent cations.
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PMID:Oxytocin and cAMP stimulate monovalent cation movements through a Ca2+-sensitive, amiloride-insensitive channel in the apical membrane of toad urinary bladder. 243 8

Characterization of specific vasopressin binding sites was investigated in purified mouse Leydig cells using tritiated arginine-vasopressin. Binding of radioligand was saturable, time- and temperature-dependent and reversible. (3H)-AVP was found to bind to a single class of sites with high affinity (Kd = 2.20 +/- 0.18 nM) and low capacity (Bmax = 17.4 +/- 1.8 fmol/10(6) Leydig cells). Binding displacements with specific selective analogs of AVP indicated the presence of V1 subtype receptors on Leydig cells. The ability of AVP to displace (3H)-AVP binding was greater than LVP and oxytocin. The unrelated peptides, somatostatin and substance P, were less potent, while neurotensin and LHRH did not displace (3H)-AVP binding. The time-course effects of AVP-pretreatment on basal and hCG-stimulated testosterone and cAMP accumulations were studied in primary culture of Leydig cells. Basal testosterone accumulation was significantly increased by a 24 h AVP-pretreatment of Leydig cells (P less than 0.001). This effect was potentiated by the phosphodiesterase inhibitor (MIX) and was concomitantly accompanied by a slight but significant increase in cAMP accumulation (P less than 0.01). AVP-pretreatment of the cells for 72 h had no effect on basal testosterone accumulation, but exerted a marked inhibitory effect on the hCG-stimulated testosterone accumulation (P less than 0.001). This reduction of testosterone accumulation occurred even in the presence of MIX and was not accompanied by any significant change of cAMP levels. We conclude from these data that AVP is capable of modulating steroidogenesis in Leydig cells through specific and functionally V1 receptor subtype and postulate that this effect may be part of an intratesticular paracrine/autocrine control mechanism.
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PMID:Modulation of mouse Leydig cell steroidogenesis through a specific arginine-vasopressin receptor. 245 54

1. Na+ as well as Li+ move across the apical membrane through amiloride-sensitive ionic channels. 2. K+ movements across the apical membrane occur through Ba2+- and Cs+-sensitive channels which do not allow the passage of Na+ or Li+. 3. A third pathway in the apical membrane is permeable for Na+, K+, Cs+, Rb+, NH+4 and Ti+. The currents carried by these monovalent cations are blocked by Ca2+ and divalent cations as well as La3+. 4. In the urinary bladder, the Ca2+-sensitive currents are stimulated by oxytocin, activators of cytosolic cAMP and cAMP analogues. Also the oxytocin activated currents are blocked by divalent cations and La3+. 5. Nanomolar concentrations of mucosal Ag+ activate the third channel and open the pathway for movements of Ca2+, Ba2+ and Mg2+, which are known to permeate through Ca2+ channels in excitable tissues.
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PMID:Cation-selective channels in amphibian epithelia: electrophysiological properties and activation. 246 Feb 85

We investigated the effect of forskolin on Cl- movements across the isolated epithelium of frog skin. With Cl- on both sides, forskolin (50 mumol/l) increased the transepithelial conductance considerably and elicited significant Cl- secretion. Establishing transepithelial Cl- gradients markedly increased the Cl- currents (ICl). During forskolin treatment, the power density spectra (PDS) of the fluctuation in transepithelial current contained a Lorentzian component that depended on the presence of Cl- in the bathing solutions. Mucosal as well as serosal diphenylamine-2-carboxylic acid (DPC; 1 mmol/l) partially depressed ICl as well as the Lorentzian noise component. Microelectrode recordings from cells involved in transepithelial Na+ absorption showed that forskolin activates gated Cl- channels in a cellular pathway in parallel with the Na+-transporting granulosum cells of the frog skin. The activation of the Cl- -dependent currents and Lorentzian noise was rather variable, and adaptation of the animals to solutions that contained 40 or 60 mmol/l NaCl increased the sensitivity to forskolin. In skins of salt-adapted animals, oxytocin (0.1 U/ml) also slightly activated the Cl- pathway. On the other hand, oxytocin and 8-(4-chlorophenylthio)adenosine 3',5'-cyclic monophosphate (CPT-cAMP; 1 mmol/l) were without effect in control skins.
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PMID:Forskolin activates gated Cl- channels in frog skin. 247 70

The effects of the uterine relaxants relaxin and isoproterenol on intracellular free calcium and inositol phosphate formation were investigated in rat myometrium. Preincubation of fura-2-loaded myometrial cell suspensions with relaxin and isoproterenol inhibited the oxytocin-induced stimulation of intracellular free calcium, with EC50 values of 0.02 and 1.0 microM, respectively. Pretreatment of cells with pertussis toxin or replacement of extracellular calcium with 2 mM EGTA inhibited the oxytocin-induced increase in intracellular calcium by 47% and 50%, respectively, but did not inhibit the action of relaxin. (Bu)2cAMP and forskolin also inhibited the effect of oxytocin on intracellular calcium. In uterine strips prelabeled with [3H]inositol, oxytocin stimulated a dose-dependent accumulation of inositol monophosphate, inositol bisphosphate, and inositol trisphosphate, with and EC50 of 0.38 microM, and pertussis toxin inhibited this effect. Relaxin, isoproterenol, chlorophenylthio-cAMP, and forskolin inhibited the oxytocin-stimulated formation of inositol monophosphate, inositol bisphosphate, and inositol trisphosphate. The effect of relaxin on inositol trisphosphate formation was dose dependent, with an EC50 of 0.1 microM. Relaxin and isoproterenol also inhibited inositol phosphate formation in myometrial cells. These data demonstrate the attenuation of contractant-induced elevation in myometrial intracellular calcium and phosphoinositide turnover by uterine relaxants and suggest that these actions may be related. In addition, they provide additional evidence that cAMP-mediated mechanisms may be involved in mediating uterine relaxation.
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PMID:Antagonism of contractants and relaxants at the level of intracellular calcium and phosphoinositide turnover in the rat uterus. 254 7

Oxytocin is a major peptide product of the ruminant corpus luteum, and the release of oxytocin from serum-free cultures of bovine granulosa cells is stimulated by insulin and insulin-like growth factor-I (IGF-I). Here we have assessed the effects of insulin and IGF-I on oxytocin gene expression in bovine granulosa cells and the dependence of these effects on the developmental status of the cells. When cells from individual follicles were cultured, the estradiol concentration of the follicular fluid was highly correlated with insulin-stimulated oxytocin release. Subsequently, cells were pooled from follicles selected on the basis of estradiol content, and two subsets of cells were distinguished. The first contained highly differentiated cells, as judged by the high estradiol (HE-cells) concentration of the follicular fluid (greater than 40 ng/ml), high levels of LH receptors, and high hCG-stimulated cAMP accumulation. The second subset contained cells from follicles with low estradiol (less than 1 ng/ml; LE-cells) which have fewer LH receptors and low hCG-stimulated cAMP accumulation. Oxytocin production was increased more than 50-fold by insulin (EC50, 230 +/- 57 ng/ml) and IGF-I (EC50, greater than 10 ng/ml), but only in the HE-cells. Oxytocin mRNA was also greatly increased by insulin and IGF-I in the HE-cells only. In contrast, insulin and IGF-I stimulated progesterone release from both HE- and LE-cells. Since oxytocin production is a characteristic of bovine luteal cells, our results support possible roles for IGF-I and insulin in regulation of luteinization or luteal activity. The data suggest that effects of insulin and IGF-I on oxytocin production reflect their effects on oxytocin gene transcription, and that granulosa cells must be appropriately primed (presumably by the in vivo hormonal environment) before they are able to produce oxytocin in response to these polypeptides.
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PMID:Oxytocin production and oxytocin messenger ribonucleic acid levels in bovine granulosa cells are regulated by insulin and insulin-like growth factor-I: dependence on developmental status of the ovarian follicle. 255 59

This study explored an effector mechanism associated with the arginine vasopressin (AVP) recognition site in the hippocampus, namely, potentiation of norepinephrine (NE)-induced cAMP accumulation in the surviving hippocampal slice. The biochemical mechanisms that underlie the AVP potentiation were investigated as follows: First, the actions of AVP upon NE-induced accumulation of cAMP in hippocampal slices from rat brain were specific to AVP and not shared by other closely related peptides, namely, oxytocin and AVP4-9. Second, the AVP-induced neuromodulation involved beta-adrenergic receptors, with AVP having no effect on cAMP levels in the absence of NE. Third, the potentiation by AVP was biphasic, with lower AVP concentrations potentiating NE-induced cAMP accumulation, while higher concentrations did not potentiate. Fourth, an antagonist of V1-type AVP receptors blocked AVP potentiation. Fifth, AVP potentiation was dependent upon extracellular calcium concentrations. Sixth, AVP potentiation was blocked by 50 microM trifluoperazine, which is consistent with a calcium-calmodulin involvement but which might also implicate protein kinase C. These alternatives and the nature of the calcium involvement are discussed. AVP actions thus appear to involve interactions between several second-messenger systems and suggest a biochemical mechanism by which AVP exerts its centrally mediated behavioral effects.
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PMID:Vasopressin neuromodulation in the hippocampus. 256 30

The synthesis of new radiolabelled compounds and the evolution of the techniques designed to study the hormonal receptors allow a better understanding of their properties. Three types of vasopressin receptors have been described: the V1a receptor of liver and blood vessels, the V1b receptor of hypophysis and the V2 receptor of kidney. Such a classification was based on two criteria: The structure of the binding site and the nature of the second messenger produced. The V2 receptor coupled positively to adenylate cyclase regulates the water reabsorption via the increase of intracellular cyclic AMP. The V1a and V1b receptors involved in glycogenolysis, contraction and probably neurotransmission mobilize intracellular calcium via a positive coupling to phospholipase C. These two receptors exhibit different recognition patterns for vasopressin analogues. In mammals, the oxytocin receptors are mainly involved in myometrial contraction and lactation. Their characterization are generally difficult since they also interact with vasopressin and are sometimes colocated with vasopressin receptors. As for V1 receptor, they are coupled to phospholipase C and mobilized intracellular calcium. The receptors of angiotensin II regulate the blood pressure by different mechanisms. They are coupled to at least two transduction mechanisms (positive coupling to phospholipase C and negative coupling to adenylate cyclase). Electrophysiological data seems to indicate that such receptor may also control a calcium channel. Yet different molecules (cAMP, calcium, inositol phosphates, diacyl-glycerol) trigger the hormonal effect of angiotensin II inside the cell.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Vasopressin, oxytocin and angiotensin receptors in mammals]. 269 9

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