Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
 23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prominent arginine-vasopressin (AVP) binding and AVP V(1) type receptors are expressed early in the developing rat spinal cord. We sought to characterize their influence on neural excitability by using patch-clamp techniques to record AVP-induced responses from a population of motoneurons and interneurons in neonatal (5-18 days) rat spinal cord slices. Data were obtained from 58 thoracolumbar (T(7)-L(5)) motoneurons and 166 local interneurons. A majority (>90%) of neurons responded to bath applied AVP (10 nM to 3 microM) and (Phe(2), Orn(8))-vasotocin, a V(1) receptor agonist, but not V(2) or oxytocin receptor agonists. In voltage-clamp, postsynaptic responses in motoneurons were characterized by slowly rising, prolonged (7-10 min) and tetrodotoxin-resistant inward currents associated with a 25% reduction in a membrane potassium conductance that reversed near -100 mV. In interneurons, net AVP-induced inward currents displayed three patterns: decreasing membrane conductance with reversal near -100 mV, i.e., similar to that in motoneurons (24 cells); increasing conductance with reversal near -40 mV (21 cells); small reduction in conductance with no reversal within the current range tested (41 cells). A presynaptic component recorded in most neurons was evident as an increase in the frequency but not amplitude (in motoneurons) of inhibitory and excitatory postsynaptic currents (IPSCs and EPSCs), in large part due to AVP-induced firing in inhibitory (mainly glycinergic) and excitatory (glutamatergic) neurons synapsing on the recorded cells. An increase in frequency but not amplitude of miniature IPSCs and EPSCs also indicated an AVP enhancement of neurotransmitter release from axon terminals of inhibitory and excitatory interneurons. These observations provide support for a broad presynaptic and postsynaptic distribution of AVP V(1) type receptors and indicate that their activation can enhance the excitability of a majority of neurons in neonatal ventral spinal cord.
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PMID:Electrophysiological evidence for vasopressin V(1) receptors on neonatal motoneurons, premotor and other ventral horn neurons. 1153 70

In the present report, we provide for the first time evidence that functional oxytocin receptors (OTRs) are present in human myoblasts obtained from clonal cultures of postnatal satellite cells. First, binding studies performed with a non selective vasopressin (AVP) and oxytocin (OT) radioligand indicated the presence of a single class of binding sites. Second, OTR mRNA was detected by RT-PCR analysis whereas transcripts for AVP V(1a), V(1b) or V(2) receptors (V(1a)R, V(1b)R and V(2)R respectively) were not detected. Third, the presence of functional OTRs was evidenced by showing that agonist substances having a high affinity for the human OTR, namely OT, AVP and [Thr(4)Gly(7)]OT, increased the rate of myoblasts fusion and myotubes formation in the cultures, whereas F180, a V(1a)R selective agonist, and dDAVP, a V(2)R agonist had no significant effect on the fusion process. In addition, we show by RT-PCR and immunocytochemistry that the OT gene is expressed in cultured myoblasts. Taken together, our data suggest that OT may act as a paracrine/autocrine agent that stimulates the fusion of human myoblasts in vitro. In vivo, OT may be involved in the differentiation of human skeletal muscle during postnatal growth, and possibly its regeneration following injury.
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PMID:Presence of functional oxytocin receptors in cultured human myoblasts. 1188 18

To identify structural elements important to specific G alpha(q) coupling in the oxytocin receptor (OTR), intracellular domains were exchanged between OTR and G alpha(s)-coupled vasopressin V(2) receptors (V(2)Rs). Substitution of sequence from the second (2i) and third (3i) intracellular domains of V(2)R into comparable positions in OTR markedly reduced ligand affinity and resulted in a loss of G alpha(q) coupling. Substitution of the 2i domain of OTR into V(2)R decreased ligand affinity and vasopressin-stimulated adenylyl cyclase activity and only slightly increased phosphatidylinositide turnover. In contrast, substitution of the OTR3i domain into V(2)R produced a receptor chimera with high ligand affinity, decreased vasopressin-stimulated adenylyl cyclase activity, and markedly enhanced ligand-stimulated phosphatidylinositide turnover. The C-terminal 36 amino acids, but not the N-terminal 13 amino acids, of the OTR3i domain contained the determinants critical for enhanced activation of PLC. Mutation of a single lysine in the C-terminal OTR3i sequence to the corresponding V(2)R residue (valine) eliminated the enhanced ability of the V(2)R chimera to stimulate PLC but did not affect maximal adenylyl cyclase stimulation. Furthermore, mutation of this residue (K270) in wild-type OTR completely abolished the ability of the receptor to stimulate phosphatidylinositide turnover, with only a small reduction in ligand affinity. These data demonstrate that OTR K270 is critically important in the stimulation by OTR of phosphatidylinositide turnover and that this determinant can also increase this activity in the V(2)R chimera. Mutation of K270 also adversely affects the ability of OTR to stimulate ERK1/2 phosphorylation. Therefore, this residue plays an important role in the specificity of OTR/G alpha(q)/PLC coupling.
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PMID:Lysine 270 in the third intracellular domain of the oxytocin receptor is an important determinant for G alpha(q) coupling specificity. 1192 77

The effects of the peptide hormone oxytocin (OT) are mediated by the oxytocin receptor, which is a member of the G-protein-coupled receptor family. Defining differences between the binding of agonists and antagonists to the OTR, at the molecular level, is of fundamental importance to understanding OTR activation and to rational drug design. Previous reports have indicated that the N-terminus of the OTR is required for OT binding. The aim of this study was to identify which individual residues within the N-terminal domain of the human OTR provided these OT binding epitopes. A series of truncated OTRs and mutant receptor constructs with systematic alanine substitution were characterized with respect to their pharmacological profile and intracellular signaling capability. Although a number of residues within the OTR will be required for optimal OT-OTR interaction, our data establish that Arg(34) within the N-terminal domain contributes to high-affinity OT binding. Removal of Arg(34) by truncation or substitution resulted in a 2000-fold decrease in OT affinity. In addition, we show that the arginyl at this locus is required for high-affinity binding of agonists in general. However, the importance of Arg(34) is restricted to agonist interaction with the OTR, as it was not required for binding peptide antagonist or non-peptide antagonist. It is noteworthy that the corresponding Arg in the related rat V(1a) vasopressin receptor is also required for high-affinity agonist binding. This study defines, at the molecular level, the role of the N-terminus of the OTR in high-affinity agonist binding and identifies a key residue for this function.
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PMID:Agonist-specific, high-affinity binding epitopes are contributed by an arginine in the N-terminus of the human oxytocin receptor. 1195 56

A novel, potent nonpeptide oxytocin receptor antagonist (1-(1-(2-(2,2,2-trifluoroethoxy)-4-(1-methylsulfonyl-4-piperidinyloxy) phenylacetyl)-4-piperidinyl)-3,4-dihydro-2(1H)-quinolinone) has been identified that can be labeled to high specific activity with [35S]. In binding studies, this compound exhibits sub-nanomolar affinity and a high degree of selectivity (900-1800-fold) for human oxytocin receptors compared to human vasopressin receptors. This compound appears suitable for studying the pharmacology of oxytocin receptors in human and nonhuman primate tissues, for which there is currently a paucity of highly selective tools. It may also be useful as a nonlabeled competitor or as a radioligand in autoradiographic studies of oxytocin receptor localization in these tissues.
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PMID:A nonpeptide oxytocin receptor antagonist radioligand highly selective for human receptors. 1217 4

In order to produce large amounts of human vasopressin and oxytocin receptors compatible with direct structural biology approaches such as X-ray crystallography, NMR or mass spectrometry, we have expressed these neurohypophysial hormone receptors in Escherichia coli. To facilitate the level of expression, the coding sequence for the V1a vasopressin receptor and the oxytocin receptor were first optimized for bacterial expression. The resulting 'bacterial receptor cDNAs' were then subcloned into pET/T7-driven prokaryotic expression vectors. Different constructs have been prepared: each cDNA was incorporated alone or in fusion with a T7 tag sequence or a glutathione-S-transferase tag sequence at the N-terminus end. Moreover, a 6 x His tag sequence has been added at the C-terminus end for one-step purification of the receptors. Screening of BL21(DE3) and BL21(DE3)pLysS bacterial strains transformed with the different constructions was achieved by Coomassie blue-stained SDS-polyacrylamide gels and by 6 x His antibody Western blotting. Several clones were selected for purification of the receptors. Expression levels of the receptors are now encouraging and will be optimized for further structural and functional studies. Moreover, at the same time, the construction of the bacterial-optimized sequence of the V2 vasopressin receptor and its expression will be performed.
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PMID:Expression of human vasopressin and oxytocin receptors in Escherichia coli. 1243 34

The aim of the study was to computer-dock selected ligands to neurophyseal receptors in order to identify amino acid residues responsible for ligand-receptor interactions. To this aim, reliable oxytocin receptor (OTR) and arginine-vasopressin receptor (V1aR/V2R) models were built. The OTR-selective agonist [Thr4,Gly7]OT, the OTR-selective cyclohexapeptide antagonist L-366,948 and OT itself were docked via genetic algorithm to OTR, V1aR, and V2R and relaxed using a constrained simulated annealing protocol. For the analysis of receptor/ligand interactions a subset of initial conformations was chosen using energetic and steric criteria. All three ligands seem to prefer similar modes of binding to the receptors, manifested by repetitive residues of the receptors which directly interact with the ligands. Taking into account that many aspects of mechanisms of G protein-coupled receptor (GPCR) action are still unsolved, the results obtained with the docking simulations may propose future experimental research, especially in site-directed mutagenesis analysis and searching for key amino acid residues responsible for drug activities.
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PMID:Docking ligands to vasopressin and oxytocin receptors via genetic algorithm. 1250 29

The aim of the present study was to determine the influence on renal sympathetic nerve activity of the different chemically coded neuronal phenotypes that project from the paraventricular nucleus (PVN) to the spinal cord. Experiments were carried out on male Wistar rats anaesthetised with chloralose and urethane. Changes in renal sympathetic nerve activity were measured following activation of neurones in the PVN with D,L-homocysteic acid (100 nl, 200 mM), before and following intrathecal application of glutamate, vasopressin, oxytocin, dopamine and their receptor antagonists. Excitatory and inhibitory effects on renal sympathetic nerve activity were elicited by PVN stimulation. PVN excitatory effects were mimicked by intrathecal administration of glutamate and vasopressin and selectively antagonised by intrathecal administration of kynurenic acid and a V1a receptor antagonist, respectively. A low dose of dopamine increased renal sympathetic activity and this was selectively antagonised by haloperidol; however, the latter was without effect on PVN excitatory responses. A high dose of dopamine decreased renal sympathetic nerve activity and this was selectively blocked by a D1 dopamine receptor antagonist (SCH 23390), which also antagonised a minority of inhibitory responses obtained from the caudal extension of the PVN. Oxytocin also had two actions in 5 rats it inhibited and in 10 rats it increased renal sympathetic nerve activity, both actions being blocked selectively by oxytocin receptor antagonists. Neither of the PVN effects on renal sympathetic nerve activity appeared to be dependent on oxytocin pathways. Tests with intrathecal administration of bicuculline showed that PVN inhibition of renal sympathetic nerve activity was not dependent on spinal GABA(A) receptor activation. The results show that PVH-induced excitation of sympathetic activity to the kidney is mainly mediated by glutamate or vasopressin neurones whereas dopamine via Dl receptors may mediate some of the PVN inhibitory effects.
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PMID:Neuropeptides, amines and amino acids as mediators of the sympathetic effects of paraventricular nucleus activation in the rat. 1253 Mar 99

G protein-coupled receptor (GPCR) oligomerization is a growing concept that has emerged from several studies suggesting that GPCRs can form both homo- and heterodimers. Using both coimmunoprecipitation and bioluminescence resonance energy transfer (BRET) approaches, we established that the vasopressin V1a, V2, and the oxytocin receptors exist as homo- and hetero-dimers in transfected human embryonic kidney 293T cells. Each receptor protomer had a similar propensity to form homo- and heterodimers, indicating that their relative expression levels may determine the homo-/heterodimer ratio. The finding that immature forms of the receptor can be immunoprecipitated as homo- and heterodimers and the detection by BRET of such oligomer in endoplasmic reticulum-enriched fractions suggest that the oligomerization processes take place early during biosynthesis. Treatment with agonists or antagonists did not modify the BRET among any of the vasopressin and oxytocin receptor pairs studied, indicating that the dimerization state of the receptors is not regulated by ligand binding once they have reached the cell surface. Taken together, these results strongly support the notion that GPCR dimerization is a constitutive process.
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PMID:Oxytocin and vasopressin V1a and V2 receptors form constitutive homo- and heterodimers during biosynthesis. 1255 93

In adult rats somato-dendritic release of oxytocin and vasopressin from magnocellular neurones in the supraoptic nucleus of the hypothalamus has important autoregulatory actions on the neuronal electrical activity, and in neonatal rats it plays a role in the development of dendritic arborisation. In the adult, oxytocin effects are modulated by allopregnanolone via an interaction with inhibitory GABAA receptors. This study examined the effects of allopregnanolone, progesterone and 17beta-oestradiol on oxytocin and vasopressin release from intact isolated supraoptic nuclei and from the neurophypophyses in rats of differing ages. In supraoptic nuclei from rats of 3-4 weeks old or less, all three neurosteroids induced oxytocin release from the isolated supraoptic nucleus, but only allopregnanolone induced significant release of vasopressin. Surprisingly, in these very young rats, allopregnanolone-induced oxytocin release was inhibited by GABAA receptor antagonists as well as by an oxytocin receptor antagonist. By contrast, in supraoptic nuclei from adult rats allopregnanolone-induced oxytocin release was much smaller, and was enhanced in the presence of bicuculline. The GABAA receptor agonist muscimol also induced oxytocin release from supraoptic nuclei in young rats, but had no effect in adult rats. Oxytocin cells isolated from young rats showed an increase in [Ca2+]i in response to both allopregnanolone and muscimol. Allopregnanolone had no effect on [Ca2+]i or on the release of oxytocin or vasopressin from neurohypophysial axon terminals in either young or old rats. We conclude that, in very young rats, (i) neurosteroids induce oxytocin release from the supraoptic nucleus by a mechanism that partly depends on the presence of GABA, which in young rats is depolarising to oxytocin cells, and which also partly depends upon endogenous oxytocin, and (ii) the effect of allopregnanolone upon oxytocin release changes with age, as the functional activity of GABAA receptors changes from excitation to inhibition of oxytocin cells.
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PMID:Neurosteroid regulation of oxytocin and vasopressin release from the rat supraoptic nucleus. 1258 1


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