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)

Single hepatocytes microinjected with aequorin generate free Ca oscillations when stimulated by agonists such as phenylephrine or vasopressin. Here we show that caffeine by itself does not elicit any significant change in free Ca, nor it does lower the threshold concentration of an agonist needed to induced spikes. In contrast, both caffeine and theophylline inhibit agonist-induced spikes. Since ryanodine inhibits vasopressin-induced spikes, but not phenylephrine-induced spikes, the actions of caffeine probably involve another target than the ryanodine receptor. This antagonistic action of caffeine on the hepatocyte calcium oscillator agrees with an inhibitory action of caffeine on the receptor for inositol 1,4,5-triphosphate.
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PMID:Caffeine inhibits agonists-induced cytoplasmic Ca2+ oscillations in single rat hepatocytes. 829 85

1. Influences of Ca2+ release from internal stores on the generation of depolarizing after-potentials (DAPs) were investigated in magnocellular neurones of rat supraoptic nucleus (SON) using whole-cell patch recording techniques in brain slices. 2. DAPs were recorded from more than half of the cells encountered, and following evoked single spikes had an amplitude of 3.00 +/- 0.19 mV (mean +/- S.E.M.) and lasted for 1.02 +/- 0.06 s. Their sizes usually increased with the number of preceding spikes, but could be reduced or eliminated when intervals between consecutive current pulses evoking tens of spikes were short. 3. DAPs were eliminated by removal of external Ca2+, and significantly reduced by bath application of nifedipine or omega-conotoxin. 4. Blockade of Ca2+ release from internal stores by perifusion with ryanodine or dantrolene, or direct diffusion of Ruthenium Red into cells suppressed DAP amplitudes by approximately 50% and shortened their durations. 5. Depletion of internal Ca2+ stores by perifusion with thapsigargin or cyclopiazonic acid also reduced DAP amplitudes by approximately 50% and eliminated phasic patterns of firing. 6. Caffeine, an agent known to enhance intracellular Ca2+ release, amplified DAPs and promoted phasic firing. 7. These results suggest that Ca2+ influx via high-voltage-activated Ca2+ channels in SON cells triggers ryanodine receptor-mediated Ca2+ release from internal stores. This process enhances DAPs and promotes phasic firing in SON cells, and would thus contribute to vasopressin release.
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PMID:Ca2+ release from internal stores: role in generating depolarizing after-potentials in rat supraoptic neurones. 903 83

The effects of ruthenium red were investigated on the vasopressin (Vp)-induced Ca2+ response in single, primary cultured rat hepatocytes loaded with fura-2. Low concentrations of Vp (1 nM) evoked a sustained train of baseline spike Ca2+ oscillations, with a latency to first peak of 170 s and a frequency of 0.37 min(-1). Treatment of hepatocytes with a higher concentration of Vp (10 nM) resulted in a rapid rise in intracellular Ca2+, with less delay (40 s), and which remained elevated and sustained. Microinjection of a low concentration of ruthenium red (10 microM in the injection pipette) altered the observed response to 1 nM Vp such that only 2 - 4 base line spikes were observed. A higher concentration of ruthenium red (50 microM in the injection pipette) completely abolished the 1 nM Vp response. However, the Ca2+ responses to higher concentrations of Vp (10 nM) or to the Ca2+-ATPase inhibitor, thapsigargin, were unaffected by ruthenium red. These results show that low concentrations of ruthenium red inhibit the Vp-induced oscillatory Ca2+ response and suggest a contribution of a ryanodine receptor-mediated Ca2+-induced Ca2+ release in generating the baseline spike oscillations in rat hepatocytes.
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PMID:Ruthenium red inhibits cytosolic Ca2+ oscillations induced by vasopressin in primary cultured hepatocytes. 975 42

Ca2+ efflux, Ca(2+)-ATPase, and membrane permeability measurements were used to investigate the biochemical mechanisms of Ca2+ release induced by mastoparan (MP) and the chimeric hormone-MP constructs incorporating galanin (galparan) or vasopressin antagonist (M375 and M391) moieties. Comparative studies utilised preparations of porcine cerebellar microsomes and rabbit skeletal muscle sarcoplasmic reticulum (SR). MP and chimeric peptides galparan, M375 and M391 induce Ca2+ release over a range of concentrations from 0.3-10 microM. Comparison of MP and three chimeric, N-terminal extended, constructs indicates that N-terminal extension modifies the biological properties of MP, producing changes in efficacy which are enzyme-isoform-specific. Biochemical studies indicate that the chimeric analogues and MP inhibit Ca(2+)-ATPases and directly activate the ryanodine receptor (RyR) to release Ca2+ from both heavy SR (HSR) and microsomes. The same peptides have no effect on the InsP3 receptor (InsP3R). Other actions that include modest changes in membrane permeability may also contribute to the Ca(2+)-mobilising action of MP and chimeric constructs.
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PMID:Biochemical mechanisms of calcium mobilisation induced by mastoparan and chimeric hormone-mastoparan constructs. 979 86

In the renal collecting duct, vasopressin increases osmotic water permeability (P(f)) by triggering trafficking of aquaporin-2 vesicles to the apical plasma membrane. We investigated the role of vasopressin-induced intracellular Ca(2+) mobilization in this process. In isolated inner medullary collecting ducts (IMCDs), vasopressin (0.1 nm) and 8-(4-chlorophenylthio)-cAMP (0.1 mm) elicited marked increases in [Ca(2+)](i) (fluo-4). Vasopressin-induced Ca(2+) mobilization was completely blocked by preloading with the Ca(2+) chelator BAPTA. In parallel experiments, BAPTA completely blocked the vasopressin-induced increase in P(f) without affecting adenosine 3',5'-cyclic monophosphate (cAMP) production. Previously, we demonstrated the lack of activation of the phosphoinositide-signaling pathway by vasopressin in IMCD, suggesting an inositol 1,4,5-trisphosphate-independent mechanism of Ca(2+) release. Evidence for expression of the type 1 ryanodine receptor (RyR1) in IMCD was obtained by immunofluorescence, immunoblotting, and reverse transcription-polymerase chain reaction. Ryanodine (100 microm), a ryanodine receptor antagonist, blocked the arginine vasopressin-mediated increase in P(f) and blocked vasopressin-stimulated redistribution of aquaporin-2 to the plasma membrane domain in primary cultures of IMCD cells, as assessed by immunofluorescence immunocytochemistry. Calmodulin inhibitors (W7 and trifluoperazine) blocked the P(f) response to vasopressin and the vasopressin-stimulated redistribution of aquaporin-2. The results suggest that Ca(2+) release from ryanodine-sensitive stores plays an essential role in vasopressin-mediated aquaporin-2 trafficking via a calmodulin-dependent mechanism.
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PMID:Regulation of aquaporin-2 trafficking by vasopressin in the renal collecting duct. Roles of ryanodine-sensitive Ca2+ stores and calmodulin. 1097 64

Anterior pituitary corticotropes show a wide repertory of responses to hypothalamic neuropeptides and adrenal corticosteroids. The hypothesis that plasticity of the cAMP signaling system underlies this adaptive versatility was investigated. In dispersed rat anterior pituitary cells, depletion of intracellular Ca2+ stores with thapsigargin combined with ryanodine or caffeine enhanced the corticotropin releasing-factor (CRF)-evoked cAMP response by 4-fold, whereas reduction of Ca2+ entry alone had no effect. CRF-induced cAMP was amplified 15-fold by arginine-vasopressin (AVP) or phorbol-dibutyrate ester. In the presence of inhibitors of cyclic nucleotide phosphodiesterases and phorbol-dibutyrate ester, the depletion of Ca2+ stores had no further effect on CRF-induced cAMP accumulation. Adenohypophysial expression of mRNAs for the Ca2+-inhibited adenylyl cyclases (ACs) VI and IX, and the protein kinase C-stimulated ACs II and VII was demonstrated. ACIX was detected in corticotropes by immunocytochemistry, whereas ACII and ACVI were not present. The data show negative feedback regulation of CRF-induced cAMP levels by Ca2+ derived from ryanodine receptor-operated intracellular stores. Stimulation of protein kinase C by AVP enhances Ca2+-independent cAMP synthesis, thus changing the characteristics of intracellular Ca2+ feedback. It is proposed that the modulation of intracellular Ca2+ feedback in corticotropes by AVP is an important element of physiological control.
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PMID:Short-term plasticity of cyclic adenosine 3',5'-monophosphate signaling in anterior pituitary corticotrope cells: the role of adenylyl cyclase isotypes. 1255 75

We have been investigating the molecular mechanisms by which trichloroethylene (TCE) might induce cardiac malformations in the embryonic heart. Previous results indicated that TCE disrupted expression of genes encoding proteins involved in regulation of intracellular Ca2+, [Ca2+](i), in cardiac cells, including ryanodine receptor isoform 2 (Ryr2), and sarcoendoplasmatic reticulum Ca2+ ATPase, Serca2a. These observations are important in light of the notion that altered cardiac contractility can produce morphological defects. The hypothesis tested in this study is that the TCE-induced changes in gene expression of Ca2+-associated proteins resulted in altered Ca2+ flux regulation. We used real-time PCR and digital imaging microscopy to characterize effects of various doses of TCE on gene expression and Ca2+ response to vasopressin (VP) in rat cardiac H9c2 myocytes. We observed a reduction in Serca2a and Ryr2 expression at 12 and 48 h after exposure to TCE. In addition, we found significant differences in Ca2+ response to VP in cells treated with TCE doses as low as 10 parts per billion. Taken all together, our data strongly indicate that exposure to TCE disrupts the ability of myocytes to regulate cellular Ca2+ fluxes. Perturbation of calcium signaling alters cardiac cell physiology and signal transduction and may hint to morphogenetic consequences in the context of heart development. These results point to a novel area of TCE biology and, if confirmed in vivo, may help to explain the apparent cardio-specific toxicity of TCE exposure in the rodent embryo.
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PMID:Trichloroethylene disrupts cardiac gene expression and calcium homeostasis in rat myocytes. 1841 Dec 32

Adherent, fibroblastic cells from different tissues are thought to contain subsets of tissue-specific stem/progenitor cells (often called mesenchymal stem cells). These cells display similar cell surface characteristics based on their fibroblastic nature, but also exhibit differences in molecular phenotype, growth rate, and their ability to differentiate into various cell phenotypes. The mechanisms underlying these differences remain poorly understood. We analyzed Ca(2+) signals and membrane properties in rat adipose-derived stromal cells (ADSCs) and bone marrow stromal cells (BMSCs) in basal conditions, and then following a switch into medium that contains factors known to modify their character. Modified ADSCs (mADSCs) expressed L-type Ca(2+) channels whereas both L- and P/Q- channels were operational in mBMSCs. Both mADSCs and mBMSCs possessed functional endoplasmic reticulum Ca(2+) stores, expressed ryanodine receptor-1 and -3, and exhibited spontaneous [Ca(2+)]i oscillations. The mBMSCs expressed P2X7 purinoceptors; the mADSCs expressed both P2X (but not P2X7) and P2Y (but not P2Y1) receptors. Both types of stromal cells exhibited [Ca(2+)]i responses to vasopressin (AVP) and expressed V1 type receptors. Functional oxytocin (OT) receptors were, in contrast, expressed only in modified ADSCs and BMSCs. AVP and OT-induced [Ca(2+)]i responses were dose-dependent and were blocked by their respective specific receptor antagonists. Electrophysiological data revealed that passive ion currents dominated the membrane conductance in ADSCs and BMSCs. Medium modification led to a significant shift in the reversal potential of passive currents from -40 to -50mV in cells in basal to -80mV in modified cells. Hence membrane conductance was mediated by non-selective channels in cells in basal conditions, whereas in modified medium conditions, it was associated with K(+)-selective channels. Our results indicate that modification of ADSCs and BMSCs by alteration in medium formulation is associated with significant changes in their Ca(2+) signaling and membrane properties.
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PMID:Specific profiles of ion channels and ionotropic receptors define adipose- and bone marrow derived stromal cells. 2706 57