UMLS:C0017638 - FACTA Search

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Query: UMLS:C0017638 (glioma)
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Angiotensin II (AII) can release arachidonic acid metabolites such as prostacyclin (PGI2) and PGE2 from cells in cultures. It has recently been reported that the AT1 selective nonpeptide AII receptor antagonist losartan had similar effects. The present study was undertaken to further evaluate the effects of AII and losartan on cells which synthesize prostaglandins, including vascular smooth muscle, endothelial, and glial cells. Inhibition of specific [125I]AII binding was demonstrated in porcine smooth muscle cell (PSMC) suspensions with unlabeled AII and losartan. The IC50 values were 1.3 x 10(-9) mol/L and 7.7 x 10(-9) mol/L, respectively. PD123177 (an AT2 selective antagonist) had no effect on binding. AII produced a concentration-related increase in calcium mobilization (fura-2 fluorescence) which was blocked by losartan (IC50 = 8.4 x 10(-8) mol/L) but not by PD123177 (10(-6) mol/L). AII (10(-7) to 10(-5) mol/L) stimulated the basal release of PGI2 by 100%. This response was blocked by losartan (10(-6) to 10(-5) mol/L) but not by PD123177 (10(-6) to 10(-5) mol/L) and neither agent stimulated basal release in PSMC. Similar effects of AII and antagonists were observed upon receptor binding and PGE2 release in primary rat astrocyte (RA) cultures. AII did not release PGI2 from porcine endothelial cells, bovine pulmonary arterial endothelial cells, or rat C6 glioma cells. Losartan had no significant effect at 10(-5) mol/L. By contrast, bradykinin or the calcium ionophore A23187 dramatically increased PGI2 release in each of these cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:AT1 receptors mediate the release of prostaglandins in porcine smooth muscle cells and rat astrocytes. 141 54

Angiotensin II (AII), injected intracerebroventricularly, has been shown to antagonize opioid analgesia. The mechanism for this was obscure. In the neuroblastoma X glioma NG 108-15 hybrid cell line, the K(+)-induced increase in [Ca2+]i can be suppressed by the delta opioid agonist [D-Pen2, D-Pen5]enkephalin (DPDPE) at 0.01-1 microM, an effect completely reversed by the opioid antagonist naloxone. Angiotensin II (AII) at concentrations of 0.1 and 1 microM mobilized free Ca2+ from an intracellular pool, and this effect was antagonized by the AII receptor antagonist saralasin. All (1 microM) had no significant effect on the increase in [Ca2+]i induced by K+, but it blocked the suppressive effect of DPDPE on the K(+)-induced [Ca2+]i increase. The results indicate that mobilization of intracellular calcium may underlie the anti-opioid effect of AII.
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PMID:Mobilization of calcium from intracellular store as a possible mechanism underlying the anti-opioid effect of angiotensin II. 150 24

The binding characteristics of [125I]angiotensin II (ANG II) to membranes prepared from undifferentiated and differentiated neuroblastoma x glioma hybrid cells (NG108-15) were investigated. Scatchard analysis revealed the existence of high and low affinity sites in differentiated cells, but only a low affinity site in undifferentiated cells. Similarly, self-displacement studies revealed competition to a single low affinity site in undifferentiated cells, and to high and low affinity sites in differentiated cells. Angiotensin III (ANG III) displaced high affinity binding in differentiated cells but did not displace low affinity binding in either differentiated or undifferentiated cells. Furthermore, 5-guanyl imidodiphosphate (GPP(NH)P) inhibited [125I]ANG II binding to differentiated cells, in a dose-dependent fashion, but had no effect on binding to indifferentiated cells. These findings suggest that the high affinity site represents a G-protein linked receptor with approximately equal affinities for ANG II and ANG III. We hypothesize that the low affinity site represents a non-specific membrane-bound aminopeptidase.
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PMID:Characterization of a high affinity, guanine nucleotide sensitive angiotensin receptor on differentiated neuroblastoma-glioma hybrid cells (NG108-15). 154 36

PDGF-like peptides secreted from smooth muscles have been suggested to be responsible for the smooth muscle growth. In order to elucidate the nature of PDGF-like molecules expressed in vascular smooth muscles, we have isolated and characterized cDNA clones for PDGF-A chain from a rabbit embryonic aorta cDNA library. One of the cDNA clones was found to encode a novel PDGF-A chain, named PDGF-A3 in this report. PDGF-A3 arises from a single PDGF-A chain gene by alternative RNA splicing and differs from the sequences of previously reported endothelial- or the glioma-type transcripts by a 110 bp insertion. Expression of PDGF-A3 mRNA was selectively induced by Angiotensin II in the smooth muscle cell in vitro. Total PDGF-A mRNA is most enriched in embryonic aortas, but its expression is down-regulated with vascular development. PDGF-A mRNA is markedly increased in primary-cultured smooth muscle cells during the log-phase growth. Our results suggest that autocrine production of PDGF-A chains from the smooth muscle cell may play a role in early vascular development and in Angiotensin II-induced smooth muscle cell proliferation.
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PMID:Identification of three types of PDGF-A chain gene transcripts in rabbit vascular smooth muscle and their regulated expression during development and by angiotensin II. 157 49

In an attempt to define the angiotensin II receptor subtype responsible for prostaglandin release, we studied the effects of the nonpeptide, subtype 1 (or B) selective angiotensin II antagonist, DuP 753. Release of prostaglandin E2 produced by angiotensin II from rat C6 glioma, human astrocytoma, or porcine aortic smooth muscle cells in culture was blocked by the addition of the 10(-7) M of DuP 753. In contrast, the release of prostacyclin, as assessed by measurement of the stable metabolite 6-keto PGF1 alpha, was not attenuated by addition of Du P 753. However, DuP 753 either alone or in combination with angiotensin II, produced dose-dependent increases in prostacyclin release with doses as low as 10(-8) M. In the absence of angiotensin II, DuP 753 also increased prostaglandin E2 release at high doses but the magnitude of the potentiation was substantially less than for prostacyclin release (50 to 250% v 400 to 2800% above basal). Thus, we clearly show that angiotensin II stimulates PGE2 release via subtype 1 (or B) angiotensin receptors. Whether the effect of DuP 753 on prostaglandin release is a result of agonistic properties or intrinsic effects unrelated to blockage of angiotensin II receptors remains to be determined. The marked stimulatory effect of DuP 753 release precludes characterization of the receptor subtype that mediates the Ang II-induced release of prostacyclin. Nonetheless, potent stimulation of prostacyclin release by DuP 753, especially in vascular smooth muscle cells, requires reevaluation of the mechanisms that participate in the anti-hypertensive effects of the compound.
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PMID:The nonpeptide angiotensin II antagonist DuP 753 is a potent stimulus for prostacyclin synthesis. 204 99

The metabolism of angiotensin (Ang) peptides was studied in NG108-15 neuroblastoma x glioma hybrid cells which express Ang II receptors, renin, dipeptidyl carboxypeptidase A (converting enzyme), as well as Ang I and Ang II. In these experiments, 0.2 nM of either 125I-Ang I or 125I-Ang II was incubated with intact cell monolayers and the medium was analyzed for 125I-products by high performance liquid chromatography. The major product generated from the metabolism of labeled Ang I or Ang II was identified as the amino-terminal heptapeptide Ang-(1-7). N-benzyloxycarbonyl-prolyl-prolinal (ZPP), a specific inhibitor of prolyl endopeptidase, inhibited the formation of Ang-(1-7) from Ang I by 35%. Complete inhibition of Ang-(1-7) generation was attained with p-chloromercuriphenyl-sulfonate, which suggests that a sulfhydryl-containing peptidase other than prolyl endopeptidase is also involved in Ang-(1-7) formation. Ang II was observed to be a minor product resulting from Ang I metabolism. Although the converting enzyme inhibitor enalaprilat (MK-422) significantly reduced Ang II formation, it had no effect on the levels of Ang-(1-7). These findings demonstrate a preferential processing of Ang I into Ang-(1-7) which is not dependent on the prior formation of Ang II.
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PMID:Processing of angiotensin peptides by NG108-15 neuroblastoma x glioma hybrid cell line. 216 36

Anomalous binding properties of angiotensin II to fetal rat brain primary cultures suggested a possible contribution from contaminating glia. To investigate this possibility, cultures of C6 glioma, a clonal rat cell line, were examined for the presence of angiotensin II receptors. A specific high-affinity site for [125I]angiotensin II was measured both by traditional methodology using whole cells and by autoradiography. This site shared properties similar to that found with the brain cells, namely low ligand internalization and markedly decreased affinity for N-terminal sarcosine or arginine-angiotensin analogs. The competition rank order was angiotensin II much greater than (Sar1,Ile8)angiotensin II greater than or equal to des(Asp1,Arg2)angiotensin II. Angiotensin III did not compete for binding to the site. High-pressure liquid chromatography analysis indicated that the ligand either in the incubation or bound to the site was stable at 15 degrees C, but there was very rapid and extensive degradation by the C6 glioma cells at 37 degrees C. It is concluded that the site exhibits unusual N-terminal specificity for angiotensin with nanomolar affinity for angiotensin II. If angiotensin III is an active ligand in the brain, the site may have a converting enzyme function. Alternatively, it may form the des-Asp derivatives of angiotensin for subsequent degradation by other enzymatic pathways. Either way, it is proposed that the site may modulate the brain-angiotensin system.
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PMID:A glial high-affinity binding site with specificity for angiotensin II not angiotensin III: a possible N-terminal-specific converting enzyme. 243 94

Cells of the homogeneous hybrid line neuroblastoma x glioma (NG108-15) have many neuronal properties. Immunocytochemical tests show that they contain both immunoreactive renin and angiotensin; direct radioimmunoassays show that they are positive for renin, angiotensin I, and angiotensin II; enzymatic assays show that they contain angiotensinogen and converting enzyme as well. The renin appears to be present in an enzymatically inactive form that can be activated by trypsin and then blocked by antiserum to purified mouse submaxillary renin. Renin concentration and activity are increased by enhancing cellular differentiation with dibutyryl cyclic adenosine monophosphate or by serum withdrawal. These findings demonstrate a complete renin-angiotensin system within these neuron-like cells, and suggest that activation of intracellular renin could generate angiotensin II.
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PMID:Renin and angiotensin: the complete system within the neuroblastoma x glioma cell. 627 92

Twenty years ago it was demonstrated that angiotensin II (Ang II) acts on the brain, which results in an elevation of blood pressure. Ten years later, reninlike activity was discovered in the brain of the rat and dog, which gave rise to the concept of an endogenous brain renin-angiotensin system. In the periphery, the kidney, liver, and lungs work in unison to produce Ang II. Evidence for brain renin, substrate, converting enzyme, and angiotensins is reviewed. New data indicate that the enzyme system for the synthesis of Ang II within the brain may in fact be contained in the cell. All the components for a renin-angiotensin system have now been found in neuroblastoma/glioma cell lines and Ang II is present in primary cell culture of rat brain neurons. The significance of angiotensin in the brain for hypertension is that it may be a stimulus for vasopressin release and sympathetic activation, which can maintain high blood pressure. In the spontaneously hypertensive rat, there is evidence of increased brain angiotensin. Also, experiments with angiotensin-converting enzyme inhibitors show that blockade of brain angiotensin production leads to a long-lasting lowering of blood pressure. The activity of the inhibitors in part appears to be directly on the brain.
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PMID:New evidence for brain angiotensin and for its role in hypertension. 630 29

The N-methyl-D-aspartate (NMDA) receptor has been reported to be important in synaptic plasticity, neuronal development, normal brain function and neurologic disease. We have recently shown that PC12W cells, a subclone of rat pheochromocytoma PC12 cell line, release nitric oxide (NO), as measured by in vitro spin-trapping combined with electron paramagnetic resonance (EPR) spectroscopy, when challenged with NMDA [Norby, S.W., Weyhenmeyer, J.A. and Clarkson, R.B., Stimulation and inhibition of NO production in macrophages and neuronal cells as observed by spin trapping, Free Rad. Biol. Med., 22 (1997) 1-9]. In the present study, we provide immunochemical evidence for the expression of both the NMDAR1 and NMDAR2A/B receptor subunits in PC12W cells, that express only the angiotensin type-2 (AT2) receptor subtype, and in NG108-15 (NG108) cells, a murine neuroblastoma x glioma hybrid that expresses both the angiotensin type-1 (AT1) and AT2 receptor subtypes. We also show that treatment of PC12W cells with angiotensin (Ang II) decreases NMDA-induced NO release by 28.0 +/- 4.2%, and that this response can be attenuated by pre-treating the cells with the isoform-specific AT2 antagonist, PD 123319. Interestingly, there was no effect on cGMP accumulation in PC12W cells treated with NMDA. Similar experiments were carried out using NG108 cells since the binding properties and functional characteristics of their NMDA receptors have been previously described [Ohkuma, S., Katsura, M., Chen, D., Chen, S. and Kuriyama, K., Presence of N-methyl-D-aspartate (NMDA) receptors in neuroblastoma x glioma hybrid NG 108-15 cells-analysis using 45Ca2+ influx and [3H]MK-801 binding as functional measures, Mol. Brain Res. 22 (1994) 166-172]. Our results show that NG108 cells significantly increase cGMP levels when challenged with NMDA (21.2 +/- 5.0% over control levels), and that this response can be attenuated by the addition of angiotensin (57.1 +/- 6.2% of stimulated levels). The effect of angiotensin on NMDA-mediated changes in cGMP levels was blocked by the AT2 antagonist, PD 123319, but was not significantly changed by the addition of the AT1 antagonist, losartan. Further, Ang II action on NMDA signalling in NG108 cells was completely inhibited by the addition of both the AT1 and AT2 antagonists. Taken together, these results suggest that AngII inhibits NMDA-mediated NO and cGMP production through a mechanism involving the AT2 receptor subtype.
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PMID:Angiotensin II type-2 (AT2) receptor-mediated inhibition of NMDA receptor signalling in neuronal cells. 933 16

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