Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Angiotensin II (ANG II) is the primary mediator of the renin-angiotensin system, which has an important functional role in cardiovascular homeostasis. The angiotensin receptor and its functional correlates have been redefined by the cloning of angiotensin receptors and the discovery and widespread study of specific nonpeptide ANG II-receptor antagonists losartan (AT1 selective) and PD123177 (AT2 selective). With these antagonists, it has been possible to extend the concept of ANG II-receptor heterogeneity to virtually every tissue and species. The losartan-sensitive sites have been shown to mediate all of the major ANG II-induced biologic effects, including vasoconstriction, aldosterone and catecholamine release, and central, ANG II-induced drinking behavior. The function of the AT2 site is not fully understood, but it may be involved in neuronal ion channel modulation and in fibroblast collagen metabolism. The presence of AT2 sites in fetal tissues and in discrete locations in the brain has encouraged continued research. Losartan, which represents the first of a new class of therapeutic agents, is currently undergoing clinical trials. A growing number of other AT1-selective ANG II-receptor antagonists are under development, including L-158,809, SKF 108566, and GR117285. Rat AT1-receptor subtypes have been cloned and sequenced (AT1A and AT1B). Human ANG II receptors have also been cloned and shown to have high affinity for losartan. A number of atypical angiotensin-binding sites have been identified from mycoplasma, amphibians, and mouse neuroblastoma, which are not sensitive to either losartan or PD123177.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II receptors and functional correlates. 129 Jun 17

Angiotensin II (AngII) elicited a rapid and dose-related production of intracellular cyclic GMP (cGMP) in murine neuroblastoma N1E-115 cells. The agonist-induced rise in cGMP levels was blocked in a monophasic fashion by the AT1-selective antagonist DuP 753 or the nonselective antagonist [Sarc1,Ile8]-AngII, and both antagonists produced complete inhibition of the cGMP response elicited by submaximal concentrations of AngII. In contrast, the AT2-selective antagonist CGP 42112A inhibited the cGMP response biphasically. At lower antagonist concentrations, agonist-induced cGMP production was only partially inhibited, whereas complete inhibition was observed only when the concentration of CGP 42112A was increased sufficiently to interact with both AT1 and AT2 receptor subtypes. AngII also increased inositol trisphosphate (InsP3) levels in N1E-115 cells. However, the InsP3 response was mediated exclusively by the AT1 receptor subtype because it was inhibited by lower, AT1-selective concentrations of DuP 753, whereas only higher, nonselective concentrations of CGP 42112A were effective. Finally, the stimulatory effects of AngII on cGMP production appeared to be mediated by the intracellular formation of nitric oxide in that they were attenuated by the nitric oxide synthase inhibitor, N-monomethyl-L-arginine. Collectively, these results suggest that the AngII-elicited rise in cGMP levels may require an interaction between AT1-mediated mobilization of intracellular Ca2+, as well as some partial role of AT2 receptors.
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PMID:Angiotensin-induced cyclic GMP production is mediated by multiple receptor subtypes and nitric oxide in N1E-115 neuroblastoma cells. 131 56

In vitro differentiation of the mouse neuroblastoma-rat glioma hybrid cell line, NG-108-15, with dimethyl sulphoxide (1.5%) and low serum (0.5%), produced a marked increase in the number of angiotensin II receptors, from a level at the limit of sensitivity using labelled angiotensin II with a high specific activity ([125I]angiotensin II), in undifferentiated cells, to a Bmax of 1077 (1070-1268) fmol/mg in 5-day-differentiated cells. The affinity (Kd) of radiolabelled angiotensin II for the receptors in differentiated cells was 8.1 (7.5-10) nM. The recently available selective non-peptide antagonists, DuP 753 and PD 123177 and the peptide analogues of angiotensin II, CGP 42112A and p-aminophenylalanine6 angiotensin II, were used to characterize the angiotensin II receptors by competing for 125I-[Sar1-Ile8]angiotensin II binding to membranes prepared from undifferentiated and differentiated cells. The predominant angiotensin II receptor subtype expressed by undifferentiated cells was AT1 and after differentiation AT2. This change in receptor expression was evident 2 days after initiation of differentiation, was maximal at 4-5 days and was stable for at least 8 days. Administration of angiotensin II induced intracellular Ca2+ mobilization in both undifferentiated and differentiated cells. This was antagonised by the selective AT1 antagonist, DuP 753, indicating an action at the AT1 receptor subtype in both undifferentiated and differentiated cells. The selective AT2 antagonist, PD 123177 was without effect on the angiotensin II induced increase in intracellular Ca2+. This effect of DuP 753 on Ca2+ was specific for angiotensin II since the drug had no effect on bradykinin induced increases in intracellular Ca2+.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Induction of the angiotensin AT2 receptor subtype expression by differentiation of the neuroblastoma x glioma hybrid, NG-108-15. 155 12

Specific binding site for 125I-angiotensin II (Ang II), with unique pharmacological properties uncommon to the hitherto recognized receptor subtypes, was observed in mouse neuroblastoma cells (Neuro-2A). Differentiation of the cells with 100 nM PGE1 resulted in a 10-fold increase in the number of Ang II binding sites without changing the binding affinity (Kd value: 12.0 nM). 125I-Ang II binding to membranes of differentiated Neuro-2A was inhibited by unlabeled Ang II with a Ki value of 7.06 +/- 1.09 nM but not by Ang III (1 microM). Both AT1 antagonist, Dup753, and AT2 antagonist, PD123319, failed to inhibit 125I-Ang II binding at 1 microM. 125I-Ang II binding was not affected by GTP analogs such as GTP gamma S and Gpp(NH)p. These results suggest that Neuro-2A cells possess a binding site for Ang II which is different from the presently known subtypes of Ang II receptors, and that the number of the binding site is regulated by cell differentiation.
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PMID:Identification and characterization of a new binding site for angiotensin II in mouse neuroblastoma neuro-2A cells. 173 96

The presence of specific AII receptors in 6 different human neuroblastoma cell lines was investigated using binding, cAMP and [Ca2+]i studies. We found high affinity (0.1 nM), low capacity ((1-2).10(3) sites/cell) binding sites for [125I](Sar-1,Ile-8)AII in one half of the cell lines studied. In the positive cell lines mathematical modeling of multiple competition curves among AII and analogs strongly indicated the presence of a homogenous class of sites, i.e., AT1 receptors. The presence of AT1 receptors was further substantiated by AII-induced inhibition of VIP-stimulated cAMP levels and by AII-evoked [Ca2+]i transient. The density of AT1 receptors in neuroblastoma cells was not affected by treatment with pertussis toxin and retinoic acid but was significantly increased by subacute treatment with VIP. In neuroblastoma cells, AII does not stimulate DNA synthesis, suggesting other roles rather than mitogenesis. Neuroblastoma cells represents an interesting model to investigate the function of AII in neural crest derived tissues.
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PMID:Identification and characterization of functional angiotensin II receptors in human neuroblastoma cells. 765 93

The murine neuroblastoma N1E-115 cell line possesses a high density of angiotensin II (AngII) receptors that can be solubilized with the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate. These solubilized binding sites exhibited high affinity for CGP-42112A and not Losartan, indicating that they were of the AT2 subtype. However, displacement of 125I-AngII with the AT2 nonpeptide antagonist PD-123319 resulted in a biphasic curve, suggesting heterogeneity of the AT2 receptor population in N1E-115 cells. In support of this view, separation of two receptor populations was accomplished with heparin-Sepharose chromatography. More specifically, three distinct protein peaks eluted from the heparin-Sepharose column, two of which bound 125I-AngII with high affinity and saturability. One of these binding peaks (peak I) eluted rapidly and represented approximately 80% of the total binding activity, whereas the remaining binding activity was contained within a second peak (peak III) that required the addition of 1.5 M NaCl for its complete elution. Pharmacological analysis revealed that both peaks of binding activity were exclusively AT2 receptors insofar as they exhibited high affinity for CGP-42112A and little or no affinity for the AT1-selective antagonist Losartan. However, whereas the nonpeptidic AT2-selective antagonist PD-123319 completely displaced the binding of 125I-AngII from peak I in a monophasic fashion (IC50 = 9.1 +/- 4.1 nM; mean +/- SEM; n = 3), PD-123319 was much less effective in displacing 125I-AngII from peak III (IC50 = 196 +/- 27 nM; mean +/- SEM; n = 3). Treatment of individual peaks with the reducing agent dithiothreitol caused a large increase in 125I-AngII specific binding in peak III, whereas a decrease in binding was observed in peak I. Moreover, GTP gamma S significantly reduced high-affinity agonist binding in peak I but not peak III, further suggesting heterogeneity in the AT2 receptor family. Finally, immunoblotting studies with polyclonal antisera raised against peak I specifically detected two proteins of 110 and 66 kDa, as is true in crude solubilized membranes, whereas no immunospecific proteins were detected in peak III. These same antisera immunoprecipitated 125I-AngII binding activity in peak I but were ineffective in peak III. Collectively, these results suggest that heparin-Sepharose chromatography can efficiently separate two pharmacologically, biochemically and immunologically distinct populations of AT2 receptors.
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PMID:Biochemical characterization of two distinct angiotensin AT2 receptor populations in murine neuroblastoma N1E-115 cells. 818 20

The murine neuroblastoma N1E-115 cell line possesses type 1 and type 2 angiotensin II (AngII) receptor subtypes. In vitro differentiation of these cells substantially increases the density of the AT2-receptor subtype, whereas the density of the AT1 receptors remains unchanged. In the present study, we report that the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate (CHAPS) selectively solubilized AT2 receptors from N1E-115 cell membranes and that these receptors could be purified further to near homogeneity by affinity chromatography. More specifically, the presence of an agonist (AngII) during affinity purification of AT2 receptors resulted in the elution of high (110-kDa) and low (66-kDa) molecular mass proteins as determined by gel electrophoresis under nonreducing conditions. In contrast, when the nonselective antagonist Sar1,Ile8-AngII was used during purification, only the lower 66-kDa protein was observed. Affinity purification in the presence of the peptide and nonpeptide AT2-receptor antagonists CGP42112A and PD123319 also resulted in elution of the same 66-kDa protein, but unlike that in the presence of Sar1,Ile8-AngII, some of the high molecular weight site was observed as well. On the other hand, Losartan, an AT1-receptor antagonist, was completely ineffective in eluting any AngII receptors from the affinity column, further confirming their AT2 identity. After agonist elution, the 110-kDa band dissociated into two low molecular mass bands of 66 kDa and 54 kDa when sodium dodecyl sulfate-gel electrophoresis was run under reducing conditions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Affinity purification of angiotensin type 2 receptors from N1E-115 cells: evidence for agonist-induced formation of multimeric complexes. 826 26

Murine neuroblastoma N1E-115 cells are a useful system in which to study neuronal angiotensin II (AngII) receptors. N1E-115 cells possess both type 1 (AT1) and type 2 (AT2) AngII receptor subtypes, as does mammalian brain. AT2 receptors in brain or N1E-115 cells can be solubilized in 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate. In the present study, heparin-Sepharose chromatography was used to partially purify solubilized N1E-115 membranes to produce an enriched population of AT2 receptors. Subsequently, an eluted peak, containing the majority of AT2 binding activity, was used as an immunogen in the development of protein-directed polyclonal antibodies. The antibodies specifically detected immunoreactive proteins of approximately 110 and 66 kDa in both solubilized N1E-115 cells, as well as the original protein material that eluted from the heparin-Sepharose column, whereas no such immunoreactivity was detected in a kidney epithelial cell line that lacks any specific 125I-labeled AngII (125I-AngII) binding activity. Moreover, the antibodies immunoreacted with affinity-purified AT2 receptors. These antibodies were also able to immunoprecipitate AT2 receptors from solubilized N1E-115 cells, as revealed by the pharmacologic profile of 125I-AngII binding to the precipitated protein. Similarly, the antibodies were able to immunoprecipitate a 66-kDa protein that had been covalently crosslinked with 125I-AngII by use of the homobifunctional crosslinker dithiobis(succinimidyl propionate). Collectively, these results demonstrate the development of a specific AT2 receptor antibody that may be used to further characterize this receptor subtype at both the cellular and molecular levels.
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PMID:Development of polyclonal antibodies against angiotensin type 2 receptors. 836 47

Murine neuroblastoma N1E-115 cells possess membranous receptors for the octapeptide angiotensin II (AngII) whose density is substantially increased by in vitro differentiation. Incubation of differentiated N1E-115 cells with AngII produced a rapid decrease in receptor density, but did not alter the affinity of these receptors for either 125I-AngII or the high-affinity antagonist 125I-[Sarc1,Ile8]-AngII. This apparent down-regulation was dose related with an ED50 of 1 nM, and maximal decreases of approximately 90% were obtained with 100 nM AngII. Receptor loss from differentiated cell membranes was unaffected by incubations of membranes obtained from agonist-exposed cells with non-hydrolyzable analogues of GTP for 60 min at 37 degrees C to ensure dissociation of the ligand. Partial loss of AngII receptors was apparent within 5 min of agonist exposure, whereas maximal declines were not observed until 30 min. This temporal pattern resulted from a preferential decrease in the AT1 receptor subtype during the first 5 min, followed by a decline in both AT1 and AT2 receptors with longer periods of agonist exposure. The loss of membranous receptors was reversible with partial recovery observed after 4 h, and with nearly full recovery observed 18 h after exposure of the cells to AngII. However, the long-term recovery of receptor density was blocked by the protein synthesis inhibitor, cycloheximide. The heptapeptide angiotensin III produced a similar down-regulation of receptors, and the high-affinity antagonist [Sarc1,Thr8]-AngII blocked agonist-induced down-regulation. Finally, the apparent loss of cell surface AngII receptors decreased the ability of AngII to stimulate cyclic GMP production within intact N1E-115 cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Down-regulation of angiotensin II receptor subtypes and desensitization of cyclic GMP production in neuroblastoma N1E-115 cells. 838 Jan 93

This laboratory has previously reported that angiotensin II is a growth factor for human SH-SY5Y neuroblastoma cells, and that a variety of converting enzyme inhibitors and angiotensin II antagonists reduce thymidine incorporation into the DNA of these cells. In the present study, insulin, at 5 micrograms/mL, was found to stimulate thymidine incorporation in SH-SY5Y cells. The insulin effect was only partially inhibited by the converting enzyme inhibitors enalapril, quinapril, and quinaprilat, whereas it was markedly or totally blunted by the angiotensin II antagonists DuP753 and PD123177. In additional studies, IGF-1 (50 ng/mL) significantly stimulated thymidine incorporation into these cells in a fashion indistinguishable from that of insulin. Taken together, these studies are consistent with the suggestion that insulin at high concentrations and IGF at low concentrations enhance the proliferative response of these cells to angiotensin II. The differential effects of converting enzyme inhibition and angiotensin II antagonism on cell proliferation could be explained if converting enzyme inhibition results in low, but effective, levels of angiotensin II in the culture medium, whereas the angiotensin II antagonists effectively block angiotensin II at its receptor. Finally, in this system, both the AT1 receptor blocking agent DuP 753 and the AT2 receptor blocking agent PD123177 appear to be effective.
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PMID:The interaction of insulin and angiotensin II on the regulation of human neuroblastoma cell growth. 846 92


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