UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Studies were undertaken to further elucidate the mechanism(s) by which bradykinin-dependent phosphoinositide metabolism takes place in neuroblastoma X glioma hybrid NG108-15 cells [(1984) J. Biol. Chem. 259, 10201-10207] using [3H]inositol-labelled cells. Bradykinin produced net increases in the level of [3H]inositol phosphates, especially of [3H]inositol trisphosphate which is formed transiently and most rapidly. The results indicate that bradykinin activates a phosphodiesterase to break down phosphatidylinositol 4,5-bisphosphate, generating two recently recognized intracellular messengers, 1,2-diacylglycerol and inositol trisphosphate.
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PMID:Bradykinin-induced transient accumulation of inositol trisphosphate in neuron-like cell line NG108-15 cells. 285 60

Bradykinin analogues with specific antagonist activity in several bioassays were evaluated for effects on [3H]-bradykinin receptor binding sites and inositol phosphate production in neuroblastoma N1E-115 cells. The analogues varied in their affinities for bradykinin receptors in guinea-pig ileum and N1E-115 cell membranes, in their effects on uterine and ileal contractions and in their agonist or antagonist activity on phosphoinositide turnover in N1E-115 cells. These tissue specific effects suggest the presence of multiple bradykinin receptor subtypes.
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PMID:Bradykinin analogues: differential agonist and antagonist activities suggesting multiple receptors. 290 38

Bradykinin acts on the dorsal root ganglion X neuroblastoma hybrid cell line F-11 to stimulate the rapid elevation of inositol trisphosphate (IP3) and intracellular calcium. We now show an equally rapid release of arachidonyl labeled diacylglycerol (DAG), (243 +/- 32% of control). This first peak of diacylglycerol production was inhibitable by either pretreatment with 200 ng/ml of pertussis toxin overnight or by 10 nM tetradecanoylphorbol acetate (TPA). In addition, a second, more sustained release occurred, plateauing at approximately five minutes (304 +/- 16%). The second peak of DAG was unaffected by these TPA or pertussis pre-incubations. Simultaneous analysis of inositol-labeled phospholipids showed that the initial IP3 and DAG peaks corresponded to initial decreases in phosphoinositides PIP2 and PIP whereas PI increased slightly over this same time period. In contrast, at 5-30 minutes, PIP2 and PIP returned to normal levels, but PI gradually decreased to 75% of control values. Likewise, TPA blocked this early PIP and PIP2 breakdown, but had no effect on the delayed breakdown of monophosphatidylinositol (PI). Bradykinin also induced an equally rapid increase in lysophosphatidyl inositol (lyso-PI) with a peak around 10-30 seconds, and a second more sustained peak after 10 minutes. This production of lyso-PI was not affected by prior treatment with TPA or pertussis toxin. The initial and the sustained phases of diacylglycerol production probably result from different biochemical mechanisms and/or substrates.
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PMID:Bradykinin induces the bi-phasic production of lysophosphatidyl inositol and diacylglycerol in a dorsal root ganglion X neurotumor hybrid cell line, F-11. 325 33

Bradykinin (BK) activation of phosphatidylinositide breakdown in NG108-15 neuroblastoma x glioma hybrid cells in the generation of an outward K+ current through the release of Ca2+ by the intermediary messenger inositol 1,4,5-trisphosphate (InsP3). Channels mediating this outward current were identified using cell-attached patch electrodes. Intracellular iontophoretic injection of InsP3 or Ca2+, or extracellular application of BK, evoked bursts of K+ channel activity coincident with cell hyperpolarization measured with an intracellular recording micropipette. The most frequent channels had a mean single-channel conductance of about 40 pS in symmetrical K+ solutions; additional openings of lower conductance (18 pS) channels were also detected. Bath application of phorbol dibutyrate (PDBu, 1 microM) increased the number and opening probability of the InsP3-induced channels.
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PMID:Ca2+-dependent K+ channels in neuroblastoma hybrid cells activated by intracellular inositol trisphosphate and extracellular bradykinin. 326 38

In the mouse neuroblastoma x dorsal root ganglion hybrid cell line F-11, bradykinin receptor stimulation induced the release of inositol-1,4,5-trisphosphate (IP3) and inositol-1,4-bisphosphate (IP2). Maximal stimulation of [2-3H]IP3 and [2-3H]IP2 release by bradykinin in the absence of LiCl occurred at 7 (or less) and 15 s, respectively, with average levels of 5.7-(IP3) and 3.4-(IP2) fold of control values. The EC50 for bradykinin was 33 +/- 5 nM. IP3 and IP2 concentrations returned to basal levels approximately 1 min after bradykinin addition. Bradykinin-induced IP3 release was blocked by several novel bradykinin analogues. In particular, [D-Arg0]-Hyp3-Thi5,8-[D-Phe7]-bradykinin [Hyp, hydroxyproline; Thi, beta-(2-thienyl)-L-alanine] blocked IP3 production in a dose-dependent fashion. Several of these analogues alone showed little or no agonist activity. The bradykinin receptor may be coupled to phospholipase C via a GTP-sensitive protein (Gi or Go), as preincubation for 18-20 h with pertussis toxin decreased IP3 concentrations by 45%. Bradykinin is also known to modulate the concentrations of other second messengers in neurons, increasing the concentrations of Ca2+, diacylglycerol (DG), and cyclic GMP and decreasing the concentration of cyclic AMP. These second messengers modulated bradykinin-dependent IP3 release to varying degrees. A23187, a Ca2+ ionophore, produced a 37% decrease in IP3 concentration. 12-O-Tetradecanoylphorbol-13-acetate, which mimics the effects of DG and activates protein kinase C, inhibited IP3 release by 80%. Dibutyryl cyclic GMP produced little or no inhibition of IP3. [D-Ala2,D-Leu5]Enkephalin (DADLE), an opioid peptide that decreases cyclic AMP concentrations, likewise had no effect.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation of bradykinin-induced inositol trisphosphate release in a novel neuroblastoma x dorsal root ganglion sensory neuron cell line (F-11). 349 4

Two cell culture systems were used for studies of neural functions in vitro. A neuronal hybrid cell line (neuroblastoma x glioma hybrid cells) and primary glial-rich cultures of newborn murine brain. The level of cyclic AMP in both systems is regulated by two groups of hormones, those that stimulate and those that inhibit formation of cyclic AMP. Among the inhibitory hormones active on the hybrid cells are opioids. Therefore the cells are being used in the elucidation of action of opioids. The list of stimulating and inhibitory hormones regulating the primary glial-rich cultures includes several peptide hormones such as the gastrointestinal peptides secretin and vasoactive intestinal peptide, the calcaemic hormones parathyrin and calcitonin, adrenocorticotropin and melanotropins, and somatostatin. Noradrenaline (via alpha- and beta-adrenergic receptors) and adenosine (via A1 and A2 receptors) inhibit and stimulate cyclic AMP synthesis in the primary glial-rich cultures. Bradykinin slowly hyperpolarizes the hybrid cells and elicits formation of cyclic GMP. Both responses desensitize rapidly. Substance P increases the permeability of hybrid cells for Na+, as measured by using 14C-guanidinium as substitute for Na+. Hybrid cells actively accumulate taurine, an amino acid that appears to fulfill important functions in the nervous system. The transport of taurine across the plasma membrane is highly specific for and strictly dependent on Na+. The pumped station hypothesis of taurine action in the nervous system views taurine gradient plus taurine carrier as a transport system for the elimination of sodium from neurons during phases of high neuronal activity.
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PMID:Cell culture as models for studying neural functions. 608 74

External application of bradykinin to neuroblastoma X glioma hybrid NG108-15 cells produced a sustained depolarization preceded by a transient hyperpolarization. Bradykinin also increased the frequency of miniature end-plate potentials recorded from cultured striated muscle cells which had been innervated by NG108-15 cells. Parallelism between facilitative phases of miniature end-plate potentials and depolarization indicates that bradykinin caused an enhanced synaptic transmission from NG108-15 cells due to depolarization. Effects of bradykinin on phospholipid metabolism in the hybrid cells were then examined to shed light upon the mechanism by which bradykinin-receptor interaction leads to facilitation of synaptic transmission. Bradykinin induced specific incorporation of 32Pi into phosphatidic acid and phosphatidylinositol without affecting [3H]glycerol incorporation into these phospholipids by 10 min after its addition. The addition of bradykinin to hybrid cells prelabeled with 32Pi caused a transient decrease (maximal effect seen at 10-30 s) in the radioactivity from phosphatidylinositol 4,5-bisphosphate (PI-4,5-P2) which was followed by the accumulation of radioactivity in phosphatidic acid and phosphatidylinositol. A Ca2+ ionophore, A23187, failed to induce the initial degradation of PI-4,5-P2. The data show that the magnitudes of bradykinin-induced PI-4,5-P2 degradation and membrane potential changes in NG108-15 cells are both dependent on the concentration of bradykinin and that the degradation of PI-4,5-P2 precedes the electrophysiological responses. Taken together with the finding that bradykinin induced a transient increase in Ca2+ influx (at 10-20 s), it appears that a rapid and transient degradation of PI-4,5-P2 might be related to the initiation of the NG108-15 cell activities through mobilization of extracellular Ca2+ into the cells.
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PMID:Bradykinin-induced rapid breakdown of phosphatidylinositol 4,5-bisphosphate in neuroblastoma X glioma hybrid NG108-15 cells. 608 87

A clone of murine neuroblastoma (N1E-115) was shown to have functional receptors for the nonapeptide bradykinin. These receptors mediated a large, rapid (about 1 min to peak) and calcium-dependent increase in cyclic GMP. The median effective concentration (EC50) averaged 1.4 nM. In addition, this event was inhibited by quinacrine, 5,8,11,14-eicosatetraynoic acid, and nordi-hydroguaiaretic acid, suggesting involvement of phospholipase A2 with subsequent formation of lipoxygenase metabolities of arachidonic acid. [3H]Bradykinin binding to intact cells, investigated under conditions nearly identical to those used in the cyclic GMP assay, yielded binding sites with KDS of 0.83 pM, 1.0 nM, and 4.9 nM with respective Bmax values of 12, 160, and 250 fmol/10(6) cells. Apparently, the cyclic GMP response was associated with the binding site in which the KD = 1.0 nM. Peptide analogs of bradykinin stimulated cyclic GMP with EC50S nearly identical to their respective KDS determined in binding assays with [3H]bradykinin, thus providing evidence for receptor specificity of this response. This finding of a biochemical response of bradykinin promises to make N1E-115 cells a convenient model system for study of neuronal bradykinin receptors.
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PMID:Bradykinin receptor-mediated cyclic GMP formation in a nerve cell population (murine neuroblastoma clone N1E-115). 614 70

The effect of the nonapeptide bradykinin on the membrane potential of permanent cell lines from neural origin was studied. A hyperpolarizing response of 10-30 s duration was produced when bradykinin was iontophoretically applied onto polyploid rat glioma cells (clone C6-4-2). Starting from the resting membrane potential the peak value of the hyperpolarizing response was reached within 0.5-1.5 s. Then the potential returned more slowly to the original value. The hyperpolarization was associated with an approximately 50% decrease in membrane resistance. Neither Na+ nor Cl- seemed to be important for the hyperpolarizing response, since bradykinin elicited similar hyperpolarizations in cells exposed to media in which Na+ or Cl- were replaced by choline or isethionate, respectively. Ca2+ fluxes are unlikely to be involved, since the addition of D600 did not affect the hyperpolarizations induced by bradykinin. However, a 10-fold increase in the concentration of K+ in the medium reduced the amplitude of the hyperpolarization by 40 mV. Thus, the hyperpolarization induced by bradykinin is associated with decrease in membrane resistance which is likely to be caused by an increased K+-conductance. The glioma cells showed a desensitization upon repeated application of bradykinin. However, the sensitivity of the cells to bradykinin was restored after 3-8 min of incubation in the absence of bradykinin. Since an antagonist of bradykinin is not known, the specificity of the action of bradykinin is difficult to assess. Nevertheless, the hyperpolarizing response to bradykinin appears to be specific insofar as other peptides, i.e. lutoliberin, thyroliberin, neurotensin, substance P and apamin, exerted no effect on the membrane potential of the glioma cells. Bradykinin-elicited hyperpolarizations with characteristics similar to those described above could also be demonstrated in neuroblastoma X glioma hybrid cells, but not in multinucleated fibroblast cells.
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PMID:Bradykinin induces hyperpolarizations in rat glioma cells and in neuroblastoma X glioma hybrid cells. 709 75

Confocal fluorescence microscopy was used to study the bradykinin-induced calcium signals in the neuroblastoma x glioma cell line NG 108-15. We found that bradykinin induced a rise in free calcium, not only in the cytoplasm but also in the nucleus. The nuclear and cytosolic calcium concentrations were not significantly different and rose to about 1.2 microM. The signal was mediated by the B2-receptor subtype as confirmed using the specific antagonist Hoe 140. Both the onset and the intensity of the calcium signals were concentration-dependent. The rise of nuclear calcium level was independent of extracellular calcium and suppressed by thapsigargin which is known to deplete inositol 1,4,5-trisphosphate-sensitive calcium stores. Bradykinin-induced calcium increase desensitizes rapidly. This desensitization was shown not to involve activation of protein kinase C.
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PMID:Bradykinin induces rise of free calcium in nuclei of neuroblastoma x glioma hybrid NG 108-15 cells. 760 11

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