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)

Dopamine inhibits and serotonin stimulates adenylate cyclase activity in a neuroblastoma X Chinese hamster brain explant cell line (NCB-20). The inhibition of cyclic AMP accumulation by dopamine was blocked by pretreatment of the cells with pertussis toxin. Carbachol and bradykinin stimulated the accumulation of water-soluble inositol phosphates whereas thyrotropin-releasing hormone, vasopressin, neurotensin, and phenylephrine were without effect. Dopamine and serotonin had no significant effect on carbachol-induced phosphoinositide hydrolysis or the levels of the parent lipids within the membrane. Forskolin induced a much larger stimulation of cyclic AMP than did serotonin, and caused an increase in the levels of phosphatidylinositol-4-phosphate and phosphatidyl inositol-4,5-bisphosphate in the cell membrane.
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PMID:Activation of dopamine receptors does not affect phosphoinositide turnover in NCB-20 cells. 303 93

Receptor-mediated cyclic GMP formation in N1E-115 murine neuroblastoma cells appears to involve oxidative metabolism of arachidonic acid. Evidence in support of this includes the blockade of this response by lipoxygenase inhibitors, e.g., eicosatetraynoic acid (ETYA) or other metabolic perturbants, e.g., methylene blue. It was recently discovered that the lipoxygenase products 15-hydroxyeicosatetraenoic (15-HETE) acid and 12-HETE, like ETYA, were inhibitors of M1 muscarinic receptor-mediated cyclic GMP formation. In the present report, the effects of monoHETEs are explored in more detail, particularly with regard to the function of the muscarinic receptor. Like 12-HETE and 15-HETE (IC50 = 13 and 11 microM, respectively), 5-HETE inhibited the cyclic GMP response to the muscarinic receptor (IC50 = 10 microM). All three of these monoHETEs were shown also to be inhibitors of the cyclic GMP responses to receptors stimulated by carbachol, histamine, thrombin, neurotensin, and bradykinin. 15-HETE was shown to inhibit the muscarinic receptor-mediated response in a complex manner (apparent noncompetitive and uncompetitive components; IC50 = 18 and 2 microM, respectively). 15-HETE did not inhibit either the M1 muscarinic receptor-stimulated release of [3H]inositol phosphates from cellular phospholipids or the M2 muscarinic receptor-mediated inhibition of hormone (prostaglandin E1)-induced AMP formation. It seemed possible that the monoHETEs could enter into biochemical pathways for arachidonate in N1E-115 cells. [3H]Arachidonate and the three [3H]-monoHETEs all rapidly labeled the membrane lipids of intact N1E-115 cells, with each [3H]eicosanoid producing a unique labeling profile. [3H]15-HETE labeling was noteworthy in that 85% of the label found in the phospholipids was in phosphatidylinositol (PI;t1/2 to steady state = 3 min). Exogenous 15-HETE inhibited the labeling of PI by [3H]arachidonate (IC50 = 28 microM) and elevated unesterified [3H]arachidonate levels. Thus, the mechanism of blockade of receptor-mediated cyclic GMP responses by monoHETEs is likely to be more complex than the simple inhibition of cytosolic mechanisms, e.g., generation of a putative second messenger by lipoxygenase, and may involve also alterations of membrane function accompanying the redistributions of esterified arachidonate.
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PMID:Blockade of receptor-mediated cyclic GMP formation by hydroxyeicosatetraenoic acid. 303 24

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

1. The role of inositol 1,4,5-trisphosphate (InsP3) and diacylglycerol (DAG) as possible mediators of the membrane current responses of NG108-15 neuroblastoma x glioma hybrid cells to bradykinin (BK, Brown & Higashida, 1988b) has been tested using intracellular ionophoresis of InsP3 and external application of phorbol dibutyrate (PDBu) and 1-oleoyl-2-acetylglycerol (OAG). 2. Intracellular ionophoresis of InsP3 into cells clamped at -30 to -50 mV produced (i) a transient outward current, (ii) a transient outward current followed by an inward current, or (iii) an inward current. All currents were accompanied by an increased input conductance. 3. The transient outward current reversed at between -80 and -90 mV. The reversal potential was shifted to more positive potentials on raising extracellular [K+], suggesting that it resulted from an increased K+ conductance. 4. The outward current was inhibited by apamin (0.4 microM) or d-tubocurarine (0.2-0.5 mM); these drugs also inhibit the outward current produced by BK or by intracellular Ca2+ injections (Brown & Higashida, 1988 a, b). The outward current was also slowly reduced in 0 mM [Ca2+] or 0.5 mM [Cd2+] plus 2 mM [Co2+] solution. 5. Ionophoretic injection of inositol 1,3,4-trisphosphate and inositol 1,3,4,5-tetrakisphosphate, guanosine trisphosphate or inorganic phosphate did not evoke an outward current but produced only an inward current with an increased conductance, reversing at between -10 and -20 mV. 6. Bath application of PDBu (10 nM-1 microM) or OAG (1-10 microM) produced an inward current with a fall in input conductance. The inward current was voltage dependent and was accompanied by an inhibition of the time-dependent current relaxations associated with activation or deactivation of the voltage-dependent K+ current, IM. 7. PDBu did not clearly reduce the Ca2+ current or the Ca2+-dependent K+ current recorded in these cells. During superfusion with PDBu, the outward current produced by intracellular ionophoresis of InsP3 was greatly enhanced. 8. The results support the view that the two membrane current responses to BK might both result from accelerated membrane phosphatidylinositide hydrolysis. One product, InsP3, releases Ca2+ and activates an apamin-curare-sensitive outward K+ current; this effect is imitated by intracellular InsP3 ionophoresis. The second product, DAG; activates protein kinase C to inhibit the voltage-dependent K+ current IM and generate an inward current; this effect is imitated by external application of PDBu or OAG.
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PMID:Inositol 1,4,5-trisphosphate and diacylglycerol mimic bradykinin effects on mouse neuroblastoma x rat glioma hybrid cells. 326 93

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

The influence of memantine on several properties of a neuronal cell line was tested. The aim was to get some insight into possible mechanisms of action of this drug which is therapeutically applicable in treatment of spasticity, Parkinson's disease, and cerebral coma. In neuroblastoma X glioma hybrid cells, memantine, at micromolar concentrations, blocked the depolarization induced by iontophoretically applied serotonin (5-hydroxytryptamine, 5-HT). In the hybrid cells, receptors of the 5-HT3 type mediated the depolarization, which was frequently accompanied by a series of action potentials. The inhibition by memantine of the serotonin response occurred fast and was completely reversible, irrespective of whether the cell showed a stable membrane potential or spontaneous action potentials. However, memantine did not alter spontaneous or electrically evoked action potential activity in the hybrid cells, and apparently did not block the underlying ionic conductances. Furthermore memantine did not affect either the cation permeability activated by substance P in the hybrid cells or the K+ channel triggered by bradykinin in a glioma cell line. Thus, memantine appears specifically to suppress the ion channel opened by serotonin in the hybrid cells. The interaction of memantine with serotonin receptors and the associated ion channels reported here, might give an important clue, as to a site of action of memantine in the nervous system.
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PMID:Memantine (1-amino-3,5-dimethyladamantane) blocks the serotonin-induced depolarization response in a neuronal cell line. 335 74

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

Addition of bradykinin to mouse N1E-115 neuroblastoma cells evokes a rapid but transient rise in cytoplasmic free Ca2+ concentration ([Ca2+]i). The [Ca2+]i rise is accompanied by a transient membrane hyperpolarization, due to a several-fold increase in K+ conductance, followed by a prolonged depolarizing phase. Pretreatment of the cells with a Ca2+-ionophore abolishes the hormone-induced hyperpolarization but leaves the depolarizing phase intact. The transient hyperpolarization can be mimicked by iontophoretic injection of IP3(1,4,5) or Ca2+, but not by injection of IP3(1,3,4), IP4(1,3,4,5) or Mg2+ into the cells. Instead, IP3(1,3,4) evokes a small but significant membrane depolarization in about 50% of the cells tested. Microinjected IP4(1,3,4,5) has no detectable effect, nor has treatment of the cells with phorbol esters. These results suggest that, while IP3(1,4,5) triggers the release of stored Ca2+ to hyperpolarize the membrane, IP3(1,3,4) may initiate a membrane depolarization.
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PMID:Electrophysiological responses to bradykinin and microinjected inositol polyphosphates in neuroblastoma cells. Possible role of inositol 1,3,4-trisphosphate in altering membrane potential. 349 34

In mouse neuroblastoma x Chinese hamster brain clonal cell line NCB-20, bradykinin (BK) receptor stimulation causes phosphoinositide hydrolysis and release of inositol phosphates. Maximum stimulation (4-fold) of [2-3H]inositol trisphosphate (IP3) release in the absence of Li+ from NCB-20's prelabelled for 20-24 hours with [2-3H]myo-inositol (15 microCi/confluent 60mm dish) occurred after 5-10 seconds of bradykinin exposure, with an EC50 of approximately 100nM. Inositol bisphosphate (IP2) and inositol monophosphate (IP1) also showed increases (2.9-fold and 1.5 fold, respectively), with peaks at 15-20 seconds and 50 seconds, respectively. Under these same conditions, D-Ala2-D-Leu5 enkephalin (DADLE) (10 microM), an opiate agonist with 2nM affinity, gave no stimulation of IP3 release. Furthermore, it did not block BK-initiated release, both when applied simultaneously with BK and when cells were preincubated with DADLE for 100 minutes to lower cyclic AMP levels. These results show that pain-inducing BK has a major acute stimulatory effect on receptor-phospholipase C-coupled IP3 release, the opioid peptide DADLE has no such effect and, DADLE does not block the IP3 release induced by BK.
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PMID:Bradykinin induces a rapid release of inositol trisphosphate from a neuroblastoma hybrid cell line NCB-20 that is not antagonized by enkephalin. 351 43

The concentration of intracellular free calcium ions was measured by spectrofluorometry in suspensions of quin2 loaded neural cell lines: neuroblastoma X glioma hybrid cells (clones 108CC15 and 108CC25) and polyploid rat glioma cells (clone C6-4-2). In these cells, bradykinin elicits a transient increase of the cytosolic Ca2+-activity in a dose-dependent manner (half-maximal effect at about 10 nM). The effect requires the presence of extracellular Ca2+. The time to peak is at most 10 s, the decay to the original level lasts 1 min and is followed by a period of 1-4 min during which Ca2+ activity is slightly below control value. Lys-bradykinin and Met-Lys-bradykinin evoke similar effects as bradykinin, but at concentrations 10 times lower. The cells desensitize upon repeated addition of bradykinin. Under the same conditions des-Arg1-bradykinin, des-Arg9-bradykinin, angiotensin II, substance P, apamin and histamine exerted no influence on the concentrations of free Ca2+. Similar to their effect in neural cell lines, bradykinin and Lys-bradykinin induce in primary astroglia-rich cultures from rat brain an increase in the concentration of cytosolic Ca2+ with the peak reached within 30 s and the decay to the original level lasting approximately 4 min. The significance of this effect of bradykinin on the cytosolic Ca2+-activity is discussed in relation to previous findings that bradykinin in the same cell lines induces a hyperpolarization, a rise of the cyclic GMP level and a breakdown of phosphoinositides.
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PMID:Bradykinin causes a transient rise of intracellular Ca2+-activity in cultured neural cells. 406 82

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