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)

Veratridine or high potassium concentration increased guanosine 3',5'-cyclic monophosphate (cGMP) levels in neuroblastoma cells of clone N1E-115 without affecting levels of adenosine 3',5'-cyclic monophosphate (cAMP). The increases in cGMP appear to be a direct result of the depolarizing action of these agents and not due to the action of substances released from the cells upon depolarization. The increase in cGMP produced by depolarization was dependent upon extracellular calcium and could be prevented by the calcium channel blockers D600 and cobalt. Carbachol, acting on muscarinic acetylcholine receptors, also caused a calcium-dependent increase in cGMP in these cells. The carbachol and potassium effects were additive from 5 to 100 mM potassium and from 1 to 3 mM calcium. The carbachol response was nearly as sensitive as the potassium response to inhibition by D600 but was much less sensitive to inhibition by cobalt. The results suggest that depolarization increases cGMP levels in these cells by opening voltage-sensitive calcium channels and that activation of muscarinic receptors opens separate, voltage-insensitive calcium channels.
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PMID:Voltage-sensitive calcium channels regulate guanosine 3',5'-cyclic monophosphate levels in neuroblastoma cells. 21 20

Both glial and neuronal cells maintained in primary culture were found to accumulate [3H]GABA by an efficient "high-affinity" uptake system (apparent Km = 9 muM, Vmax = 0.018 and 0.584 nmol/mg/min, respectively) which required sodium ions and was inhibited by 1 mM ouabain. Strychnine and parachloromercuriphenylsulfonate (pCS) (both at 1mM) also strongly inhibited uptake of [3H]GABA, but metabolic inhibitors (2,4-dinitrophenol, potassium cyanide, and malonate) were without effect. Only three structural analogs of GABA (nipecotate, beta-alanine, and 2,4-diaminobutyrate) inhibited uptake of [3H]GABA, while several other compounds with structural similarities to GABA (e.g. glycine, L-proline, and taurine) did not interact with the system. The kinetic studies indicated presence of a second uptake (Km = 92 muM, Vmax = 0.124 nmol/mg/min) in the primary cultures containing predominantly glioblasts. On the other hand, only one of the neuronal cell lines transformed by simian virus SV40 appeared to accumulate [3H]GABA against a concentration gradient. Apparent Km of this uptake was relatively high (819 muM), and it was only weakly inhibited by 1 mM ouabain and 1 mM pCS. The structural specificity also differed from that of the uptake observed in the primary cultures. Significantly, non of the nontransformed continuous cell lines of either tumoral (glioma, C6; neuroblastoma, M1; M1NN) or normal (NN;I6) origin actively accumulated [3H]GABA. It is suggested that for the neurochemical studies related to GABA and requiring homogeneous cell populations, the primary cultures offer a better experimental model than the continuous cell lines.
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PMID:High-affinity uptake of gamma-aminobutyric acid in cultured glial and neuronal cells. 22 77

The electrical properties and the possible regulation of these properties were studied by means of intracellular microelectrode recordings in cells of mouse neuroblastoma clone N1E-115. This clone has high levels of tyrosine hydroxylase and regulates this enzyme. Cells treated for 24 h with 4 muM aminopterin followed by at least 5 days in culture developed rhythmic discharge of action potentials when superfused with phosphate-buffered saline containing less than 0.2 mM calcium or less than 0.2 mM calcium and zero potassium. This ionic excitation occurred in no cells at less than 5 days after treatment with aminopterin but at 5 days or more after treatment, 20% of cells responded to low calcium while 52% responded to low calcium and zero potassium. Concomitant with the development of a susceptibility to ionic excitation was an increase in the average resting membrane potential and morphologic maturation. This ionic excitation of cultured mouse neuroblastoma cells may be useful for studying biochemical events associated with repetitive discharge of action potentials.
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PMID:Ionic excitation of a clone of mouse neuroblastoma. 23 72

The authors examined both hard and soft glass evacuated blood-drawing tubes for possible effects on clinical chemistry measurements. Using routine laboratory procedures, no clinically or statistically significant difference could be detected in 34 analytes using 66 different methods. A special high-precision study utilizing an adaption of the NBS round-robin procedures for calcium, magnesium, sodium, and potassium detected no difference between paired sera when drawn or stored for 72 hours, or both, in the two types of glass. The authors conclude that the type of glass used in production of the evacuated blood-drawing tubes does not affect the clinical chemistry results obtained.
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PMID:A comparison of hard and soft glass blood-drawing tubes. 51 61

Examination of ionic membrane currents in a voltage-clamped neuronal cell line derived from the mouse C1300 neuroblastoma disclosed four kinetically different components: sodium, potassium, calcium, and leakage current. The kinetics, voltage dependence, and pharmacological properties of the sodium and potassium currents qualitatively resemble those of the corresponding currents in squid giant axon and frog myelinated nerve fiber, suggesting that the molecular structures of the sodium and potassium channels in neuroblastoma are similar to those of the non-mammalian preparations.
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PMID:Membrane currents examined under voltage clamp in cultured neuroblastoma cells. 55 42

Isolated neuroblastoma cells (clone A-1 from clone N-18) were investigated by means of the intracellular dialysis technique. Changes in the ionic composition of intra- and extracellular media show that the fast inward current is carried by Na ions and delayed outward current is carried by K ions. Na inward current was blocked by TTX. Calcium inward current was not observed. Substitution of Na ions for K ions showed that PNa: PK = 7:1. A relatively low potassium conductance was found in the neuroblastoma cells.
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PMID:[Transmembrane ionic currents in neuroblastoma cells]. 56 25

GEA 857 [2-(4-chlorophenyl)-1,1-dimethylethyl 2-amino-3-methylbutanoate], a structural analogue of the serotonin (5-HT) uptake inhibitor alaprocalate but without effects on the 5-HT uptake, was shown to potentiate muscarinic cholinergic responses in N1E-115 neuroblastoma cells. In intracellular recording experiments, GEA 857 (1 microM) increased the cell input resistance and prolonged the action potential. It also prolonged the cellular response to carbachol acting on muscarinic receptors in a manner mimicked by potassium channel blockers such as 4-aminopyridine and TEA. GEA 857 did not affect the carbachol stimulated uptake of 45Ca, but depressed the carbachol activated outflow of 86Rb from neuroblastoma cells. The conclusion drawn from these results is that GEA 857 reduces potassium conductances in the membrane in N1E-115 neuroblastoma cells and, thereby, prolongs muscarinic agonist-induced responses.
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PMID:GEA 857 blocks potassium channels in the membrane and, thereby, prolongs muscarinic cholinergic responses in N1E-115 neuroblastoma cells. 130 Oct 72

Human beta-endorphin 1-31 (beta-END) stimulated low-Km GTPase activity in a concentration-dependent and saturable manner in membranes prepared from the delta opioid receptor-containing hybrid cell line NG108-15 and from the mu opioid receptor-enriched human neuroblastoma cell line SK-N-SH. Naloxone and the delta-selective antagonist, ICI 174,864, blocked the stimulation of the GTPase activity produced by beta-END in NG108-15 cell membranes, whereas only naloxone inhibited the beta-END-induced stimulation in SK-N-SH cell membranes, suggesting that beta-END was acting through both mu and delta opioid receptors. Treatment of the cells with Bordetella pertussis toxin before the preparation of membranes blocked the stimulation of low-Km GTPase by beta-END in both cell lines. Activation of NG108-15 and SK-N-SH low-Km GTPase by beta-END was sodium-dependent, and lithium and potassium were poor promoters of this activation. These results demonstrate that beta-END stimulates the interaction of both mu and delta opioid receptors with B. pertussis toxin-sensitive G-proteins in SK-N-SH and NG108-15 cell membranes, respectively.
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PMID:Effects of beta-endorphin on mu and delta opioid receptor-coupled G-protein activity: low-Km GTPase studies. 132 14

Messenger RNAs (mRNAs) specific for NGK1 and NGK2 potassium channels were synthesized from complementary DNAs (cDNAs) that had been cloned from mouse neuroblastoma x rat glioma hybrid NG108-15 cells. Outward pottasium currents were evoked by 5 s depolarizing voltage commands in Xenopus oocytes injected with NGK1- or NGK2-specific mRNAs. The NGK1 or NGK2 currents showed different activation and inactivation kinetics, and different pharmacological sensitivities. The threshold potential for activation of the NGK2 current (-14 mV) was more positive than that for the NGK1 (-36 mV). The NGK2 current showed faster inactivation during a 5 s depolarizing pulse than did the NGK1 current. Inactivation was best fit by time constants of 0.37, 1.5 and 19 s for the NGK2 current and 4.4 and 19 s for NGK1. Extracellularly applied tetraethylammonium chloride (TEA) was 1000 times more potent on the NGK2 current than the NGK1 current. Furthermore we examined outward current following co-injection of an equal amount of mRNAs for NGK1 and NGK2. The timecourse of inactivation differed from either alone or from a simple sum of the two individual currents. TEA sensitivity could not be explained by summation of the two homomultimeric channels. These findings suggest that both NGK1 and NGK2 proteins assemble to form heteromultimeric K+ channels in addition to homomultimeric K+ channels. NGK2 channels and the heteromultimeric channels may be responsible for the native transient outward current with slow inactivation in NG108-15 hybrid cells.
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PMID:Potassium channels cloned from neuroblastoma cells display slowly inactivating outward currents in Xenopus oocytes. 135 94

1. Muscarinic but not nicotinic receptor stimulation in SH-SY5Y human neuroblastoma cells induces a concentration-dependent increase in [3H]-inositol phosphate formation and a biphasic increase in [Ca2+]i. The latter involves release from both an intracellular store and Ca2+ entry across the plasma membrane. Here we examine the possibility that this agonist-stimulated Ca2+ entry occurs indirectly, as a consequence of depolarization. 2. Electrophysiological characterization, by whole cell patch-clamp techniques revealed that SH-SY5Y cells possess a tetrodotoxin-sensitive inward sodium current, a dihydropyridine-insensitive calcium current and an outward potassium current which was blocked by tetraethylammonium, 4-aminopyridine and intracellular caesium ions. The outward potassium current showed voltage-dependent activation and inactivation, similar to that seen for A-currents. 3. Application of nicotinic agonists evoked an inward current in cells voltage-clamped at negative holding potentials, but this current rectified, resulting in little or no outward current flow at positive potentials. The mean amplitude at a holding potential of -60 mV was -1.14 nA. Extrapolation of the current-voltage relation gave a reversal potential of +8 mV, indicative of a non-specific cationic permeability. 4. Application of muscarinic agonists had no detectable effect in most of the cells tested. However, in one third of cells studied, a small slowly activating inward current was observed. The mean amplitude of this current at a holding potential of -60 mV was -8.3 pA.5. This study confirms that SH-SY5Y cells possess voltage-dependent sodium, potassium and calcium currents. In addition, these cells are strongly depolarized by nicotinic agonists, which produce little change in [Ca2t]1. On the other hand, muscarinic agonists produce profound changes in [Ca2+1J with only a small inward current (depolarization). The contrasting effects of these two cholinoceptor agonists strongly implies that the Ca2+ entry after muscarinic receptor activation is not primarily due to activation of voltage-dependent calcium channels.
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PMID:Elevation of cytosolic calcium by cholinoceptor agonists in SH-SY5Y human neuroblastoma cells: estimation of the contribution of voltage-dependent currents. 142 73

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