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)

Azidonitrobenzoyl mono[125I]iodo scorpion toxin can be covalently attached to its receptor site in electrically excitable neuroblastoma cells or synaptosomes by photolysis. A polypeptide of Mr approximately 250,000 is specifically labeled in neuroblastoma cells. Labeling is blocked by unlabeled scorpion toxin and by depolarization. This polypeptide is not labeled in a variant neuroblastoma clone lacking voltage-sensitive sodium channels. Polypeptides of Mr approximately 250,000 and Mr approximately 32,000 are specifically labeled in synaptosomes. This labeling is also blocked by unlabeled toxin and by depolarization. These results identify specific polypeptides of Mr approximately 250,000 and Mr approximately 32,000 that are components of the sodium channel.
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PMID:Covalent labeling of protein components of the sodium channel with a photoactivable derivative of scorpion toxin. 692 49

N1E-115 mouse neuroblastoma cells were used to study the influence of ethanol on the 5-HT- and veratridine-induced influx of 14C-guanidinium via the 5-HT3 receptor channel and the fast sodium channel, respectively. Ethanol (10-100 mM) concentration-dependently increased the 5-HT-induced 14C-guanidinium influx, leaving the basal and veratridine (100 microM)-induced influx unaffected. The increasing effect of ethanol (100 mM) was observed at all 5-HT concentrations investigated; accordingly, ethanol increased the maximum response to 5-HT. Whereas in the absence of ethanol the concentration-response curve for 5-HT was bell-shaped, this was no longer the case when ethanol (100 mM) was present in the incubation buffer; the descending branch of the concentration-response curve for 5-HT at concentrations above 300 microM was virtually no longer observed. When, in the presence of substance P (10 microM) the 5-HT-induced 14C-guanidinium influx was already enhanced, the ability of ethanol (100 mM) to increase the 5-HT-induced influx was considerably diminished (by 72%). Preincubation of N1E-115 cells with 5-HT caused a decay of the subsequent 5-HT response ("desensitization") which was dependent on the duration of preincubation; ethanol (100 mM) did not affect the rate of this decay of the 5-HT response. The 5-HT (30 microM)-induced 14C-guanidinium influx was also increased by methanol (100 mM) and n-propanol (100 mM). The rank order of the increasing effect of the n-alkanols (at 100 mM) was: methanol < ethanol < n-propanol; i.e. the degree of enhancement increased with the lipophilicity of the alcohols.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increasing effect of ethanol on 5-HT3 receptor-mediated 14C-guanidinium influx in N1E-115 neuroblastoma cells. 747 37

1. [3H]-lifarizine bound saturably and reversibly to an apparently homogeneous class of high affinity sites in rat cerebrocortical membranes (Kd = 10.7 +/- 2.9 nM; Bmax = 5.10 +/- 1.43 pmol mg-1 protein). 2. The binding of [3H]-lifarizine was unaffected by sodium channel toxins binding to site 1 (tetrodotoxin), site 3 (alpha-scorpion venom) or site 5 (brevetoxin), Furthermore, lifarizine at concentrations up to 10 microM had no effect on [3H]-saxitoxin (STX) binding to toxin site 1. Lifarizine displaced [3H]-batrachotoxinin-A 20-alpha-benzoate (BTX) binding with moderate affinity (pIC50 7.31 +/- 0.24) indicating an interaction with toxin site 2. However, lifarizine accelerated the dissociation of [3H]-BTX and decreased both the affinity and density of sites labelled by [3H]-BTX, suggesting an allosteric interaction with toxin site 2. 3. The binding of [3H]-lifarizine was voltage-sensitive, binding to membranes with higher affinity than to synaptosomes (pIC50 for cold lifarizine = 7.99 +/- 0.09 in membranes and 6.68 +/- 0.14 in synaptosomes). Depolarization of synaptosomes with 130 mM KCl increased the affinity of lifarizine almost 10 fold (pIC50 = 7.86 +/- 0.25). This suggests that lifarizine binds selectively to inactivated sodium channels which predominate both in the membrane preparation and in the depolarized synaptosomal preparation. 4. There was negligible [3H]-lifarizine and [3H]-BTX binding to solubilized sodium channels, although [3H]-STX binding was retained under these conditions. 5. The potencies of a series of compounds in displacing [3H]-lifarizine from rat cerebrocortical membranes correlated well with their affinities for inactivated sodium channels estimated from whole-cell voltage clamp studies in the mouse neuroblastoma cell line, NIE-115 (r=0.96).6. These results show that [3H]-lifarizine is a high affinity ligand for neuronal sodium channels which potently and selectively labels a site, allosterically linked to toxin binding site 2, associated within activated sodium channels.
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PMID:[3H]-lifarizine, a high affinity probe for inactivated sodium channels. 758 9

1. Whole-cell sodium currents (INa) were measured in mouse neuroblastoma cells (N1E-115) at different [Ca2+]i values using appropriate Ca-EGTA buffers in the pipettes. 2. INa was found to be larger at pCa 7 than at pCa 8 or 9 with a ratio of 1:0.65 or 0.55, respectively. The steady-state inactivation (h infinity curve) was independent of [Ca2+]i, thus excluding surface charge effects as a cause of the Ca2+ effect. 3. Recovery of INa from slow inactivation after changing from resting (-30 to -40 mV) to holding potential (-70 mV) occurred in a similar way at all pCa values. The Ca2+ effect appears to be independent of slow inactivation and to occur within the first 2 min of pipette buffer-cytoplasm equilibration. 4. The cell membrane capacitance (Cm) was independent of [Ca2+]i, thus excluding exo- or endocytosis of sodium channel-containing membrane as a cause of the Ca2+ effect. 5. Non-stationary fluctuation analysis was used to determine simultaneously the single channel current (iNa) and the size of INa. At pCa values of 7 and 9, iNa was identical, i.e. 0.59 and 0.58 pA, while INa/Cm differed, i.e. 41.1 and 22.2 pA pF-1, respectively. The peak open probability at 0 mV was about 0.5 for both pCa values indicating that [Ca2+]i controls the fraction of channels available for activation. 6. Since [Ca2+]i in other neurons varies between 30 and 100 nM in the resting and active state, respectively, the present data suggest a modulatory role for [Ca2+]i in neuronal excitability.
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PMID:Functional availability of sodium channels modulated by cytosolic free Ca2+ in cultured mammalian neurons (N1E-115). 760 27

In brain and nerves the phosphorylation of glucose, rather than its transport, is generally considered the major rate-limiting step in metabolism. Since little is known regarding the kinetic coupling between these processes in neuronal tissues, we investigated the transport and phosphorylation of [2-3H]glucose in two neuronal cell models: a stable neuroblastoma cell line (NCB20), and a primary culture of isolated rat dorsal root ganglia cells. When transport and phosphorylation were measured in series, phosphorylation was the limiting step, because intracellular glucose concentrations were the same as those outside of cells, and because the apparent Km for glucose utilization was lower than expected for the transport step. However, the apparent Km was still severalfold higher than the Km of hexokinase I. When [2-3H]glucose efflux and phosphorylation were measured from the same intracellular glucose pool in a parallel assay, rates of glucose efflux were three- to-fivefold greater than rates of phosphorylation. With the parallel assay, we observed that activation of glucose utilization by the sodium channel blocker veratridine caused a selective increase in glucose phosphorylation and was without effect on glucose transport. In contrast to results with glucose, both cell types accumulated 2-deoxy-D-[14C]glucose to concentrations severalfold greater than extracellular concentrations. We conclude from these studies that glucose utilization in neuronal cells is phosphorylation-limited, and that the coupling between transport and phosphorylation depends on the type of hexose used.
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PMID:Coupled glucose transport and metabolism in cultured neuronal cells: determination of the rate-limiting step. 767 74

1. The 5-HT3 receptor-mediated cation influx into N1E-115 mouse neuroblastoma cells has been studied by the use of the organic cation [14C]-guanidinium. 2. 5-Hydroxytryptamine (5-HT, 30 microM) caused a time-dependent influx of [14C]-guanidinium which, in contrast to the influx elicited by veratridine (100 microM), was not inhibited by tetrodotoxin (TTX, 10 microM). The 5-HT-induced influx was potentiated by substance P and inhibited by ondansetron. 3. 5-HT and the selective 5-HT3 receptor agonists, m-chloro-phenylbiguanide, phenylbiguanide and 2-methyl-5-HT caused bell-shaped concentration-response curves; the rank order of potency was m-chloro-phenylbiguanide > 5-HT > phenylbiguanide = 2-methyl-5-HT. Among these agonists, 5-HT elicited the highest influx of [14C]-guanidinium. 5-Methoxytryptamine, an agonist at 5-HT4 receptors, showed no effect. 4. The [14C]-guanidinium influx induced by 100 microM 5-HT was not affected by methysergide (10 microM) and ketanserin (10 microM) but was inhibited by 5-HT3 receptor antagonists with the following rank order of potency: ICS 205-930 > ondansetron > MDL 72222 >> metoclopramide. 5. The 5-HT-induced [14C]-guanidinium influx was increased in the absence of Ca2+ and/or Na+ and by a reduction of the temperature from 36 degrees to 20 degrees C. 6. Preincubation with 5-HT (100 microM) caused a time-dependent and rapidly reversible decrease of the 5-HT-induced [14C]-guanidinium influx. 7. It is concluded that [14C]-guanidinium influx measurement in N1E-115 cells is a convenient method to study properties of the cation channel of the 5-HT3 receptor. This influx is independent of the fast sodium channel.
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PMID:Characterization of 5-HT3 receptors of N1E-115 neuroblastoma cells by use of the influx of the organic cation [14C]-guanidinium. 768 May 94

The influence of local and general anaesthetics on cation influx through the fast, voltage-dependent sodium channel and the 5-HT3 receptor cation channel was studied in N1E-115 mouse neuroblastoma cells by measuring 2-min influx of the organic cation 14C-guanidinium induced by either veratridine (1 mmol/l) or 5-HT (100 mumol/l). The veratridine-induced influx of 14C-guanidinium was potentiated by scorpion toxin and inhibited by tetrodotoxin. The 5-HT-induced 14C-guanidinium influx was not affected by tetrodotoxin but it was inhibited by nanomolar concentrations of the selective 5-HT3 receptor antagonists ondansetron and ICS 205-930; at high micromolar concentrations these compounds also inhibited the veratridine-induced influx of 14C-guanidinium. The 14C-guanidinium influx through both channels was inhibited by local and general anaesthetics. The rank order of potency for inhibition of veratridine-induced influx by local anaesthetics was tetracaine > bupivacaine > cocaine > lidocaine > procaine and that for inhibition of the 5-HT3 receptor channel was tetracaine > bupivacaine > cocaine > procaine > lidocaine. With the exception of procaine and cocaine, which were equipotent at both channels, the local anaesthetics were 4.4-fold (lidocaine) to 25-fold (tetracaine) more potent at the fast sodium channel than at the 5-HT3 receptor channel. The rank order of potency for general anaesthetics was propofol > etomidate = alfaxalone = ketamine > thiopental = methohexital at the fast sodium channel, and propofol > or = etomidate > alfaxalone = methohexital > thiopental > ketamine at the 5-HT3 receptor channel.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition by anaesthetics of 14C-guanidinium flux through the voltage-gated sodium channel and the cation channel of the 5-HT3 receptor of N1E-115 neuroblastoma cells. 768 57

Dopamine beta-hydroxylase (DBH), the enzyme catalyzing the conversion of dopamine to norepinephrine, is specifically expressed in adrenergic and noradrenergic neurons in the central nervous system. DNase I hypersensitive sites were found in the 5'-flanking region of the DBH gene in noradrenergic human neuroblastoma SK-N-BE(2)C cells, but not in DBH-nonexpressing HeLa cells. We report here that the 4.3-kilobase upstream sequence of the human DBH gene confers cell type-specific expression as assessed by transient expression assay. Furthermore, deletional and mutational analyses revealed two genetic regulatory elements required for the regulation of cell type specificity. First, deletion of the cAMP-response element (CRE) abolished > 95% of the transcriptional activity by the DBH upstream promoter, thus implicating the CRE as an essential positive genetic element. Second, deletion of a region between -490 and -263 base pairs resulted in 10-fold increase of reporter gene activity only in HeLa cells, indicating that this region contains a cell-specific silencer. A 13-base pair fragment residing within that region shows 77% sequence identity with the neuron-specific silencer motif recently identified in two neuronal genes, i.e. SCG10 and type II sodium channel genes. We propose that the interplay between the CRE and this neuron-specific silencer region plays an important role in the tissue-specific expression of the DBH gene in noradrenergic cells.
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PMID:Neuron-specific expression of the human dopamine beta-hydroxylase gene requires both the cAMP-response element and a silencer region. 768 35

Neuroblastoma cells in culture were used to detect sodium channel-specific marine toxins based on an end-point determination of mitochondrial dehydrogenase activity. The assay responds in a dose-dependent manner to ciguatoxins, brevetoxins, and saxitoxins, and delineates the toxic activity as either sodium channel enhancing or sodium channel blocking. The assay responds rapidly to sodium channel activating toxins, allowing dose dependent detection in 4 to 6 h. Brevetoxins can be detected at 250 pg, and purified ciguatoxins are detected in the low picogram and subpicogram levels. The results obtained from cell bioassay of ciguatoxic finfish extracts correlates with those obtained from mouse bioassays. Sodium channel blocking toxins can also be detected with an approximate sensitivity of 20 pg in 24 to 48 h. This cell-based technique is simple, sensitive, demonstrates potential as an alternative to animal testing for sodium channel activating and blocking toxins, and can be automated.
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PMID:Detection of sodium channel toxins: directed cytotoxicity assays of purified ciguatoxins, brevetoxins, saxitoxins, and seafood extracts. 775 68

1. The ability of lifarizine (RS-87476) to block human voltage-sensitive Na+ channel currents was studied by use of whole cell patch clamp recording from differentiated neuroblastoma cells (SH-SY5Y). 2. The Na+ conductance in differentiated SH-SY5Y cells (24.0 +/- 2.4 nS, n = 11) was half-maximally activated by 10 ms depolarizations to -37 +/- 2 mV and was half-maximally inactivated by predepolarizing pulses of 200 ms duration to -86 +/- 3 mV (n = 11). 3. At low stimulus frequencies (0.1 to 0.33 Hz) voltage-dependent sodium currents were completely blocked, in a concentration-dependent manner, by extracellular application of either tetrodotoxin (EC50 = 4 +/- 1 nM, n = 12) or by lifarizine (EC50 = 783 +/- 67 nM, n = 9). The onset of block by lifarizine (tau = 91 +/- 14 s at 10 microM) was considerably slower than that of tetrodotoxin (tau = 16 +/- 3 s at 100 nM). 4. Lifarizine (1 microM) reduced the peak sodium conductance in each cell (from 26.4 +/- 2.0 nS to 15.1 +/- 2.7 nS, n = 4) without changing the macroscopic kinetics of sodium current activation or inactivation (V1/2 = -35 1 mV and -87 +/- 4 mV respectively, n = 4). Similarly, lifarizine (1 microM) did not affect the reversal potential of the macroscopic sodium current (+14 +/- 5 mV in control and +16 +/- 2 mV in 1 microM lifarizine; n = 4) or reactivation time-constant (tau = 14.0 +/- 4.4 ms). 5. Block of the sodium channel open state by tetrodotoxin (30 nM) did not prevent the inhibition caused by a subsequent application of lifarizine (3 micro M). In contrast the depression caused by lifarizinewas readily reversible after pretreatment of cells with the local anaesthetic, lignocaine (1O mM).6. These data demonstrate that lifarizine is a use- and voltage-dependent antagonist of human voltage sensitive sodium currents. The slow kinetics and pharmacology of the block by lifarizine indicate that access of this drug to the channel is more restricted than that of tetrodotoxin and may involve an allosteric site or state of the channel that is also regulated by local anaesthetics.
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PMID:Block of human voltage-sensitive Na+ currents in differentiated SH-SY5Y cells by lifarizine. 783 13

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