Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We have previously shown that the [3H]saxitoxin binding site of the sodium channel is expressed independently of the [125I]scorpion toxin binding site in chick muscle cultures and in rat brain. In the present work, we studied the development of the sodium channel protein during chemically induced differentiation of N1E-115 neuroblastoma cells, using [3H]saxitoxin binding, [125I]scorpion toxin binding, and 22Na uptake techniques. When grown in their normal culture medium, these cells are mostly undifferentiated, bind 90 +/- 10 fmol of [3H]saxitoxin/mg of protein and 112 +/- 14 fmol of [125I]scorpion toxin/mg protein, and, when stimulated with scorpion toxin and batrachotoxin, take up 70 +/- 5 nmol of 22Na/min/mg of protein. Cells treated with dimethyl sulfoxide (DMSO) or hexamethylene-bis-acetamide (HMBA) differentiate morphologically within 3 days. At this time, the [3H]saxitoxin binding, the [125I]scorpion toxin binding, and the 22Na uptake values are not very different from those of undifferentiated cells. With subsequent time in DMSO or HMBA, these values continue to increase, a result indicating that the main period of sodium channel expression occurs well after the cells have assumed the morphologically differentiated state. The data indicate that the expression of sodium channels and morphological differentiation are independently regulated neuronal properties, that the attainment of morphological differentiation is necessary but not in itself sufficient for full expression of the sodium channel proteins, and that, in contrast to the chick muscle cultures and rat brain, the [3H]saxitoxin site and [125I]scorpion toxin site appear to be coregulated in N1E-115 cells.
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PMID:Development of sodium channel protein during chemically induced differentiation of neuroblastoma cells. 243 20

Single sodium channel currents have been studied in cell-attached patches from the mouse neuroblastoma cell line N1E115. Distributions of open duration, latency until first opening, and the average probability of a channel being open after a voltage step, p(t), were analyzed and compared to predicted distributions from various kinetic models for voltage-dependent gating. It was found that, over most of the voltage range under which channel gating occurs, the slow steps in gating are opening transitions and that inactivation of open channels is significantly faster than the decline in p(t) (tau h). This view of gating is confirmed by comparison of the kinetics of ensemble averages of single-channel currents obtained from step- and tail-current records at the same voltage. The probability of a channel reopening after having closed was calculated by comparing p(t) with the convolution of the first-latency probability density and the conditional probability of remaining open t milliseconds after opening. This reopening probability is small but slightly voltage dependent over the voltage range where the mean open duration remains constant and tau h changes considerably. The voltage dependence of open channel inactivation and deactivation were calculated from the probability of reopening and the mean open duration. The equivalent gating charge for the inactivation rate is a few tenths of an electronic charge, whereas the equivalent charge for the closing rate is 2.5-3.5 electronic charges.
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PMID:Voltage-dependent gating of single sodium channels from mammalian neuroblastoma cells. 243 28

The effect of the pyrethroid insecticide deltamethrin on sodium channels of mouse neuroblastoma cells was investigated using the patch-clamp technique. The study was aimed at determining how the effects of deltamethrin at the whole cell level would be reflected in the modified properties of single sodium channel currents. Whole cell recording showed that deltamethrin prolonged sodium currents in neuroblastoma cells by several orders of magnitude. Single channel recordings showed that a variety of channel states were prolonged by deltamethrin. Not only was the open state prolonged by several orders of magnitude but a closed or inactivated state was also prolonged, leading to less frequent channel openings. A subconducting state and a flickering state were observed in the presence of deltamethrin as well as a state in which channels opened with some delay after the termination of a depolarizing pulse. The results are compatible with the hypothesis that deltamethrin stabilizes a variety of channel states by reducing the transition rates between them. This allows states that are normally very brief to be detected more easily.
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PMID:Stabilization of sodium channel states by deltamethrin in mouse neuroblastoma cells. 244 Oct 36

The effects of a polypeptide toxin of 25,000 Da from the marine snail Conus striatus (CsTx) on sodium channels in mouse neuroblastoma cells and rat brain synaptosomes were studied. CsTx slowed sodium channel inactivation without altering the time course of activation of the channels. The voltage dependence of sodium channel inactivation was shifted to more negative membrane potentials and made less steep. Peak sodium currents were increased, and the voltage dependence of activation was shifted to more negative membrane potentials. The action of the toxin was voltage-dependent. Maximum toxin effects were observed at membrane potentials in the range of -100 to -60 mV. Apparent KD values were calculated assuming a one-to-one binding interaction. At more positive membrane potentials, the apparent KD for toxin action increased e-fold for each 19-mV depolarization. Apparent KD also increased at membrane potentials more negative than -100 mV. CsTx did not have significant effects on the binding of saxitoxin or Leiurus alpha-scorpion toxin to their receptor sites on sodium channels. CsTx enhanced the binding of batrachotoxinin A 20-alpha-benzoate to sodium channels in the same concentration range as its physiological effects. It is concluded that CsTx interacts with a new receptor site on the extracellular surface of the sodium channel at which specific effects on channel inactivation can occur.
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PMID:Actions of a polypeptide toxin from the marine snail Conus striatus on voltage-sensitive sodium channels. 244 15

Pumiliotoxin B (PTX-B), an alkaloid that has cardiotonic and myotonic activity, increases sodium influx in guinea pig cerebral cortical synaptoneurosomes. In the presence of scorpion venom (Leiurus) or purified alpha-scorpion toxin, the PTX-B-induced sodium influx is enhanced severalfold. PTX-B alone has no effect on sodium flux in N18 neuroblastoma cells but, in the presence of alpha-scorpion toxin, stimulation of sodium influx by PTX-B reaches levels comparable to that attained with the sodium channel activator veratridine. In neuroblastoma LV9 cells, a variant mutant that lacks sodium channels, neither veratridine nor PTX-B induces sodium fluxes in either the presence or absence of alpha-scorpion toxin. In synaptoneurosomes and in N18 cells, the sodium influx induced by the combination of PTX-B and alpha-scorpion toxin is inhibited by tetrodotoxin and local anesthetics. PTX-B does not interact with two of the known toxin sites on the sodium channel, as evidenced by a lack of effect on binding of [3H]saxitoxin or [3H]batrachotoxinin A benzoate to brain synaptoneurosomes. Synergistic effects on sodium influx with alpha-scorpion toxin, beta-scorpion toxin, and brevetoxin indicate that PTX-B does not interact directly with three other toxin sites on the sodium channel. Thus, PTX-B appears to activate sodium influx by interacting with yet another site on the voltage-dependent sodium channel, a site that is coupled allosterically to sites for alpha-scorpion toxin, beta-scorpion toxin, and brevetoxin.
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PMID:Pumiliotoxin B binds to a site on the voltage-dependent sodium channel that is allosterically coupled to other binding sites. 244 97

The effects of 4 different pyrethroid insecticides on sodium channel gating in internally perfused, cultured mouse neuroblastoma cells (N1E-115) were studied using the suction pipette, voltage clamp technique. Pyrethroids increased the amplitude of the sodium current, sometimes by more than 200%. Activation of the sodium current occurred at more hyperpolarized potentials than under control conditions. The declining phase of the sodium current during depolarization was markedly slowed down and after repolarization of the membrane a large, slowly decaying sodium tail current developed. Pyrethroids did not affect the sodium current reversal potential, steady-state sodium inactivation or recovery from sodium channel inactivation. The amplitude of the pyrethroid-induced slow tail current was always proportional to the sodium current at the end of the preceding depolarizing pulse. The rate of decay of the slow tail current strongly depended on pyrethroid structure and increased in the order deltamethrin, cyphenothrin, fenfluthrin and phenothrin. The rate of decay further depended on membrane potential and temperature. Below -85 m V the instantaneous current-voltage relationship of the slow tail current showed a negative slope conductance. The tail current decayed more slowly at low temperatures. Arrhenius plots indicated that the relaxation of open sodium channels to a closed state involved a higher energy barrier for pyrethroid-affected than for normal channels. The energy barrier was higher after deltamethrin than after the non-cyano pyrethroid fenfluthrin. It is concluded that in mammalian neuronal membrane pyrethroids selectively reduce the rate of closing of sodium channels both during depolarization and after repolarization of the nerve membrane.
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PMID:Increase of sodium current after pyrethroid insecticides in mouse neuroblastoma cells. 244 65

Inhibition of cell division and outgrowth of neurites with average rate of 31.5 +/- 4.4 micrometers per hour were observed in neuroblastoma cultures of the Neuro 2a clonal line 24 hours after the increase in the culture medium pH from 7.4 to 8.2. The total neurite length per one cell was about 298 +/- 36 micron in average by the 9-10th days of treatment. Simultaneously, a gradual enhancement of acetylcholinesterase cytochemical appearance took place attaining its maximum level by the same time. The peak sodium conductance, taken as a measure of sodium tetrodotoxin-sensitive potential-dependent channel density, was the same both in nondifferentiated cells grown in suspension or monolayer cultures, and in morphologically differentiated ones. The data lead to a conclusion that biochemical (acetylcholinesterase probe) and electrophysiological (sodium channel density) signs can express independently of morphological differentiation.
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PMID:[Acetylcholinesterase expression and changes in the electrical excitability of neuroblastoma cells during their morphological differentiation induced by an increase in the pH of the medium]. 245 61

Single sodium channel currents were compared in two neuroblastoma (N1E 115, N18) and in two neuroblastoma x glioma (108CC5, 108CC15) hybrid clonal cell lines. Similar single channel parameters were reached from every cell line. The single channel conductance was 11 pS for N1E 115 and N18 cells, and was 10 pS for both hybrid cells at 7-8 degrees C. Except for N18 cells, the amplitude histograms could be best fitted by the sum of two Gaussian functions. The mean channel open time was 1.5-2.0 ms for N1E 115 and the hybrid cells and it was shorter than 1 ms for N18 cells. Open time histograms from N18 cells could be fitted by a single exponential at most potentials, but the sum of two exponentials resulted in a best fit for N1E 115 and the hybrid cells. Differentiation of N1E 115 cells elicited by dibutyryl cAMP instead of dimethylsulfoxide caused only a slight increase in the single channel conductance and open time. The results indicate a certain uniformity of the sodium channels in these cell line.
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PMID:Comparative studies of single Na-channels in different neuroblastoma cell lines. 245 3

The previous observation that a continuous chemical depolarization of aggregating rat brain cells with KCl alters the expression of opioid receptors was examined in more detail. In contrast to its significant and converse effect on forebrain and hindbrain cells cultured in serum-containing medium, KCl had only a small and transient effect in serum-free cultures of both types. The basal receptor density in serum-free cultures was similar to the receptor density in KCl-treated serum-containing cultures, but medium conditioned by glial cells restored partially the effect of KCl in serum-free cultures. The effect of KCl in serum-containing forebrain cultures was enhanced by the voltage-dependent calcium channel blocker verapamil, and magnesium and cadmium had a similar, though smaller, effect. The sodium channel activator veratridine had a profound and dose-dependent inhibitory effect on the expression of the receptors in forebrain and hindbrain cultures, and tetrodotoxin blocked the veratridine effect. Information about the selectivity of the effect of neuronal activation on the various opioid receptor subtypes was obtained with the neuroblastoma X glioma hybrid M8 cells that possess only delta type opioid receptors. A Scatchard analysis of [3H]etorphine binding to these cells has shown that depolarization increased the Bmax, but had little, if any, effect on the affinity (KD) of the ligand to the receptors. The significance of depolarization and voltage-dependent sodium and calcium channels on the expression of different opioid receptor subtypes is discussed.
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PMID:Neuronal activation regulates the expression of opioid receptors: possible role of glial-derived factors and voltage-dependent ion channels. 253 11

The actions of brevetoxin (PbTX-3) were studied on single, voltage-dependent sodium channels and whole-cell currents from the neuroblastoma x glioma cell line NG108-15. Purified PbTX-3 shifted the activation of sodium channels to membrane potentials negative to normal. PbTX-3 did not alter the single-channel mean open lifetime, suggesting that the toxin does not change the rate of sodium channel inactivation from the open state. There was also no change in single-channel conductance. These results indicate that brevetoxin increases sodium current at rest by shifting the voltage dependence of channel activation and that the resulting depolarization is limited by channel inactivation.
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PMID:The actions of a red tide toxin from Ptychodiscus brevis on single sodium channels in mammalian neuroblastoma cells. 254 Oct 24


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