Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism underlying the bradykinin (BK)-induced increase of acetylcholine (ACh) release was studied in neuroblastoma x glioma hybrid NG108-15 cells and their synapses formed onto mouse muscle cells. External application of BK or iontophoretic injection of extrinsic inositol 1,4,5-trisphosphate (InsP3) into the cytoplasm of NG108-15 cells produced membrane hyperpolarization in the hybrid cells and an increase in the frequency of miniature end-plate potentials (MEPPs) in paired myotubes. Ba2+ blocked the hyperpolarization in response to BK, but facilitation of MEPPs was still observed. InsP3-dependent facilitation of MEPPs was also observed in cells where the InsP3 injections produced no detectable hyperpolarization or even depolarization. Real-time quantitative monitoring of intracellular free Ca2+ concentration [( Ca2+]i) with fura-2 in single NG108-15 cells showed that BK application or InsP3 injection induced an elevation of [Ca2+]i which coincided in time with membrane hyperpolarization recorded from the same cell. The [Ca2+]i rise produced by InsP3 injection started from the single site of injection and that produced by BK began from a deep compartment of the cytoplasm of the NG108-15 cells. The BK- and InsP3-evoked facilitation of MEPPs and the [Ca2+]i rise were relatively independent of extracellular Ca2+. These findings suggest that the BK-induced ACh release results not from membrane potential changes but from a transient InsP3-dependent elevation of [Ca2+]i.
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PMID:Bradykinin-evoked acetylcholine release via inositol trisphosphate-dependent elevation in free calcium in neuroblastoma x glioma hybrid NG108-15 cells. 230 64

Outward currents were recorded from voltage-clamped NG108-15 mouse neuroblastoma X rat glioma hybrid cells, differentiated with prostaglandin E1. Depolarising voltage steps from -70 mV, evoked a transient outward current from a threshold of -30 mV. The outward current showed complete inactivation at potentials positive to -10 mV. Inactivation was removed by hyperpolarisation with half-inactivation at -53 mV. The time course of the inactivation could be best fitted by two exponentials with mean time constants of 280 ms and 1.6 s at +80 mV. Tail current measurements showed a shift in the reversal potential with changes in external K+ concentration, consistent with K+ as the current-carrying ion. The outward current amplitude was reversibly reduced by 4-aminopyridine, and the time course of inactivation modified. In the presence of other K+ channel blockers (tetraethylammonium, barium and tetrahydroaminoacridine) the amplitude of the outward current was also reversibly reduced, but with a negligible effect on its time course. The current was unaffected by dendrotoxin, d-tubocurarine, apamin, Cd2+ and Ni2+, and by replacing external Ca2+ with Co2+ or Mg2+. In current clamp, action potential duration was greatly increased by 4-aminopyridine. The findings show that the NG108-15 cell line displays a transient outward current that resembles IK(A) but with a higher than usual threshold and relatively slow inactivation, and that this current is likely to be important for action potential repolarisation.
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PMID:A transient outward current in NG108-15 neuroblastoma x glioma hybrid cells. 235 30

Cat brain tumors were produced by stereotactical xenotransplantation of rat glioma clone F98 into the internal capsule of the left hemisphere. Two to four weeks after implantation, the tissue content of water, sodium, potassium, calcium, magnesium, serum albumin, serum immunoglobulin, and hemoglobin was measured in samples taken from the tumor, from peritumoral white and gray matter, and from homotopic regions of the opposite hemisphere. Extravasated serum protein content was determined by subtracting intravascular from total tissue protein, using the hemoglobin content as a marker of blood volume. The development of brain tumors was accompanied by severe vasogenic brain edema, which was clearly confined to the ipsilateral white matter. The increase of water was paralleled by an increase of sodium, calcium, and serum proteins. Potassium and magnesium content remained constant. The calculated sodium and calcium content of edema fluid approximated that of blood serum. The content of blood proteins was about 50% lower, but the ratio of albumin/immunoglobulin was the same as in blood. It is concluded that peritumoral edema is a combination of plasma ultrafiltrate and whole plasma extravasation with different modes of formation. Implications for the pathophysiology and therapy of peritumoral edema are discussed.
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PMID:Quantitative analysis of experimental peritumoral edema in cats. 239 38

The effects of the pure stereoisomers of the novel dihydropyridine 202-791 on voltage sensitive calcium channels in nerve and cardiac muscle were examined. The (-)-isomer blocked depolarization-induced uptake of 45Ca2+ into NG108-15 neuroblastoma X glioma cells, blocked the depolarization-induced release of [3H]-norepinephrine from PC12 cells and reduced the Vmax of the slow response action potential recorded from guinea pig papillary muscle. In contrast, the (+)-isomer enhanced these same processes. In papillary muscle, greater enhancement of the slow responses was observed at lower stimulation frequencies. Thus, the (-) and (+) stereoisomers of 202-791 can be shown to be calcium channel antagonist and agonist respectively.
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PMID:Calcium channel agonist and antagonist effects of the stereoisomers of the dihydropyridine 202-791. 241 Dec 59

Sodium and calcium inward currents (INa and ICa) were measured in neuroblastoma X glioma hybrid cells of clones 108CC5 and 108CC15 by a single suction pipette method for internal perfusion and voltage clamp. Morphologically undifferentiated, exponentially growing cells were compared with cells differentiated by cultivation with 1 mmol/l dibutyryl cyclic AMP. Outward currents were eliminated by perfusing the cells with a K+-free solution. Voltage dependence and ion selectivity as well as steady state inactivation characteristics of INa and ICa resembled those of differentiated mouse neuroblastoma cells, clone N1E-115 (Moolenaar and Spector 1978, 1979). These parameters were identical in undifferentiated and differentiated cells of both clones. After differentiation the average density of the peak sodium and calcium currents was increased two and four-fold, respectively, in both cell lines. Our data indicate that exponentially growing, morphologically undifferentiated 108CC5 and 108CC15 neuroblastoma X glioma hybrid cells possess functional Na+ and Ca2+ channels undistinguishable from those of non-proliferating cells of these clones differentiated morphologically by treatment with dibutyryl cyclic AMP. That Na+ and Ca2+ spikes were not detected by other authors in these cells prior to morphological differentiation by dibutyryl cyclic AMP may be attributed to the fact that at the low resting membrane potential measured the Na+ and Ca2+ channels are inactivated.
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PMID:Sodium and calcium currents in neuroblastoma x glioma hybrid cells before and after morphological differentiation by dibutyryl cyclic AMP. 241 25

The kinetics of activation and inactivation of the inward calcium current (ICa) in morphologically undifferentiated and differentiated neuroblastoma X glioma hybrid cells of the clone 108CC15 were studied by the suction pipette technique for internal perfusion and voltage clamping. Potassium currents were eliminated by internal perfusion of the cells with a K+-free solution. Activation of ICa followed a sigmoidal time course and could reasonably be fitted by a m2 relation. The kinetics of ICa inactivation were studied by analyzing the current inactivation during long depolarizing steps and by measuring the peak ICa as a function of the length of a prepulse. Both methods gave comparable results indicating that the ICa inactivation cannot be fitted by a single exponential. The ICa inactivation was fitted by a biexponential function. Neither the activation nor the inactivation of ICa were changed after morphological cell differentiation induced by treatment with dibutyryl cyclic AMP.
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PMID:A kinetic analysis of the inward calcium current in 108CC15 neuroblastoma x glioma hybrid cells. 241 26

The action of trapidil (RocornalR) and its derivatives AR 12-456 and AR 12-160 on the inward calcium current (ICa) was studied in mouse neuroblastoma x rat glioma hybrid cells of the line 108CC5 under voltage clamp conditions by means of a suction pipette method. A dissociation constant of the calcium channel-trapidil complex of 277 microM was estimated for the initial inhibition of ICa by trapidil. Half maximal block of ICa was produced by 80 +/- 20 microM AR 12-456 and 500 +/- 150 microM AR 12-160.
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PMID:Trapidil and other 5-triazolo-(1, 5-alpha)-pyrimidine derivatives as calcium channel blockers in 108CC5 cells. 241 19

The action of phenytoin on the inward calcium current (ICa) was studied in cells of the clonal mouse neuroblastoma X rat glioma hybrid line 108CC5 by the suction pipette technique for internal perfusion and voltage clamp. The ICa was recorded after suppression of Na+ and K+ currents. Phenytoin, applied externally in concentrations of 50 to 500 microM, depressed the ICa in the investigated potential range of -60 to +30 mV in a concentration-dependent manner. When the cells were stimulated by depolarizing clamp steps, the extent of the ICa depression increased with the frequency and duration of the activating pulses. ICa was also inhibited on intracellular application of phenytoin.
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PMID:Calcium channel block by phenytoin in neuroblastoma x glioma hybrid cells. 241 95

The role of membrane lipid composition in determining the electrical properties of neuronal cells was investigated by altering the available fatty acids in the growth medium of cultured neuroblastoma X glioma hybrid cells, clone NG108-15. Growth of the cells for several days in the presence of polyunsaturated fatty acids (linoleic, linolenic, and arachidonic) caused a pronounced decrease in the Na+ action-potential rate of rise (dV/dt) and smaller decreases in the amplitude, measured by intracellular recording. Oleic acid had no effect on the action potentials generated by the cells. In contrast, a saturated fatty acid (palmitate) and a trans monounsaturated fatty acid (elaidate) caused increases in both the rate of rise and the amplitude. No changes in the resting membrane potentials or Ca2+ action potentials of fatty acid-treated cells were observed. The membrane capacitance and time constant were not altered by exposure to arachidonate, oleate, or elaidate, whereas arachidonate caused a small increase in membrane resistance. Examination of the membrane phospholipid fatty acid composition of cells grown with various fatty acids revealed no consistent alterations which could explain these results. To examine the mechanism for arachidonate-induced decreases in dV/dt, the binding of 3H-saxitoxin (known to interact with voltage-sensitive Na+) channels was measured. Membranes from cells grown with arachidonate contained fewer saxitoxin binding sites, suggesting fewer Na+ channels in these cells. We conclude that conditions which lead to major changes in the membrane fatty acid composition have no effect on the resting membrane potential, membrane capacitance, time constant, or Ca2+ action potentials in NG108-15 cells. Membrane resistance also does not appear to be very sensitive to membrane fatty acid composition. However, changes in the availability of fatty acids and/or changes in the subsequent membrane fatty acid composition lead to altered Na+ action potentials. The primary mechanism for this alteration appears to be through changes in the number of Na+ channels in the cells.
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PMID:The effects of exposure to exogenous fatty acids and membrane fatty acid modification on the electrical properties of NG108-15 cells. 241 16

Hydrolysis of the membrane phospholipid phosphatidylinositol-4,5-bisphosphate (PtdIns(4,5)P2) produces two prospective intracellular messengers: inositol 1,4,5-trisphosphate (InsP3), which releases Ca2+ from intracellular stores; and diacylglycerol (DG), which activates protein kinase C. Here we show how the formation of these two substances triggered by one external messenger, bradykinin, leads to the appearance of two different sequential membrane conductance changes in the neurone-like NG108-15 neuroblastoma-glioma hybrid cell line. In these cells bradykinin rapidly hydrolyses PtdIns(4,5)P2 to InsP3 and DG, raises intracellular Ca2+ and hyperpolarizes then depolarizes the cell membrane. By voltage-clamp recording we show that the hyperpolarization results from the activation pharmacologically-identifiable species of Ca2+-dependent K+ current. This is also activated by intracellular injections of Ca2+ or InsP3 so may be attributed to the formation and action of InsP3. The subsequent depolarization results primarily from the inhibition of a different, voltage-dependent K+ current, the M-current that is also inhibited by DG activators. Hence we describe for the first time a dual, time-dependent role for these two intracellular messengers in the control of neuronal signalling by a peptide.
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PMID:Two polyphosphatidylinositide metabolites control two K+ currents in a neuronal cell. 242 90


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