UMLS:C0017638 - FACTA Search

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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Voltage-gated sodium currents and acetylcholine-elicited currents in clonal rat pheochromocytoma cells (PC12) were studied using the whole-cell patch-clamp technique. After treatment of cultures with nerve growth factor (NGF, 2-4 nM) for 5 or more days, both Na currents and ACh responses increased by 5-7-fold. We tested the ability of a number of treatments reported to induce physiological differentiation in neuroblastoma or neuroblastoma-glioma hybrid cells. We found that no treatment was as effective as NGF, and mitotic inhibitors and 8-bromocyclic AMP reduced the efficacy of NGF at increasing both sodium currents and ACh responses. Some treatments were able to selectively reduce or enhance the ability of NGF to induce ACh responses or sodium currents. Dexamethasone, in particular, completely blocked the NGF-induced increase in ACh response, while leaving Na currents unaffected. Furthermore, in individual cells the Na current density and ACh current density are uncorrelated. These observations indicate that physiological differentiation in PC12 cells is regulated differently than in neuroblastoma cells and, further, in PC12 cells sodium currents and ACh responses are independently regulated.
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PMID:Regulation of sodium currents and acetylcholine responses in PC12 cells. 230 64

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

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 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

Enkephalin actions on the voltage-gated Ca channel were studied under voltage clamp in the neuroblastoma X glioma hybrid cell line, NG 108-15. We found that in sodium-free external solutions containing Ba2+ (20 mM), a depolarizing step pulse from a holding potential of -50 mV evoked both a rapidly decaying inward current and a sustained inward current similar to those described in other preparations. External application of 1 microM [D-Thr2,Leu5]enkephalin-Thr (DTLET), an agonist at the delta-opioid receptors specifically inhibited the sustained inward current. Naloxone, an antagonist at this receptor, blocked the effect of DTLET. Furthermore, this effect of DTLET was not observed if the cells were dialyzed with a low Ca2+ internal buffer solution [( Ca2+]i less than 10(-9) M). We conclude that in neuroblastoma cells: (1) there is a functional coupling between delta-receptors and voltage-gated sustained Ca channels, and (2) the coupling is mediated by intracellular free Ca ions.
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PMID:Activation of enkephalin receptors reduces calcium conductance in neuroblastoma cells. 244 May 26

Substance P at micromolar concentrations enhances the uptake of [14C]guanidinium in neuroblastoma X glioma hybrid cells, an effect which most likely indicates activation of Na+ permeability. The substance P receptor was characterized pharmacologically. Analogues of substance P with D-amino acids e.g. spantide, and substance P-methyl ester were similarly active. Substance P (free acid), fragments of the substance P precursor, and substance P-(1-9) displayed no activity. This indicates the importance of the hydrophobic C-terminal for stimulation of the hybrid cells. The potency was reduced with decreasing length the of C-terminal fragments. However, the substance P antagonists [D-Pro4,D-Trp7,9,Nle11]substance P-(4-11) and [D-Pro4,D-Trp7,9,10]substance P-(4-11) showed substantially greater activity than substance P-(4-11). Substance P-(6-11) (i.e. H-Arg-DTrp-MePhe-DTrp-Leu-Met-NH2) behaved as a mixed agonist-antagonist. At concentrations higher than 10 microM, it inhibited the stimulation exerted by substance P. No other peptides of the tachykinin family (neurokinins A and B, physalaemin, eledoisin, kassinin) nor the synthetic analogues with specificity for certain receptor subtypes ([pGlu6,Pro9]substance P-(6-11), DiMe-C7, i.e. [pGlu5,MePhe8,Sar9]substance P-(5-11) and senktide, i.e. N-succinyl-[Asp6,MePhe8]substance P-(6-11) had any effect on guanidinium uptake in the hybrid cells. Hence, the substance P site with low affinity on the hybrid cells does not fit into the usual classification of tachykinin receptors but resembles the site that modulates nicotinic acetylcholine receptors on chromaffin cells.
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PMID:Characterization of a substance P receptor activating a cation permeability in neuronal cell lines. 245 Jul 63

Depolarization of differentiated neuroblastoma X glioma (NG108-15) cells with KCl (50 mM) or veratridine (50 microM) stimulated Ca2+ accumulation, was detected by quin 2 fluorescence. Intracellular Ca2+ concentrations ([Ca2+]i) were elevated about threefold from 159 +/- 7 to 595 +/- 52 nM (n = 12). Ca2+ entry evoked by high extracellular K+ concentration ([K+]o) was voltage-dependent and enhanced by the dihydropyridine agonists, BAY K 8644 and CGP 28 392, in a dose-dependent manner. CGP 28 392 was less potent and less efficacious than BAY K 8644. The (+) and (-) stereoisomers of 202-791 showed agonist and antagonist properties, respectively. (+)-202-791 was less potent, but as efficacious as BAY K 8644. In the absence of KCl, BAY K 8644 had no effect on Ca2+ entry. Voltage-sensitive calcium channel (VSCC) activity was blocked by organic Ca2+ channel antagonists (nanomolar range) both before and after KCl treatment and also by divalent metal cations (micromolar range). High [K+]o-induced Ca2+ accumulation was dependent on external Ca2+, but not on external Na+ ions ([Na]o), and was insensitive to both tetrodotoxin (3 microM) and tetraethylammonium (10 microM). In contrast, veratridine-induced Ca2+ accumulation required [Na+]o, and was blocked by tetrodotoxin, but not by nimodipine (1 microM). Veratridine-induced Ca2+ accumulation was slower (approximately 45 s), smaller in magnitude (approximately 30% of [K+]o-induced Ca2+ entry), and also enhanced by BAY K 8644 (approximately 50%). VSCC were identified in neuronal hybrid (NG108-15 and NCB-20) cells, but not in glial (C6BU-1), renal epithelial (MDCK), and human astrocytoma (1321N1) cells. NG108-15 cells differentiated with 1.0 mM dibutyryl cyclic AMP showed greater VSCC activity than undifferentiated cultures. These results suggest that cultured neural cells provide a useful system to study Ca2+ regulation via ion channels.
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PMID:Voltage-sensitive calcium channels in differentiated neuroblastoma X glioma hybrid (NG108-15) cells: characterization by quin 2 fluorescence. 245 33

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

Human glioma cells obtained from established cell lines (Tp-276MG, Tp-301MG, Tp-378MG, Tp-483MG and U-251MG) were analyzed for the presence of ion channels with the tight-seal voltage clamp technique. The current-voltage relation revealed a marked inward rectification at hyperpolarizing voltages, due to the presence of inward rectifying K-channels in cells from all studied cell lines. These channels were conducting when the membrane potential was more negative than the K-equilibrium potential. The slope conductance for the inward K-currents (gKi) was affected both by [K+]i and [K+]o. gKi was proportional to [K+]o raised to 0.35 or 0.50, of which the larger value was measured in the presence of low [K+]i (25 mM). The rectification was not significantly different in cells perfused with Mg-free EDTA-buffered internal solution. Tl+ was 3.5 times more permanent than K+. gKi was blocked by Cs+ (1 mM) in a voltage-dependent way (more effective in the hyperpolarized membrane), and by Na+ (154 mM) depending on voltage and time. From measurements of unitary current events in membrane patches (outside out or cell attached) the conductance of the single inward rectifying channel was estimated to be 27 +/- 7 pS. This type of ion channel may be important for K-uptake by glial cells and hence for the K-homeostasis in the brain.
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PMID:Inward rectifying potassium channels in human malignant glioma cells. 246 12

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