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

Because increasing evidence indicates that glial cells are a target of endothelin, we have characterized endothelin-induced phosphoinositide (PI) turnover and Ca2+ homeostasis in C6 glioma cells. Endothelin-1 (ET) increased formation of 3H-inositol phosphate (IP) from PI and elicited an increase in cytosolic free Ca2+ ([Ca2+]i) in rat C6 glioma. In the presence of Li+, the increase in 3H-inositol trisphosphate formation was rapid, reaching its peak at 5 min after stimulation. ET also elicited a rapid and sustained increase in [Ca2+]i in a dose-dependent manner (1-100 nM). The rank orders of efficacy for ET-related peptides in increasing [Ca2+]i were ET = ET-2 greater than sarafotoxin greater than ET-3. Both ET-mediated stimulation of IP formation and [Ca2+]i increase were largely inhibited in the absence of external Ca2+ but unaffected by the depletion of external Na+ and the presence of dihydropyridine derivatives or verapamil. Inorganic Ca2+ channel blockers Cd2+, La3+, and Mn2+ at 1 mM inhibited both responses induced by ET. Cross-desensitization and nonadditivity were observed for both events among ET-related peptides tested, but not between ET and ATP. Pretreatment of cells with pertussis toxin (PTX) attenuated the PI response to ET, but had no effect on ET-elicited [Ca2+]i increase. ET-induced Ca2+ mobilization (measured in Ca(2+)-free medium) was only transient and was inhibited by 8-(N,N-diethylamino)octyl-3,4,5-trimethoxybenzoate. Moreover, the intracellular Ca2+ pools mobilized by ET and ATP appeared to overlap, as indicated by their partial heterologous desensitization.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pharmacological characterization of endothelin-stimulated phosphoinositide breakdown and cytosolic free Ca2+ rise in rat C6 glioma cells. 131 33

Maitotoxin elicits a dose-dependent stimulation of 45Ca2+ influx in glioma C6, pheochromocytoma PC12, insulinoma HIT and human blood cells, while having no effect in liposomes. In HIT cells maitotoxin also elicited influx of 86Rb+ greater than 22Na+ greater than 54Mn2+, but the stimulation was far less than for 45Ca2+. Stimulation of 45Ca2+ influx was blocked by Ni2+, Co2+, Cd2+ and Mn2+, and markedly reduced by Ba2+. Divalent cations, in particular Ca2+, Ba2+, Mn2+ and Cd2+, enhanced influx of the monovalent cations 22Na+ and 86Rb+.
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PMID:Selective stimulation of Ca2+ flux in cells by maitotoxin. 133 Jun 38

1. Pharmacological and kinetic properties of high-voltage-activated (HVA) Ca2+ channel currents were studied using the whole-cell and perforated patch-clamp methods in a mouse neuroblastoma and rat glioma hybrid cell line, NG108-15, differentiated by dibutyryl cyclic AMP or by prostaglandin E1 and theophylline. 2. The HVA currents were separated into two components by use of two organic Ca2+ channel antagonists, omega-conotoxin GVIA (omega CgTX) and a dihydropyridine (DHP) compound, nifedipine. One current component, IDHP, was blocked by nifedipine (Kd = 8.2 nM) and was resistant to omega CgTX. Conversely, the other component, I omega CgTX, was irreversibly blocked by omega CgTX and was resistant to DHPs. Thus, IDHP could be studied in isolation by a short application of omega CgTX, while I omega CgTX could be studied in the presence of nifedipine. 3. The voltage for half-activation of IDHP was smaller than that of I omega CgTX by 13 mV. IDHP was activated at potentials that were subthreshold for voltage-dependent K+ currents of the cell, whereas I omega CgTX was not. 4. Time courses of activation and deactivation of IDHP were faster than those of I omega CgTX. 5. Voltage-dependent inactivation was small for both IDHP and I omega CgTX at any potential. 6. Ca(2+)-dependent inactivation of IDHP was faster and more prominent than that of I omega CgTX. The time course of the Ca(2+)-dependent inactivation of IDHP, but not I omega CgTX, was slowed as the membrane potential was made more positive between -20 and 30 mV, although amplitude of the current was increased. 7. Alkaline earth metal ions carried the two components of IHVA in the same order: Ba2+ greater than Sr2+ greater than Ca2+. 8. Metal ions blocked the two components of IHVA in the same order of potency: Gd3+ greater than La3+ greater than Cd2+ greater than Cu2+ greater than Mn2+ greater than Ni2+. 9. An alkylating agent, N-ethylmaleimide (NEM, 0.1 mM), selectively augmented IDHP by 30%. 10. During the course of cellular differentiation induced by dibutyryl cyclic AMP, IDHP appeared earlier than I omega CgTX. 11. These results indicate that two classes of Ca2+ channels contribute to the HVA currents of this cell line. The DHP-sensitive channel is more apt to generate Ca2+ spikes and Ca2+ plateau potentials than the omega CgTX-sensitive channel.
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PMID:Dihydropyridine-sensitive and omega-conotoxin-sensitive calcium channels in a mammalian neuroblastoma-glioma cell line. 137 34

1. The M-like current IK(M,ng) in differentiated NG108-15 mouse neuroblastoma x rat glioma hybrid cells has been studied using tight-seal, whole-cell patch-clamp recording. 2. When calculated from steady-state current-voltage curves, the conductance underlying IK(M,ng) showed a Boltzmann dependence on voltage with half-activation voltage Vo = -44 mV (in 3 mM [K+]) and slope factor (a) = 8.1 mV/e-fold increase in conductance. In 12 mM [K+] Vo = -38 mV and a = 6.9 mV. The deactivation reciprocal time constant accelerated with hyperpolarization with slope factor 17 mV/e-fold voltage change. 3. The reversal potential for deactivation tail currents varied with external [K+] as if PNa/PK were 0.005. 4. Steady-state current was increased on removing external Ca2+. In the presence of external Ca2+, reactivation of IK(M, ng) after a hyperpolarizing step was delayed. This delay was preceded by an inward Ca2+ current, and coincided with an increase in intracellular [Ca2+] as measured with Indo-1 fluorescence. Elevation of intracellular [Ca2+] with caffeine also reduced IK(M, ng). 5. IK(M, ng) was inhibited by external divalent cations in decreasing order of potency (mM IC50 in parentheses): Zn2+ (0.011) greater than Cu2+ (0.018) greater than Cd2+ (0.070) greater than Ni2+ (0.44) greater than Ba2+ (0.47) greater than Fe2+ (0.69) greater than Mn2+ (0.86) greater than Co2+ (0.92) greater than Ca2+ (5.6) greater than Mg2+ (16) greater than Sr2+ (33). This was not secondary to inhibition of ICa since: (i) inhibition persisted in Ca(2+)-free solution; (ii) La3+ did not inhibit IK(M, ng) at concentrations which inhibited ICa; and (iii) organic Ca2+ channel blockers were ineffective. Inhibition comprised both depression of the maximum conductance and a positive shift of the activation curve. Addition of Ca2+ (10 microM free [Ca2+]) or Ba2+ (1 mM total [Ba2+]) to the pipette solution did not significantly change IK(M, ng). 6. IK(M, ng) was reduced by 9-amino-1,2,3,4-tetrahydroacridine (IC50 8 microM) and quinine (30 microM) but was insensitive to tetraethylammonium (IC50 greater than 30 mM), 4-aminopyridine (greater than 10 mM), apamin (greater than 3 microM) or dendrotoxin (greater than 100 nM). 7. IK(M, ng) was inhibited by bradykinin (1-10 microM) or angiotensin II (1-10 microM), but not by the following other receptor agonists: acetylcholine (10 mM), muscarine (10 microM), noradrenaline (100 microM), adrenaline (100 microM), dopamine (100 microM), histamine (100 microM), 5-hydroxytryptamine (10 microM), Met-enkephalin (1 microM), glycine (100 microM), gamma-aminobutyric acid (100 microM) or baclofen (500 microM).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Kinetic and pharmacological properties of the M-current in rodent neuroblastoma x glioma hybrid cells. 140 9

The influence of the neurotoxic agents lead and cadmium on human glioma cells (86HG-39, 87HG-31, 88HG-14, and A172) and rat glioma cells (F98 and RG2) was investigated in vitro by means of immunocytochemistry and growth data. Both heavy metals increased the growth rate, decreased the expression of differentiation markers (glial fibrillary acidic protein, S100 protein), and increased the expression of the malignancy marker transferrin receptor. The results indicate a decrease in the level of differentiation and impairment of glial cell function. Consequently, the neurotoxicity of Pb and Cd may be attributed to direct action not only on neurons but also on glial cells necessary for neuronal function. Possible molecular mechanisms are discussed.
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PMID:Modulation of glial cell differentiation by exposure to lead and cadmium. 152 29

Endothelin (ET)-related peptides robustly stimulated [3H]-inositol phosphate (IP) formation in cultured cerebellar granule cells, astrocytes, and C6 glioma cells. Their agonist selectivities were ET-1 = ET-2 greater than or equal to sarafotoxin S6b greater than ET-3 greater than big ET-1 for granule cells and ET-1 greater than or equal to ET-2 greater than or equal to S6b greater than big ET-1 greater than ET-3 for cerebellar astrocytes and C6 glioma cells. These effects were Ca(2+)-dependent but insensitive to antagonists of L-type Ca2+ channels and the Na+/Ca2+ antiporter. Pretreatment of cells with ET-1 or S6b induced homologous desensitization of phosphoinositide (PI) response mediated by ET receptors. Long-term pertussis toxin (PTX) treatment attenuated the phosphoinositide (PI) response in astrocytes and glioma but not in granule cells. ET-1 and its related peptides increased [Ca2+]i in C6 glioma by two distinct pathways: IP3-induced Ca2+ mobilization or receptor-operated Ca2+ influx. La3+, Mn2+, and Cd2+ inhibited the Ca2+ influx and sustained PI turnover, while Ca2+ mobilization was attenuated by phorbol ester and TMB-8. ET-induced Ca2+ influx was essential for the sustained [Ca2+]i increase and PI turnover. Homologous desensitization of [Ca2+]i increase was also noted. In cerebellar granule cells, ET evoked the release of [3H]D-aspartate from these neurons. This action appears to be dependent on PI hydrolysis and [Ca2+]i increase and modulated by protein kinase C.
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PMID:Endothelin-induced activation of phosphoinositide turnover, calcium mobilization, and transmitter release in cultured neurons and neurally related cell types. 172 40

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

1. Membrane currents were recorded from voltage-clamped, microelectrode-impaled cells of the NG108-15 mouse neuroblastoma x rat glioma clonal cell line, differentiated with prostaglandin E1. 2. A slow outward tail current reversing at post-pulse potentials between -80 and -90 mV was evoked by depolarizing pre-pulses to near 0 mV. The tail current was inhibited by Cd2+ ions (0.2-1 mM) and hence attributed to activation of a Ca2+-dependent K+ current by a priming voltage-activated Ca2+ current. 3. Two components to this tail current could be distinguished pharmacologically: an early (less than or equal to 50 ms) component inhibited by 1-5 mM-tetraethylammonium (TEA), and a late component lasting several hundred milliseconds inhibited by apamin (0.1-0.4 microM) or d-tubocurarine (0.1-0.5 mM). 4. Ionophoretic injection of Ca2+ ions evoked a transient outward current with an apparent reversal potential (from ramped current-voltage curves) of -70 mV. This current was succeeded or sometimes replaced by an inward current with an apparent reversal potential between -20 and -10 mV. 5. The outward current induced by Ca2+ injections was unaffected or partly inhibited by TEA (1-5 mM), but was strongly inhibited by apamin or d-tubocurarine. 6. Hyperpolarizing voltage steps from between -30 and -40 mV induced inward current relaxations reversing at between -80 and -90 mV. These were considered to result from deactivation of the voltage-dependent sustained K+ current, IM. 7. Application of methacholine, muscarine or Ba2+ ions produced an inward current, reduced input conductance and reduced IM deactivation relaxations. 8. It is concluded that differentiated NG108-15 cells possess several of the K+ currents present in sympathetic neurones, including a delayed rectifier current, two species of Ca2+-activated K+ current and the M-current.
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PMID:Voltage- and calcium-activated potassium currents in mouse neuroblastoma x rat glioma hybrid cells. 245 95

1. Membrane current responses to focal application of bradykinin (BK) were recorded in voltage-clamped NG108-15 neuroblastoma x glioma hybrid cells. 2. BK produced sequential outward and inward currents at clamp potentials between -60 and -30 mV, designated IBK(out) and IBK(in), respectively. 3. The outward current IBK(out) was accompanied by an increased membrane conductance. Ramp current-voltage (I-V) curves yielded a reversal potential (VBK) of -80 +/- 5.6 mV (mean +/- S.D., n = 9) in 5.4 mM [K+]o. VBK showed a positive shift on raising [K+]o, compatible with a primary increase in K+ conductance. Subtracted I-V curves indicated that the underlying conductance was not strongly voltage dependent between -120 and -40 mV. 4. IBK(out) was inhibited by d-tubocurarine (dTC, 0.1-0.5 mM) but was insensitive to tetraethylammonium (TEA) below 5 mM. 5. The inward current IBK(in) was accompanied by a fall in membrane conductance. This was associated with the inhibition of a time- and voltage-dependent K+ current, IM. In consequence, IBK(in) was strongly voltage dependent and dissipated, usually without reversal, on hyperpolarizing the cell beyond -70 mV in 5.4 mM [K+]o. Reversal to an outward current negative to -40 mV could be obtained on raising [K+]o to 54 mM. 5. Both IBK(in) and IBK(out) persisted when ICa was blocked with Co2+ or Cd2+. IBK(out) slowly diminished in Ca2+-free, Mg2+-substituted solution. 6. The Ca2+ spike current ICa and the Ca2+-activated K+ current IAHP were inhibited during IBK(out) or after Ca2+ injections. BK did not affect the voltage-activated K+ current IK(V) recorded in Co2+ solution. 7. It is concluded that the dual response to BK results from opposing effects on two different species of K+ current. IBK(out) results from activation of a Ca2+-dependent, voltage-insensitive K+ conductance, probably mediated by a transient rise in intracellular Ca2+. It is suggested that the Ca2+ is released from an intracellular store. IBK(in) results primarily from inhibition of the Ca2+-independent, voltage-gated K+ current, IM. This effect is not replicated by a rise of intracellular Ca2+ and must therefore be generated by another mechanism.
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PMID:Membrane current responses of NG108-15 mouse neuroblastoma x rat glioma hybrid cells to bradykinin. 245 96

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


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