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)

Inositol 1,4,5-trisphosphate (InsP3) receptor immunoreactivity in SH-SY5Y human neuroblastoma cells was monitored with a monoclonal antibody raised against the mouse cerebellar InsP3 receptor. Recognition of a protein corresponding to the InsP3 receptor (molecular mass, approximately 275 kDa) was inhibited markedly following exposure of cells to 0.1 mM carbachol. This effect was half-maximal and maximal at approximately 2 and approximately 6 h, respectively; was blocked by atropine; but was not mimicked by thapsigargin, K+, or phorbol 12-myristate 13-acetate. However, the decrease in immunoreactivity following exposure of cells to carbachol for 5 h was blocked if the extracellular Ca2+ concentration was reduced from 1.3 mM to 200 nM. This manipulation also reduced markedly carbachol-induced increases in InsP3 concentration at 5 h. These data indicate that chronic muscarinic stimulation of phosphoinositide hydrolysis reduces InsP3 receptor concentration in SH-SY5Y cells, perhaps via a mechanism that involves prolonged elevation of InsP3 levels.
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PMID:Inositol 1,4,5-trisphosphate receptor immunoreactivity in SH-SY5Y human neuroblastoma cells is reduced by chronic muscarinic receptor activation. 131 71

N-type calcium channels are omega-conotoxin (omega-CgTx)-sensitive, voltage-dependent ion channels involved in the control of neurotransmitter release from neurons. Multiple subtypes of voltage-dependent calcium channel complexes exist, and it is the alpha 1 subunit of the complex that forms the pore through which calcium enters the cell. The primary structures of human neuronal calcium channel alpha 1B subunits were deduced by the characterization of overlapping complementary DNAs. Two forms (alpha 1B-1 and alpha 1B-2) were identified in human neuroblastoma (IMR32) cells and in the central nervous system, but not in skeletal muscle or aorta tissues. The alpha 1B-1 subunit directs the recombinant expression of N-type calcium channel activity when it is transiently co-expressed with human neuronal beta 2 and alpha 2b subunits in mammalian HEK293 cells. The recombinant channel was irreversibly blocked by omega-CgTx but was insensitive to dihydropyridines. The alpha 1B-1 alpha 2b beta 2-transfected cells displayed a single class of saturable, high-affinity (dissociation constant = 55 pM) omega-CgTx binding sites. Co-expression of the beta 2 subunit was necessary for N-type channel activity, whereas the alpha 2b subunit appeared to modulate the expression of the channel. The heterogeneity of alpha 1B subunits, along with the heterogeneity of alpha 2 and beta subunits, is consistent with multiple, biophysically distinct N-type calcium channels.
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PMID:Structure and functional expression of an omega-conotoxin-sensitive human N-type calcium channel. 132 1

We have directly evaluated the effects of various intracellular second messengers including cyclic nucleotides, calcium ion, and inositol polyphosphates on shape and motility of differentiating mouse neuroblastoma cells. The messengers were microinjected into cells and the responses of the soma, neurite, and growth cone were monitored using time-lapse video microscopy. Each messenger altered cell shape and motility in a characteristic manner. Cyclic AMP promoted lamellipodial expansion, neurite outgrowth, and motility. The other injected messengers opposed motility. Cyclic GMP caused motile structures to freeze and to retract permanently, while the inhibitory effects of calcium injection were concentration-dependent. Small calcium injections affected specifically actin-containing motile structures which froze and retracted temporarily. Intermediate calcium injections caused a strong contraction at the site of injection in all cells. With large injections, cells retracted long neurites, rounded up, and frequently began vigorous blebbing that continued to cell death. Injections of the inositol polyphosphates IP3(1,4,5) and IP4(1,4,5,6) mimicked the effects of small calcium injections, as did electrical stimulation that elicited action potentials. The results suggest that in mouse neuroblastoma cells, intracellular cAMP elevation increases cytoskeletal organization and promotes neurite extension perhaps through an enhancement of cell-substratum adhesion. On the other hand, a rise of intracellular cGMP or intracellular calcium interferes directly with the function and organization of the actin-microfilament system. The integrated action of these second messenger systems may, therefore, operate in vivo to allow substances released from neighboring cells to regulate neuronal architecture.
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PMID:Intracellular cyclic AMP produces effects opposite to those of cyclic GMP and calcium on shape and motility of neuroblastoma cells. 132 90

Studies have demonstrated that augmenting the omega 6 polyunsaturated-fatty-acid (PUFA) content of N1E-115 neuroblastoma cells by media supplementation with linoleic acid results in greater than or equal to 2-fold increases in basal levels of intracellular cyclic AMP (cAMP). Data suggested some involvement of increased production of adenosine from endogenous metabolites; however, increases in adenosine were not related to increased activity of 5'-nucleotidase or decreased uptake of extracellular adenosine. PUFA-dependent elevations in basal cAMP were evident within 1 min of exposure to a phosphodiesterase inhibitor; this phenomenon did not appear to be due to PUFA-dependent changes in Ca2+ uptake or to increases in sensitivity of adenylate cyclase to Ca2+. Forskolin-stimulated cAMP formation was 3-fold higher in PUFA-enriched cells than in control cells, which suggested a direct effect on the functioning of the catalytic unit. Linoleic acid supplementation resulted in a 2-fold increase in the maximum amounts of cAMP produced in response to the stable adenosine analogue, 5'-N'ethylcarboxy-amidoadenosine (NECA). The altered stimulatory response did not involve eicosanoid formation, but may have been related to an increase in the number of stimulatory adenosine receptors, as judged by binding of [3H]NECA. These studies indicate that membrane PUFA modulate adenosine-related functions in neuroblastoma cells, and suggest that a complex series of mechanisms is involved in this regulation.
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PMID:Non-eicosanoid functions of essential fatty acids: regulation of adenosine-related functions in cultured neuroblastoma cells. 132 28

Platelet-activating factor (PAF) initiated polyphosphoinositide (polyPI) breakdown and a rise of intracellular calcium concentration ([Ca2+]i) in neuroblastoma x glioma hybrid NG 108-15 cells. The accumulation of [3H]inositol trisphosphate and [3H]inositol bisphosphate was evident within 15 s after PAF stimulation, peaked at 1 min, and then gradually decayed. The increase in [3H]inositol monophosphate level was observed at 30 s, plateaued in 5 min, and was sustained up to 10 min in the presence of 10 mM LiCl. On the other hand, the rise of [Ca2+]i evoked by PAF reached a peak within 8-12 s and returned to basal levels within 1 min as measured in fura 2-loaded cells. When cells were suspended in Ca(2+)-depleted medium, the PAF-induced [Ca2+]i rise was reduced by 80%, indicating that the increase of [Ca2+]i was predominantly due to the Ca2+ influx from an extracellular source. Both PAF-induced accumulation of 3H-labeled inositol phosphates and [Ca2+]i elevation were concentration dependent with EC50 values of approximately 1 x 10(-10) and 5 x 10(-8) M, respectively. The PAF analogs 1-O-hexadecyl-2-hydroxy-sn-glycero-3-phosphocholine and 1-O-hexadecyl-2-O-methyl-rac-glycerol-3-phosphocholine were much poorer agonists at eliciting the same responses in these cells. Pretreatment of cells with pertussis toxin caused a substantial inhibition of PAF-induced accumulation of 3H-inositol phosphates. In contrast, the rise in [Ca2+]i was not significantly affected by toxin treatment at the same concentration.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Possible existence of two subsets of platelet-activating factor receptor to mediate polyphosphoinositide breakdown and calcium influx in neuroblastoma x glioma hybrid NG 108-15 cells. 132 66

The turnover of voltage-operated calcium channels was studied in two different human neuroblastoma cell lines (IMR32 and SH-SY5Y) using omega-conotoxin. The 125I-omega-conotoxin bound to surface channels was internalized and degraded by the cells in a time- and temperature-dependent manner. The radioactive degradation products released in the medium were all trichloroacetic acid soluble and no longer recognized by anti-omega-conotoxin antibodies. Altering the pH of intracellular organelles with chloroquine and inhibiting lysosomal proteases with leupeptin reduced 125I-omega-conotoxin degradation but had no effect on its internalization. Postlabeling measurements showed that the rates of 125I-omega-conotoxin internalization and degradation were equal to the rate of channel removal from the cell surface after protein synthesis inhibition. The rate of removal of omega-conotoxin binding sites was parallel to the rate of loss of functional channels, as measured by means of the fura-2 technique. Drug-induced differentiation of human neuroblastoma cells slowed down channel internalization and degradation rates, leading to the known increased expression of plasma membrane calcium channels in differentiated cells. On the other hand, both human (from Lambert-Eaton myasthenic patients) and murine (from immunized mice) anti-channel antibodies increased the rates of channel internalization and degradation, leading to channel downregulation. The activity of presynaptic calcium channels is already known to be acutely modulated by a number of different agents (e.g., hormones and neurotransmitters); our studies suggest that a different form of channel modulation (changes in the number of channels due to interference with channel turnover) may be active over a longer time scale in neurons.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Metabolism of omega-conotoxin-sensitive voltage-operated calcium channels in human neuroblastoma cells: modulation by cell differentiation and anti-channel antibodies. 132 5

To understand the cellular mechanisms that lead to the generation of synaptic plasticity of neuronal cells, it is important to understand the intracellular responses of neuronal cells stimulated via synaptic transmission. The stimulation of mouse cerebellar granule cells via NMDA (N-methyl-D-aspartate) receptors caused an increase in deoxyribonucleic acid (DNA)-binding activities to TRE (12-O-tetradecanoylphorbol-13-acetate-responsive element) and CRE (adenosine 3',5'-cyclic monophosphate-responsive element) motifs, depending upon the presence of extracellular Ca2+. The increases in TRE- and CRE-binding activities were also detected with the stimulation of non-NMDA receptors by kainate. The increases in TRE- and CRE-binding activities were both mediated by the same DNA-binding complexes whose binding affinity to CRE was about three-fold higher than that to TRE. On the other hand, the stimulation of neuroblastoma x glioma hybrid NG108-15 via muscarinic acetylcholine receptors, alpha 2-adrenergic receptors and bradykinin receptors caused a rapid induction of zif/268. An additive effect on the induction of zif/268 was observed when the different stimuli were simultaneously added. Thus, it is extremely likely that signals transduced via synaptic transmission are transferred to the level of gene expression and evoke some events which might contribute to the generation of synaptic plasticity in neuronal cells. In addition, we have found that the direct injection of plasmid DNAs into mouse skeletal muscle with fructose, glucose or NaCl solution led to a long-term expression of the introduced gene in muscle cells.
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PMID:[Genetical responses of neuronal cells to synaptic transmission]. 132 98

The signal transduction systems of the neuropeptide Y (NPY) Y1 receptor were studied in SK-N-MC human neuroblastoma cells. NPY induced an increase in intracellular calcium ion concentration ([Ca2+]i) and inhibition of forskolin-stimulated cyclic AMP accumulation, which were mediated through Y1 receptors. One-min preincubation of cells with phorbol 12-myristate 13-acetate (PMA) inhibited both signal transductions dose-dependently, but its effect on [Ca2+]i was about 100-fold more potent than that on cyclic AMP. PMA had no effect on [125I]BH-NPY binding in SK-N-MC cells and hardly inhibited the endothelin-1-induced increase in [Ca2+]i. Pertussis toxin also inhibited the NPY-induced [Ca2+]i increase 30-fold more effectively than the NPY-mediated inhibition of cyclic AMP accumulation. These results indicate that Y1 receptors in SK-N-MC cells couple to two signal transduction systems that have different sensitivities to phorbol ester and pertussis toxin treatments.
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PMID:Two different signal transductions of neuropeptide Y1 receptor in SK-N-MC cells. 132 39

The properties of low (LVA) and high (HVA) voltage-activated calcium currents were investigated in rat sensory neurons and a murine neuroblastoma cell line exposed to various concentrations of intra- or extracellular monovalent ([c+]i/o) and trivalent ([c3+]i/o) cations. In neurons, when [c+]i was changed from 150 to 20 mM, positive shifts of 18-28 mV were observed in activation curves of both LVA and HVA currents, as well as in LVA inactivation curves. Extracellularly, in divalent-free solutions, [c+]o of 20-50 mM produced medium (12-22 mV) negative shifts of the LVA channel properties. These data were used to estimate, by a "screening" model, a negative surface charge density around neuron's calcium channels of 1/1,000 and 1/1,325 eA-2 at the outside or inside face, respectively. In the presence of physiological concentrations of divalent cations, [c+]o of 20-60 mM caused smaller (4-11 mV) negative shifts of the activation and inactivation curves, which can be explained by assuming a partial neutralization of negative charges by divalent cations. By applying the above procedure to LVA channels of neuroblastoma cells, the ratio of extra- to intracellular surface charge density turned out to be more than tenfold higher than in neurons. Effects produced by [c3+]i/o were not in agreement with expectations based on screening or binding models.
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PMID:Intra and extracellular surface charges near Ca2+ channels in neurons and neuroblastoma cells. 133 41

Adriamycin, an anticancer agent acting on topoisomerase II, promotes the arrest of cell division and neurite extension in a "neurite-minus" murine neuroblastoma cell line, N1A-103. This morphological differentiation is accompanied by a blockade in the S phase of the cell cycle, modification of the amount of peripherin, and appearance of the beta 7-tubulin isoform. Yet, adriamycin-induced N1A-103 cells fail to express other neuronal markers, such as long-lasting Ca2+ channels, synaptophysin, and the shift in the proportion of the beta'1 tubulin isoform to the beta'2 isoform, whose appearance parallels the terminal differentiation of the wild type neuroblastoma cell line N1E-115. Hence, a comparison of the behavior of these two cell lines leads to the proposal that there are two programs of neuroblastoma differentiation: one where expression is triggered by the arrest of cell division and which is observed in adriamycin-induced N1A-103 variant cells, and the other, presumably occurring further downstream, which would involve further changes in morphogenesis and acquisition of new electrophysiological properties.
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PMID:Adriamycin promotes neurite outgrowth in the "neurite-minus" N1A-103 mouse neuroblastoma cell line. 133 Jun 60


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