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)

Whole cell currents were recorded in F11 cells, a mouse neuroblastoma (NG18TG2) x rat DRG hybrid cell line, using pipette and bath solutions intended to isolate any chloride conductance pathways. When recording with a pipette solution which was 40 mmol.kg-1 hypotonic to the bath solution, all cells showed a transient rise in input conductance which peaked 5.3 +/- 0.4 min after breaking into the cell and returned to the basal state 11.7 +/- 1.2 min later. At the peak of the effect, cell conductance had increased approximately sixfold. The use of short (300 ms) duration voltage steps at the peak of the conductance increase evoked whole-cell currents which were time-independent and had an outwardly rectifying current/voltage relationship. Ion substitution experiments showed that the whole-cell currents were carried by chloride ions and that the anion selectivity sequence of the conductance was I > Br > Cl > F > acetate. The stilbene derivative 4,4'-diisothiocyanostilbene-2,2'-disulphonic acid (DIDS) caused a reversible, 51% inhibition of the chloride currents. In cells which had already undergone this transient rise in conductance, whole-cell currents with identical properties could be activated by changing to a very hypotonic bath solution. Coincident with current activation, this manoeuvre caused a visible swelling of the cell. The increase in conductance and the cell swelling were both reversed by returning to the normal bath solution. In contrast, when a very hypotonic pipette solution was used, little or no increase in cell conductance was observed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A volume-sensitive Cl- conductance in a mouse neuroblastoma x rat dorsal root ganglion cell line (F11). 839 84

The effects of the mu opioid receptor agonists, morphine and Tyr-D-Ala-Gly-N-methyl-Phe-Gly-ol (DAGO), the delta opioid receptor agonist, Tyr-D-Pen-Gly-Phe-D-penicillamine (DPDPE) and the kappa-opioid receptor agonist, dynorphin A-(1-13) on the whole-cell K+ currents (IK) of cultured mouse DRG neurons and neuroblastoma X DRG neuron hybrid F11 cells were studied. These opioid ligands all elicited dual effects. Low concentrations (< nM) usually elicited a transient increase in IK (within 1 min), followed by a sustained decrease in IK. In contrast, microM concentrations rapidly elicited a sustained increase in IK. After brief treatment with cholera toxin subunit B (CTX-B), the usual sustained decrease in IK evoked by < nM opioid agonists no longer occurred. Low concentrations then elicited only a sustained increase in IK. On the other hand, after chronic treatment with pertussis toxin (PTX), the usual microM opioid-induced increases in IK no longer occurred and more than half of the cells responded with a sustained decrease of IK to microM as well as nM opioids. The results suggest that mu, delta and kappa opioid receptors are each coupled to K+ channels through CTX-B- and PTX-sensitive transduction systems. Both systems have similar threshold concentrations to opioids. Activation of the CTX-B-sensitive opioid receptor/transduction system resulted in a decrease in K+ conductance of the cell which is generally associated with an increase in neuronal excitability. Activation of the other system resulted in an increase in K+ conductance which will, in general, decrease neuronal excitability. The net change in the IK depends upon which effect predominates. The dominance at different opioid concentrations may depend on the relative efficacies of the coupling of these two systems to K+ channels.
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PMID:Dual regulation by mu, delta and kappa opioid receptor agonists of K+ conductance of DRG neurons and neuroblastoma X DRG neuron hybrid F11 cells. 857 91

The mouse gene encoding ST8Sia IV/PST, one of two polysialic acid synthases, was isolated and characterized. The mST8Sia IV/PST gene was found to comprise over 60 kilobases and to be composed of five exons. Primer extension analysis revealed that transcription started from 333 nucleotides upstream of the translational initiation site. Transfection with nested deletion mutants of the 5'-flanking region fused to the luciferase reporter gene revealed that the promoter activity of the -107/+145 region was correlated with the gene expression of mST8Sia IV/PST in embryonal carcinoma P19 and neuroblastoma F11 cells. This proximal promoter region lacks an apparent TATA box but has putative binding sites for transcription factors Sp1 and NF-Y (CCAAT binding protein) at nucleotide positions -66/-57 and -47/-37, respectively. Individual deletions and mutations of the inverted Sp1 binding site or inverted NF-Y binding site caused significant reduction of the promoter activity, indicating that each binding site was involved in essential transcription control. Mobility shift assaying also revealed that Sp1 and NF-Y in a nuclear extract of P19 cells bind to the promoter region of the mST8Sia IV/PST gene. Deletion of the region from -60 to -40, which contains parts of both the Sp1 and NF-Y binding sites, completely abolished the promoter activity, suggesting that both Sp1 and NF-Y are synergetically involved in transcription regulation of the mST8Sia IV/PST gene in P19 and F11 cells. Although the overall structures of the two polysialic acid synthase genes (ST8Sia II/STX and IV/PST) are very similar, there is no extensive sequence homology between the 5'-flanking regions of the ST8Sia II/STX and IV/PST genes, suggesting that these two genes are expressed under different regulatory systems.
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PMID:Genomic structure and promoter activity of the mouse polysialic acid synthase (mST8Sia IV/PST) gene. 951 73

The epsilon4 genotype of apolipoprotein E (apoE4) is the most established predisposing factor in Alzheimer's disease (AD); however, it remains unclear how apoE4 contributes to the pathophysiology. Here, we report that the apoE4 protein (ApoE4) evokes apoptosis in neuronal cells through the low-density lipoprotein receptor-related protein (LRP) and heterotrimeric GTPases. We examined neuron/neuroblastoma hybrid F11 cells and found that these cells were killed by 30 microg/ml ApoE4, but not by 30 microg/ml ApoE3. ApoE4-induced death occurred with typical features for apoptosis in time- and dose-dependent manners, and was observed in SH-SY5Y neuroblastomas, but not in glioblastomas or non-neuronal Chinese hamster ovary cells. Activated, but not native, alpha2-macroglobulin suppressed this ApoE4 toxicity. Suppression by the antisense oligonucleotide to LRP and inhibition by low nanomolar concentrations of LRP-associated protein RAP provided evidence for the involvement of LRP. The involvement of heterotrimeric GTPases was demonstrated by the findings that (1) ApoE4-induced death was suppressed by pertussis toxin (PTX), but not by heat-inactivated PTX; and (2) transfection with PTX-resistant mutant cDNAs of Galpha(i) restored the toxicity of ApoE4 restricted by PTX. We thus conclude that one of the neurotoxic mechanisms triggered by ApoE4 is to activate a cell type-specific apoptogenic program involving LRP and the G(i) class of GTPases and that the apoE4 gene may play a direct role in the pathogenesis of AD and other forms of dementia.
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PMID:Neuronal apoptosis by apolipoprotein E4 through low-density lipoprotein receptor-related protein and heterotrimeric GTPases. 1106 47

BETA2/NeuroD, a basic helix-loop-helix (bHLH) transcription factor, has been shown to play important roles in the development of the nervous system and the maintenance and formation of pancreatic and enteroendocrine cells. The gain of function of BETA2/NeuroD in neurogenesis has been shown in Xenopus embryos. In this study, we investigated the neurogenic potential of BETA2/NeuroD using neuroblastoma cell line, F11, which could be induced to differentiate into neurons in the presence of cAMP. To induce or block the expression of BETA2/NeuroD, expression vectors for the full-length and a C-terminal deletion mutant of BETA2 were constructed and their transactivation potential was verified using reporter genes containing the insulin promoter sequences. Overexpression of BETA2 with full-length construct induced neurite outgrowth in F11 cells in the absence of cAMP. In contrast, the C-terminal deletion mutant, BETA2(1--233), which has dominant negative activity, inhibited neurite outgrowth induced by cAMP in F11 cells. These results indicate that BETA2/NeuroD plays an important role in terminal differentiation of neuroblastoma cells. They also imply that BETA2/NeuroD or related bHLH factors plays an essential role for differentiation of F11 neuroblastoma cells.
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PMID:Overexpression of BETA2/NeuroD induces neurite outgrowth in F11 neuroblastoma cells. 1127 66

The importance of specific protein kinase C (PKC) sites for modulation of the inhibitory coupling of 5-HT(1A) receptors to N-type Ca(2+) channels was examined using patch-clamp techniques in F11 rat dorsal root ganglion x mouse neuroblastoma hybrid cells. The PKC activator phorbol 12-myristate 13-acetate (PMA, 10 nM) reduced by 28.6 +/- 6.8 % 5-HT-mediated, but not GTP-gamma-S-induced, inhibition of Ca(2+) current, whereas a higher concentration of PMA (500 nM) inhibited both the actions of 5-HT and GTP-gamma-S. 5-HT(1A) receptor expression plasmids with or without mutation of a single PKC site in the second intracellular loop (i2, T149A) or of three PKC sites located in the third intracellular loop (i3, T229A-S253G-T343A) were stably transfected into F11 cells. The T149A 5 HT(1A) receptor inhibited forskolin-stimulated cyclic AMP levels but was largely uncoupled from Ca(2+) channel modulation. In one (i2) clone a response rate to 5-HT of 31.6 % was obtained. The T149A mutant displayed markedly reduced sensitivity to PMA (10 nM) compared to wild-type 5-HT(1A) receptors, with only a 13.4 +/- 3 % reduction in 5-HT-induced channel inhibition; when exposed to 500 nM PMA, reductions in the action of 5-HT were comparable to those of the wild-type receptor. By contrast, the i3 mutant displayed comparable sensitivity to the wild-type 5-HT(1A) receptor to either concentration of PMA. PMA at 10 nM exhibited a similar uncoupling effect on the response of the endogenous opiate receptor to the agonist D-alanine-5-leucine-enkephalin (DADLE) in wild-type and T149A mutant-expressing clones. The T149 site of the 5-HT(1A) receptor is crucial for receptor uncoupling by sub-maximal PKC activation while at maximal PKC activation, downstream sites uncouple G proteins from the N-type Ca(2+) channel.
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PMID:A critical protein kinase C phosphorylation site on the 5-HT(1A) receptor controlling coupling to N-type calcium channels. 1177 15

Neurogenin1 (Ngn1) is a basic helix-loop-helix (bHLH) transcription factor expressed in neuronal precursors in the developing nervous system. The function of Ngn1 in neurogenesis has been shown in various aspects. In this study, we investigated the neurogenic potential of Ngn1 using neuroblastoma cell line, F11, which could be induced to differentiate into neurons in the presence of cAMP. To investigate the expression of Ngn1, expression vectors for the full-length and the C- terminal deletion mutant of Ngn1 were constructed and their transactivation potential was verified using reporter gene containing the E-box sequence. Overexpression of the full-length Ngn1 induced neurite outgrowth in F11 cells in the absence of cAMP. A C-terminal deletion mutant, Ngn1(1-197), inhibited neurite outgrowth induced by cAMP in F11 cells. These results indicate that the Ngn1 plays an important role in differentiation of neuroblastoma cells and the C terminus of Ngn1 is essential for the efficient differentiation.
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PMID:Overexpression of neurogenin1 induces neurite outgrowth in F11 neuroblastoma cells. 1252 89

Go, a heterotrimeric G-protein, is enriched in brain and neuronal growth cones. Although several reports suggest that Go may be involved in modulation of neuronal differentiation, the precise role of Go is not clear. To investigate the function of Go in neuronal differentiation, we determined the effect of Goalpha, the alpha subunit of Go, on the expression of Ca(v)2.2, the pore-forming unit of N-type calcium channels, at the transcription level. Treatment with cyclic AMP (cAMP), which triggers neurite outgrowth in neuroblastoma F11 cells, increased the mRNA level and the promoter activity of the Ca(v)2.2 gene. Overexpression of Goalpha inhibited neurite extension in F11 cells and simultaneously repressed the stimulatory effect of cAMP on the Ca(v)2.2 gene expression to the basal level. Targeted mutation of the Goalpha gene also increased the level of Ca(v)2.2 in the brain. These results suggest that Go may regulate neuronal differentiation through modulation of gene expression of target genes such as N-type calcium channels.
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PMID:Modulation of the N-type calcium channel gene expression by the alpha subunit of Go. 1267 Jul 7

PACAP is a peptide with neuroprotective activity, which induces adenylate cyclase and protein kinase A (PKA) activity. PACAP has also been shown to induce neurite outgrowth in PC12 cells and dorsal root ganglion (DRG) neurons. Here, we report that exogenous PACAP38 promotes neurite outgrowth in the F11 neuroblastoma/dorsal DRG hybrid cell line. Using an automated microscopy system, we show that PACAP38 induces a 170-fold increase in neurite length, with an EC50 of 3.1 nM, compared to 3.7 microM for forskolin and 143.4 microM for dibutyril cyclic AMP (dbcAMP). PACAP38 induced a 4-fold increase in the level of phosphorylation of cAMP-responsive element binding protein (CREB) in F11 cells with an EC50 of 130 pM. In contrast a peptide related to PACAP, vasoactive intestinal peptide (VIP) failed to induce CREB phosphorylation or neurite outgrowth in F11 cells. Addition of the nonselective phosphodiesterase inhibitor, isobutyl methylxanthine (IBMX) increased the potency of PACAP at inducing neurite outgrowth by ten-fold. The PKA inhibitor, H89, was a potent inhibitor of PACAP38-induced neurite outgrowth. The delta-opioid receptor agonist, SNC 80, did not inhibit PACAP-induced neurogenesis even though it did reduce CREB phosphorylation. In contrast to previous studies in PC12 cells, PACAP38 failed to show MEK1 activation in F11 cells. PACAP is upregulated in DRG neurons as a result of injury, and F11 cells provide an easily accessible in vitro model for understanding mechanisms underlying PACAP differentiation and neurogenesis.
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PMID:Pituitary adenylate cyclase-activating peptide (PACAP) induces differentiation in the neuronal F11 cell line through a PKA-dependent pathway. 1648 95

F11 cells are derived from a fusion between mouse embryonic neuroblastoma and rat dorsal root ganglion (DRG) neurons. These cells have been shown to retain many features of native DRG neurons, including synthesis of neurotransmitters, expression of neuropeptide receptors, and voltage-gated calcium channels. In this study, we describe the presence of KCNQ2/3 channels in F11 cells as determined by both reverse transcription-polymerase chain reaction and functional assessment. Electrophysiological recordings in whole-cell configuration performed in F11 cells revealed the functional expression of a KCNQ/M-current with characteristic slow deactivation kinetics, similar to the KCNQ/M-current recorded from dissociated DRG neurons. Deactivation tail currents elicited by conventional M-current protocols were enhanced by a specific KCNQ/M-channel opener, WAY-1, and inhibited by the specific blocker XE991 [10,10-bis(4-pyridinylmethyl)-9(10H)- anthracenone]. Using a non-radioactive atomic absorption Rb+ efflux assay, we further validated that Rb+ efflux can be induced in differentiated F11 cells by activation of KCNQ/M-channels. These findings have led us to conclude that F11 cells can be used as a DRG cell model to evaluate effects of KCNQ/M-channel modulators.
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PMID:Validation of DRG-like F11 cells for evaluation of KCNQ/M-channel modulators. 1650 88


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