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)

Alterations in brain cholesterol concentration and metabolism seem to be involved in Alzheimer's disease (AD). In fact, several experimental studies have reported that modification of cholesterol content can influence the expression of the amyloid precursor protein (APP) and amyloid beta peptide (Abeta) production. However, it remains to be determined if changes in neuronal cholesterol content may influence the toxicity of Abeta peptides and the mechanism involved. Aged mice, AD patients and neurons exposed to Abeta, show a significant increase in membrane-associated oxidative stress. Since Abeta is able to promote oxidative stress directly by catalytically producing H(2)O(2) from cholesterol, the present work analyzed the effect of high cholesterol incorporated into human neuroblastoma cells in Abeta-mediated neurotoxicity and the role of reactive oxygen species (ROS) generation. Neuronal viability was studied also in the presence of 24S-hydroxycholesterol, the main cholesterol metabolite in brain, as well as the potential protective role of the lipophilic statin, lovastatin.
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PMID:Cholesterol potentiates beta-amyloid-induced toxicity in human neuroblastoma cells: involvement of oxidative stress. 1828 7

Neuronal differentiation of the NG108-15 neuroblastoma-glioma hybrid cells is accompanied by a marked attenuation in the heat shock induction of the Hsp70-firefly luciferase reporter gene activity. Analysis of the amount and activation of heat shock factor 1, induction of mRNA(hsp), and the synthesis and accumulation of heat shock proteins (HSPs) in the undifferentiated and differentiated cells suggest a transcriptional mechanism for this attenuation. Concomitant with a decreased induction of the 72-kDa Hsp70 protein in the differentiated cells, there is an increased abundance of the constitutive 73-kDa Hsc70, a protein known to function in vesicle trafficking. Assessment of sensitivity of the undifferentiated and differentiated cells against stress-induced cell death reveals a significantly greater vulnerability of the differentiated cells toward the cytotoxic effects of arsenite and glutamate/glycine. This study shows that changes in regulation of the HSP and HSC proteins are components of the neuronal cell differentiation program and that the attenuated induction of HSPs likely contributes to neuronal vulnerability whereas the increased expression of Hsc70 likely has a role in neural-specific functions.
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PMID:Changes in the regulation of heat shock gene expression in neuronal cell differentiation. 1834 44

Neuronal leucine-rich repeat protein-1 (NLRR1) gene encodes a type I transmembrane protein with unknown function. We have previously described that NLRR1 gene is highly expressed in unfavorable neuroblastomas as compared with favorable tumors and its higher expression levels correlate significantly with poor clinical outcome. In this study, we have found that NLRR1 gene is one of direct target genes for N-MYC and its gene product contributes to N-MYC-dependent growth promotion in neuroblastoma. Expression levels of NLRR1 were significantly associated with those of N-MYC in various neuroblastoma cell lines as well as primary neuroblastoma tissues. Indeed, enforced expression of N-MYC resulted in a remarkable induction of the endogenous NLRR1. Consistent with these results, we have identified two functional E-boxes within the promoter region and intron 1 of NLRR1 gene. Intriguingly, c-myc also transactivated NLRR1 gene. Enforced expression of NLRR1 promoted cell proliferation and rendered cells resistant to serum deprivation. In support with these observations, small-interfering RNA-mediated knockdown of the endogenous NLRR1-reduced growth rate and sensitized cells to serum starvation. Collectively, our present findings provide a novel insight into understanding molecular mechanisms behind aggressive neuroblastoma with N-MYC amplification.
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PMID:N-MYC promotes cell proliferation through a direct transactivation of neuronal leucine-rich repeat protein-1 (NLRR1) gene in neuroblastoma. 1859 37

Neuronal death is a pathological hallmark of prion diseases. Synthetic prion peptide PrP106-126 can convert PrP(C) into protease-resistant aggregates, which can cause neurotoxicity in vivo and in vitro. Various cell surface proteins can participate in the infection process of prions. p75(NTR) can interact with PrP106-126 and has a neurotoxic effect on neurons. However, for p75(NTR) lacking intrinsic catalytic activity domain in cytoplasm, p75(NTR) -associated signaling molecular and the signaling events in cytoplasm in p75(NTR)-mediated apoptosis responding to PrP106-126 remain still unknown. Thus p75(NTR) -associated NF-kappaB signaling pathway was investigated in this study. Herein PrP106-126-induced apoptosis in mouse neuroblastoma cell line N2a, PrP106-126 significantly up-regulated p75(NTR) expression on mRNA and protein levels. For the first time we found that PrP106-126 induced activation of NF-kappaB by Western blot assay, and blocking the interaction of p75(NTR) with PrP106-126 by p75(NTR) polyclonal antibody sc-6189 or pretreatment with inhibitor NF-kappaB SN50 reduced the activation of NF-kappaB and attenuated the apoptotic effect by PrP106-126. This study offers a possible interpretation that NF-kappaB signaling pathway was activated by the interaction of PrP106-126 with p75(NTR), and NF-kappaB activity showed the pro-apoptotic effect in PrP106-126-induced apoptosis in N2a cells. Involvement of NF-kappaB signaling pathway in p75(NTR)-mediated apoptosis may partially account for the PrP106-126-induced neurotoxicity in N2a cells.
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PMID:p75(NTR) activation of NF-kappaB is involved in PrP106-126-induced apoptosis in mouse neuroblastoma cells. 1860 9

Neuronal differentiation involving neurite growth is dependent on environmental cues which are relayed by signalling pathways to actin cytoskeletal remodelling. C3G, the exchange factor for Rap1, functions in pathways leading to actin reorganization and filopodia formation, processes required during neurite growth. In the present study, we have analyzed the function of C3G, in regulating neuronal cell survival and plasticity. Human neuroblastoma cells, IMR-32 induced to differentiate by serum starvation or by treatment with nerve growth factor (NGF) or forskolin showed enhanced C3G protein levels. Transient over-expression of C3G stimulated neurite growth and also increased responsiveness to NGF and serum deprivation induced differentiation. C3G-induced neurite growth was dependent on both its catalytic and N-terminal regulatory domains, and on the functions of Cdc42 and Rap1. Knockdown of C3G using small hairpin RNA inhibited forskolin and NGF-induced morphological differentiation of IMR-32 cells. Forskolin-induced differentiation was dependent on catalytic activity of C3G. Forskolin and NGF treatment resulted in phosphorylation of C3G at Tyr504 predominantly in the Golgi. C3G expression induced the cell cycle inhibitor p21 and C3G knockdown enhanced cell death in response to serum starvation. These findings demonstrate a novel function for C3G in regulating survival and differentiation of human neuroblastoma cells.
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PMID:The guanine nucleotide exchange factor, C3G regulates differentiation and survival of human neuroblastoma cells. 1895 52

Neuronal nicotinic acetylcholine receptors (nAChRs) are Ca(2+)-permeable ligand-gated channels widely expressed in the central and peripheral nervous system. One of the most Ca(2+) selective isoform is the homopentameric alpha7-nAChR implicated in schizophrenia. The activity of alpha7-nAChRs is usually recorded electrophysiologically, which limits the amount of information obtained. Here, we used fluorescence imaging to record Ca(2+) transients associated with activation of the alpha7-nAChR in neuroblastoma cells stably expressing human alpha7-nAChRs. Application of nicotine (50 microM) consistently evoked transient (30s), stereotyped Ca(2+) responses that were inhibited by the selective alpha7-nAChRs antagonists methyllycaconitine (MLA) and alpha-bungarotoxin, and greatly increased and prolonged by the allosteric modulator PNU-120596 (1 microM). Unexpectedly, brief (1-5s), repetitive Ca(2+) transients of sub-micrometric dimension were observed in filopodia of cells expressing alpha7-nAChR. PNU-120596 increased the frequency and slowed the decay kinetics of these miniature Ca(2+) elevations, which were insensitive to ryanodine, preserved during hyperpolarisation, and prevented by MLA, alpha-bungarotoxin, or Ca(2+) removal. Global Ca(2+) responses were also recorded in ganglion cells of embryo chicken retina during co-application of PNU-120596 and nicotine, together with whole-cell currents and brief current bursts. These data demonstrate that Ca(2+) signals generated by alpha7-nAChRs can be recorded optically both in cell lines and in intact tissues. The possibility to image miniature Ca(2+) signals enables to map the location of functional alpha7-nAChR channel clusters within cells and to analyze their single channel properties optically. Deciphering the rich pattern of intracellular Ca(2+) signals generated by the activity of the alpha7-nAChRs will reveal the physiological role of these receptor-channels.
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PMID:Local and global calcium signals associated with the opening of neuronal alpha7 nicotinic acetylcholine receptors. 1903 45

Neuronal nitric oxide synthase (nNOS)-derived nitric oxide (NO) acts as a neurotransmitter and intracellular signaling molecule in the central and peripheral nervous system. NO regulates multiple processes like neuronal development, plasticity, and differentiation and is a mediator of neurotoxicity. The nNOS gene is highly complex with 12 alternative first exons, exon 1a-1l, transcribed from distinct promoters, leading to nNOS variants with different 5'-untranslated regions. Transcriptional control of the nNOS gene is not understood in detail. To investigate regulation of nNOS gene expression by retinoic acid (RA), we used the human neuroblastoma cell line TGW-nu-I as a model system. We show that RA induces nNOS transcription in a protein synthesis-dependent fashion. We identify the phosphatidylinositol 3-kinase (PI3K)/Akt signaling pathway and the atypical orphan nuclear receptor DAX1 (NR0B1) as critical mediators involved in RA-induced nNOS gene transcription. RA treatment increases DAX1 expression via PI3K/Akt signaling. Upregulation of DAX1 expression in turn induces nNOS transcription in response to RA. These results identify nNOS as a target gene of a novel RA/PI3K/Akt/DAX1-dependent pathway in human neuroblastoma cells and stress the functional importance of the transcriptional regulator DAX1 for nNOS gene expression in response to RA treatment.
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PMID:Retinoic acid-induced nNOS expression depends on a novel PI3K/Akt/DAX1 pathway in human TGW-nu-I neuroblastoma cells. 1972 47

Apoptosis is a major mechanism for cell death in the nervous system during development. P2X(7) nucleotide receptors are ionotropic ATP receptors that mediate cell death under pathological conditions. We developed an in vitro protocol to investigate the expression and functional responses of P2X(7) nucleotide receptors during retinoic acid (RA)-induced neuronal differentiation of human SH-SY5Y neuroblastoma cells. Neuronal differentiation was examined measuring cellular growth arrest and neuritic processes elongation. We found that SH-SY5Y cells treated for 5 days with RA under low serum content exhibited a neuron-like phenotype with neurites extending more than twice the length of the cell body and cell growth arrest. Concurrently, we detected the abolishment of intracellular-free calcium mobilization and the down-regulation of P2X(7) nucleotide receptor protein expression that protected differentiated cells from neuronal cell death and reduced caspase-3 cleavage-induced by P2X(7) nucleotide receptor agonist. The role of P2X(7) nucleotide receptors in neuronal death was established by selectively antagonizing the receptor with KN-62 prior to its activation. We assessed the involvement of protein kinases and found that p38 signaling was activated in undifferentiated after nucleotide stimulation, but abolished by the differentiating RA pretreatment. Importantly, P2X(7) receptor-induced caspase-3 cleavage was blocked by the p38 protein kinase specific inhibitor PD169316. Taken together, our results suggest that RA treatment of human SH-SY5Y cells leads to decreased P2X(7) nucleotide receptor protein expression thus protecting differentiated cells from extracellular nucleotide-induced neuronal death, and p38 signaling pathway is critically involved in this protection of RA-differentiated cells.
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PMID:Inhibition of neuronal cell death after retinoic acid-induced down-regulation of P2X7 nucleotide receptor expression. 1988 9

In vitro models of tissues, such as the cornea, represent systems for modeling cell-to-cell interactions and tissue function. The objective of this study was to develop an optimized nerve differentiation medium to incorporate into a 3D in vitro model to study innervation and cell targeting. A hybrid neuroblastoma cell line (NDC) was examined for its ability to differentiate into neurons, produce neurites, and functionally contact target cells. Neuronal differentiation of NDCs was optimized through a combinatorial approach which involved culturing cells in the presence of various extracellular matrices and soluble factors. A serum-free medium containing nerve growth factor (NGF), dimethyl sulfoxide (DMSO), or dexamethasone resulted in the greatest proportion of NDCs demonstrating a neuronal morphology. Similarly, with supplementation of cyclic AMP (cAMP) or NGF, neurite extension was optimized. Combining these factors generated an optimized differentiation and extension medium, relative to the individual components alone. In co-culture with epithelial cells, NDC neurites generated in the optimized medium formed contacts with epithelial targets and produced substance P. Similarly, NDCs seeded into a collagen matrix produced neurites that projected through the matrix to target epithelial cells, promoted epithelial stratification, and increased the rate of epithelial wound healing. As well, differentiated NDCs could target and alter acetylcholine receptor clustering in mouse C2C12 myotubes, demonstrating synaptic plasticity. Our data supports the use of NDCs, in combination with optimized medium, for generating an innervated in vitro model.
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PMID:Optimal neural differentiation and extension of hybrid neuroblastoma cells (NDC) for nerve-target evaluations using a multifactorial approach. 1988 48

Neuronal differentiation has evolved as an essential process even in the adult brain, once disturbed being associated with the pathogenesis of several psychiatric disorders. To study the effects of Raf kinase inhibitor protein (RKIP) on neuronal differentiation, we generated neuroblastoma cell lines overexpressing RKIP (RKIP(+)) and expressing RKIP-directed short hairpin RNA for downregulation of RKIP (RKIP(-)). During a 4-week time course of continuous differentiation by retinoic acid (RA), expression of neuronal and glial markers, intracellular cyclic adenosine monophosphate (cAMP) levels, protein kinase C (PKC) signal transduction to extracellular signal-regulated kinase 1/2 (ERK-1/2) and cellular morphology were investigated in relation to RKIP levels. RKIP(+) cells showed accelerated neurite outgrowth, formation of elaborated neuronal networks and increased neuronal marker expression both in RA-induced differentiation and to some extent even in non-RA-treated cells. RKIP(-) cells showed glial-like cell bodies and increased glial fibrillary acidic protein, suggesting a shift from neuronal to glial phenotype. With respect to differentiation-inducing signal pathways, PKC-mediated ERK-1/2 activation significantly correlated with RKIP levels. Furthermore, basal and forskolin-stimulated intracellular cAMP was potently increased in RKIP(+) cells versus controls. In conclusion, the conserved signal transduction modulator RKIP was shown to enhance several aspects of neuronal differentiation via enhanced crosstalk from PKC to ERK-1/2 and enhancement of G-protein-coupled receptor signaling.
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PMID:Raf kinase inhibitor protein enhances neuronal differentiation in human SH-SY5Y cells. 1995 95


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