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)

As well as many other hormones and growth factors, insulin is known to influence several processes in the CNS; its specific effects, however, are still poorly understood. Neuroblastoma cell lines represent a useful experimental system for the analysis of the insulin-specific effect on neurons, in the absence of possible regulatory mechanisms elicited by other neuronal/glial cells and/or soluble factors. The expression and the binding properties of insulin receptors, as well as the insulin effects on both membrane fluidity and cell surface architecture, have been investigated in 41A3 mouse neuroblastoma cells, by radioligand-binding fluorescence spectroscopy and scanning electron microscopy, respectively the same cells, insulin-induced modifications on cytoskeletal organisation also have been studied. Binding studies were performed using 125I-insulin, while the cationic fluorescent probe trimethylammonium 1,6-diphenyl-1,3,5-hexatriene was used for biophysical investigations. The results presented in this paper provide evidence that insulin interacts with 41A3 neuroblastoma cells through a receptor-mediated mechanism and that, in these cells, insulin binding modifies the cell surface morphology and stimulates endocytosis.
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PMID:Insulin binding and fluid-phase endocytosis stimulation in the mouse neuroblastoma cell line 41A3. 896 Sep 79

Insulin-like growth factor (IGF) binding proteins (IGFBPs) modulate IGF action at cellular level through inhibition or, alternatively, potentiation, where their limited proteolysis is a contributory mechanism. Under basal conditions, neuroblastoma cells secrete IGFs (essentially IGF-II), IGFBPs (IGFBP-4 and predominantly IGFBP-2 that is partially proteolysed), and proteases, including tissue-type plasminogen (PLG) activator, whose activity is inhibited by PLG activator inhibitor-1. Neuroblastoma cells were used to investigate the influence of the plasmin system, transforming growth factor-beta retinoic acid on cell growth and the IGF system. In cells treated with 5 micrograms/ml PLG, proliferation was stimulated, an effect that was inhibited in the presence of either alpha IR-3 (which blocks the type 1 IGF receptor) or anti-IGF-II antibodies. There was a parallel increase in IGFBP-2 proteolysis, which resulted in a 5-fold loss of affinity for IGF-II. In the presence of 1 ng/ml transforming growth factor-beta, PLG-induced mitogenesis and IGFBP-2 proteolysis were reduced, and Northern blot analysis revealed increased PLG activator inhibitor-1 mRNA. Conversely, with 2 microM retinoic acid, the mitogenic effect of PLG, IGFBP-2 proteolysis, and tissue-type PLG activator mRNAs were increased. Therefore, IGF-II mediates autocrine proliferation in neuroblastoma cells under the control of IGFBPs secreted by the cells, its bioavailability being enhanced as a result of plasmin-induced IGFBP-2 proteolysis.
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PMID:Role of insulin-like growth factor binding protein-2 and its limited proteolysis in neuroblastoma cell proliferation: modulation by transforming growth factor-beta and retinoic acid. 900 3

The insulin-like growth factors (IGFs) are known to stimulate both the proliferation and differentiation of neuroblastoma cells, but the role of the IGF binding proteins (IGFBPs) has not yet been established. In this study, human neuroblastoma SH-SY5Y cells have been treated with IGF-I and its potent analogue des(1-3)IGF-I alone or following preincubation with a differentiating agent such as 12-o-tetradecanoylphorbol-13-acetate (TPA). Cell proliferation and differentiation were evaluated. Conditioned medium was tested for the presence of IGFBPs by ligand blotting. The SH-SY5Y cell proliferation was maximally stimulated by des(1-3)IGF-I. The TPA-induced differentiation of SH-SY5Y, evaluated by assessment of cell morphology and GAP-43 expression as a biochemical marker of differentiation was potentiated by nanomolar concentrations of des(1-3)IGF-I and, to a smaller extent, IGF-I Conditioned medium showed the presence of a major IGFBP band with an approximate molecular weight of 32.5 kD and a very faint band of approximately 24kD. The IGFBP immunoblotting results suggest that the predominant band might represent IGFBP-2. Our data represent a first demonstration of the presence of IGFBPs in conditioned medium of human neuroblastoma SH-SY5Y cells. The finding that the potent IGF-I analogue des(1-3)IGF-I with reduced affinity for IGFBPs induce major effects on cell growth and differentiation suggests that the IGFBPs may play an active role in the neuronal response to the proliferative and differentiative effects of IGF-I.
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PMID:Do insulin-like growth factor binding proteins (IGFBPs) modulate the IGF-I growth promoting and differentiating effects in human neuroblastoma cells? 902 18

In the current studies, we examined whether focal adhesion kinase (FAK) and paxillin play a role in insulin-like growth factor-I (IGF-I)-stimulated morphological changes in neuronal cells. In SH-SY5Y human neuroblastoma cells, 10 nM IGF-I enhanced the extension of lamellipodia within 30 min. Scanning electron microscopy and staining with rhodamine-phalloidin showed that these lamellipodia displayed ruffles, filopodia, and a distinct meshwork of actin filaments. Immunofluorescent staining identified focal concentrations of FAK, paxillin, and phosphotyrosine within the lamellipodia. Immunoprecipitation experiments revealed that FAK and paxillin are tyrosine-phosphorylated during IGF-I-stimulated lamellipodial extension. Maximal phosphorylation of FAK and paxillin was observed 15-30 min after the addition of 10 nM IGF-I, whereas maximal IGF-I receptor phosphorylation occurred within 5 min. FAK, paxillin, and IGF-I receptor tyrosine phosphorylation had similar concentration-response curves and were inhibited by the receptor blocking antibody alphaIR-3. These results indicate that FAK and paxillin are tyrosine-phosphorylated during IGF-I-stimulated lamellipodial advance and suggest that the tyrosine phosphorylation of these two proteins helps mediate IGF-I-stimulated cell and growth cone motility. These responses contrast directly with recent reports showing insulin-stimulated dephosphorylation of FAK and paxillin.
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PMID:Tyrosine phosphorylation of paxillin and focal adhesion kinase during insulin-like growth factor-I-stimulated lamellipodial advance. 903 May 91

The IGF system is involved in the growth and differentiation of neuroblastoma cells, but the precise roles played by the IGF-binding proteins (IGFBPs) remain unknown. We have examined the expression and functions of IGFBPs produced by the neuroblastoma cell line, SH-SY5Y, in the presence of: insulin, IGF-I, IGF-II, des(1-3)IGF-I (an IGF-I analogue with weak affinity for IGFBPs), acidic fibroblast growth factor, basic fibroblast growth factor, or nerve growth factor. Under basal conditions, SH-SY5Y cells in serum-free medium secreted IGF-II, and traces of IGF-I, IGFBP-2 and IGFBP-4. After 24 h of culture, comparative mitogenic potencies were: des(1-3)IGF-I > IGF-I > IGF-II > insulin. After 48 h, when IGFBP-2 and IGFBP-4 concentrations in the culture media had increased, des(1-3)IGF-I remained the most active, but the activity of insulin now equalled or exceeded that of IGF-I and IGF-II. This suggests a negative feedback mechanism involving partial sequestration of IGF-I and IGF-II by IGFBP-2 and IGFBP-4. At high cell density and with high concentrations of IGF-I, des(1-3)IGF-I (40 ng/ml) or IGF-II (80 ng/ml), the mitogenic activities of the IGFs diminished concomitantly with the appearance in the culture medium of an additional IGFBP identified as IGFBP-6, whose production depended on activation of the type 1 IGF receptor. These findings suggest that IGFBP-6 contributes as an autocrine inhibitor in the regulation of growth by the IGF system in these neuroblastoma cells.
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PMID:IGF-binding protein-6 is involved in growth inhibition in SH-SY5Y human neuroblastoma cells: its production is both IGF- and cell density-dependent. 907 79

Exogenously added gangliosides are known to promote neurite outgrowth in a variety of cell types, including some neuroblastoma cell lines. To study neuritogenesis in SH-SY5Y human neuroblastoma we serum starved the cells for 24 hr and exposed them to gangliosides (GM1, GM3, or GT1b), platelet-derived growth factor (PDGF), insulin, nerve growth factor (NGF), insulin-like growth factor I (IGF-I), or combinations of these for 3 days. We measured four parameters of neurite outgrowth using image analysis. PDGF induced neurite outgrowth in SH-SY5Y and GM1 inhibited this. Both phenomena were dose-dependent with neurites/cell and neurite length being below controls with 100 microM GM1, and percent of neurite-bearing cells being below controls with 25, 50, and 100 microM GM1. Similar but more inhibitory results were obtained with GM3 and GT1b. Insulin and IGF-I induced a neuritogenic response that was less potent than that of PDGF and was also inhibited by gangliosides. NGF had no effect on neurite outgrowth but gangliosides were still inhibitory even in cells not treated with growth factors. From this we conclude that gangliosides inhibit spontaneous and trophic factor-induced neurite outgrowth in SH-SY5Y cells. For GM1 and GT1b, but not GM3, this probably involves inhibition of trophic factor receptor function.
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PMID:Gangliosides inhibit growth factor-stimulated neurite outgrowth in SH-SY5Y human neuroblastoma cells. 908 10

A role in neuronal homeostasis is suggested by the persistent expression of the insulin-like growth factors in the adult nervous system. SH-SY5Y human neuroblastoma cells, a well-characterized in vitro model of human neurons, were used to investigate the effects of hyperosmotic stress on neurons. Neuronal DNA fragmentation was detected within 1 h and pyknotic nuclei were apparent in attached cells after 12 h of hyperosmotic stress. In parallel, flow cytometry measurements revealed a sudden increase in the rate of cells irreversibly undergoing programmed cell death after 12 h of hyperosmotic exposure. Insulin-like growth factor-I delayed the onset of a laddered DNA fragmentation pattern for 24 h and provided continuing protection against hyperosmotic exposure for 72 h. Amino acid uptake was decreased in hyperosmotic medium even in the presence of insulin-like growth factor-I; the protein synthesis inhibitor cycloheximide neither prevented the induction of programmed cell death nor interfered with the ability of insulin-like growth factor-I to act as an osmoprotectant in hyperosmotic medium. Cysteine and serine protease inhibitors each prevented DNA fragmentation under hyperosmotic conditions, suggesting that the osmoprotectant activity of insulin-like growth factor-I involves the suppression of protease activity. Collectively, these results indicate that insulin-like growth factor-I limits the death of neurons under stressful environmental conditions, suggesting that it may provide a candidate therapy in the treatment of hyperosmolar coupled neurological injury.
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PMID:Insulin-like growth factor-I is an osmoprotectant in human neuroblastoma cells. 920 Jul 35

We recently cloned cDNAs encoding three subtypes of human alpha1-adrenergic receptors (alpha1ARs), alpha1a, alpha1b, and alpha1d (Schwinn, D. A., Johnston, G. L., Page, S. O., Mosley, M. J., Wilson, K. H., Worman, N. P., Campbell, S., Fidock, M. D., Furness, L. M., Parry-Smith, D. J., Peter, B., and Bailey, D. S. (1995) J. Pharmacol. Exp. Ther. 272, 134-142) and demonstrated predominance of alpha1aARs in many human tissues (Price, D. T., Lefkowitz, R. J., Caron, M. G., Berkowitz, D., and Schwinn, D. A. (1994) Mol. Pharmacol. 45, 171-175). Several lines of evidence indicate that alpha1aARs are important in clinical diseases such as myocardial hypertrophy and benign prostatic hyperplasia. Therefore, we initiated studies to understand mechanisms underlying regulation of alpha1aAR gene transcription. A genomic clone containing 6.2 kb of 5'-untranslated region of the human alpha1aAR gene was recently isolated. Ribonuclease protection and primer extension assays indicate that alpha1aAR gene transcription occurs at multiple initiation sites with the major site located 696 base pairs upstream of the ATG, where a classic initiator sequence is located. Transfection of luciferase reporter constructs containing varying amounts of 5'-untranslated region into human SK-N-MC neuroblastoma cells indicate that a region extending 125 base pairs upstream from the main transcription initiation site contains full alpha1aAR promoter activity. Furthermore, distinct activator and suppressor elements lie 2-3 and 3-5 kilobase pairs upstream, respectively. Although the alpha1aAR promoter contains neither TATA or CAAT elements, gel shift mobility assays targeting three GC boxes immediately upstream of the main transcription initiation site confirm binding of Sp1. Activity of the alpha1aAR promoter is cell-specific, demonstrating highest activity in cells endogenously expressing alpha1aARs. The human alpha1aAR gene also contains several cis regulatory elements, including several insulin and cAMP response elements. Consistent with these observations, we provide the first evidence that treatment of SK-N-MC cells with insulin and cAMP elevating agents leads to an increase in alpha1aAR expression. In conclusion, these data represent the first characterization of the alpha1aAR gene; our findings should facilitate further studies designed to understand mechanisms regulating alpha1AR subtype-specific expression in healthy and diseased human tissue.
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PMID:Transcriptional regulation of the human alpha1a-adrenergic receptor gene. Characterization Of the 5'-regulatory and promoter region. 935 75

We have investigated the role of extracellular matrix (ECM) and growth factors in the survival of nonadherent human neuroblastoma cells (line SK-N-BE). Cells cultured in serum-free medium under nonadherent conditions died with apoptotic-like features (chromatin condensation and nuclear fragmentation). SK-N-BE cells underwent neuronal differentiation in response to retinoic acid (RA). While RA itself did not induce apoptosis, differentiation increased the susceptibility of SK-N-BE cells to detachment-induced apoptosis. The appearance of the apoptotic-like phenotype required the maintenance in suspension of SK-N-BE cells for at least 16 h (12.43 +/- 1.40% of cells undergoing apoptosis) and the percentage increased up to 46.84 +/- 3.15% after 24 h. Suspension-induced apoptosis did not depend on increased intracellular Ca2+ levels nor on de novo protein synthesis and was not associated with extensive DNA degradation. Stimulation by soluble collagen I rescued suspended cells from apoptosis, even in the absence of cell adhesion and spreading. The survival promoting effect of ECM was mediated by the integrin receptors, since (1) the protective effect of soluble collagen I was blocked by anti-integrin antibodies to beta 1 and alpha 1 subunits and (2) the antibody-induced clustering of alpha 1, alpha 3, alpha v, beta 1, and beta 3 integrins rescued SK-N-BE cells cultured in suspension from apoptosis. As expected, adhesion on immobilized ECM proteins, collagen I, or laminin (0.1 to 10 micrograms/ml) also rescued SK-N-BE cells from apoptosis in a dose-dependent manner. The de novo protein synthesis was required to promote the survival effect of ECM, since cycloheximide completely abolished the protective effect of collagen I and protection from apoptosis by ECM or by anti-beta 1 antibody was associated with the increased expression of bcl-2. In addition to integrin stimulation, serum, insulin, and nerve growth factor inhibited suspension-induced apoptosis of SK-N-BE cells. The survival effect of serum and growth factors did not require the synthesis of new proteins, unlike the ECM effect. These data show that matrix proteins can promote cell survival in neuronal cells via integrin receptors. This effect does not require cell adhesion and the subsequent changes in cell shape as it can be mediated by soluble integrin ligands in suspended cells and involves a signaling pathway different from that triggered by growth factors.
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PMID:Soluble integrin ligands and growth factors independently rescue neuroblastoma cells from apoptosis under nonadherent conditions. 943 28

Insulin-like growth factors I and II (IGF-I and IGF-II) are actively involved in neuroblastoma cell growth. In all biological fluids, they are noncovalently bound to high-affinity binding proteins. At least six species of these IGF-binding proteins (IGFBPs) have been identified, but their precise roles remain unclear. One of them, IGFBP-6, is produced by neuroblastoma cells in culture under certain experimental conditions and seems to be associated with the arrest of cell growth. We stably transfected IGR-N-91 and SK-N-SH neuroblastoma cells with an expression vector comprising IGFBP-6 cDNA, whose expression was placed under the control of the constitutive and ubiquitous cytomegalovirus promoter. Analyses of the cell cycle (flux cytofluorometry), mitogenic activity (radiolabeled thymidine incorporation), and the number of viable cells (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide test) showed that the mitogenic effects of serum, IGF-I, IGF-II, and des (1-3) IGF-I, a truncated IGF-I analogue with no affinity for IGFBP-6, were depressed in both transfected cell lines. With s.c. injection of transfected IGR-N-91 cells into nude mice, tumors developed in only 50-70% of cases, 1 or 2 weeks after those in controls, and were 60-90% smaller. Our findings show that IGFBP-6 influences neuroblastoma cell growth, both in vitro and in experimental xenograft development.
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PMID:Expression of insulin-like growth factor-binding protein 6 complementary DNA alters neuroblastoma cell growth. 956 81


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