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)

The isolation and hormonal regulation of two low molecular weight insulin-like growth factor binding proteins (IGFBPs) present in the conditioned medium (CM) of the rat neuroblastoma cell line B104 cells has been performed. IGFBPs were purified by ZnSO4 precipitation, insulin-like growth factor-I 1IGF-I) affinity chromatography, and reverse phase HPLC. Final isolation and N-terminal analysis was accomplished by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, electroblotting to polyvinylidene difluoride membranes, and sequencing of the bound proteins. Two IGFBPs, with apparent Mr of 28K and 24K were coisolated and sequenced. Both proteins had identical N-terminal sequences and appear to be two forms of IGFBP-4. Treatment of the IGFBPs with endoglycosidase-F caused a shift in the apparent Mr of the 28K IGFBP to 24K. However, there was no change in the apparent Mr of the 24K IGFBP. The data from this study suggest that the IGFBP-4 exists as both a glycosylated and nonglycosylated protein. Treatment of B104 cells with IGF-I increased the expression of both the 24K and 28K IGFBPs and also resulted in the appearance of IGFBP-3 and an unknown IGFBP at 29K. When added to subconfluent cells, IGF-I was also mitogenic in B104 cells. Similar to IGF-I, IGF-II treatment increased cell number and resulted in the appearance of IGFBP-3 and the 29K IGFBP. However, IGF-II treatment resulted in a significant decrease (approximately 50%) in the 24K IGFBP and also decreased the 28K IGFBP. This decrease in the expression of the 24K and 28K IGFBPs was dose-dependent and was blocked by addition of IGF-I to the cells. When an IGF-II receptor antibody was added to the cells it mimicked the effects of IGF-II on B104 cells, suggesting that the inhibitory effects of IGF-II are mediated through the type II IGF receptor. Although both IGF-I and IGF-II affected the amount of the 24K IGFBP in the CM, neither peptide affected the expression of the messenger RNA for the 24K IGFBP. In conclusion, we have isolated two IGFBPs from the CM of B104 cells. Both the 24K and 28K IGFBPs appear to be isoforms of the same protein, and sequence data suggest these proteins are two forms of IGFBP-4. IGF-I increases the expression of both of these IGFBPs, whereas IGF-II decreases their expression.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Differential effects of insulin-like growth factor (IGF)-I and IGF-II on the expression of IGF binding proteins (IGFBPs) in a rat neuroblastoma cell line: isolation and characterization of two forms of IGFBP-4. 170 57

Insulin-like growth factor II (IGF-II) and mannose 6-phosphate (man-6-P) bind to distinct sites on the same receptor. In the present study, we examined the effects of man-6-P on the growth promoting effects of IGF-II on SH-SY5Y cultured human neuroblastoma cells. Man-6-P alone increased cell number and neurite outgrowth by approximately 50%; as previously observed, IGF-II increased cell number and neurite outgrowth by approximately 110 and 30%, respectively. However, when cells were grown in the presence of both ligands, cell number increased by 330% and neurite outgrowth by 130%. These results suggest that man-6-P can potentiate the known growth promoting effects of IGF-II on human neuroblastoma cells. Furthermore, they indicate that the IGF-II/man-6-P receptor may serve as a means of integrating distinct growth promoting signals in neuronal cells.
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PMID:Mannose 6-phosphate potentiates insulin-like growth factor II effects in cultured human neuroblastoma cells. 179 64

Extracts of rat skeletal muscle contain substances that enhance the development of choline acetyltransferase (ChAT) in the cholinergic human neuroblastoma cell line LA-N-2. The ChAT enhancing activity in muscle extract was purified to homogeneity by preparative gel electrophoresis and reverse-phase HPLC. The active factor is biochemically and immunologically identical to ChAT development factor, (CDF), the skeletal muscle factor that enhances ChAT activity in enriched cultures of embryonic rat motoneurons and rescues motoneurons from naturally occurring cell death in vivo. CDF increases the specific ChAT activity of LA-N-2 cells fivefold after 6 days in culture, but does not affect their growth or metabolic activity. Basic fibroblast growth factor also increases ChAT activity in LA-N-2 cells and its effect is additive with that of CDF. In contrast, neither insulin-like growth factor-1, epidermal growth factor, nor nerve growth factor affected the ChAT activity of LA-N-2 cells. Our study demonstrates for the first time that CDF can directly affect the development of neuronal properties in a homogeneous population of cells, and that the effects of CDF are separate from those of other types of trophic factors.
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PMID:Skeletal muscle proteins stimulate cholinergic differentiation of human neuroblastoma cells. 205 Nov 67

The SH-SY5Y human neuroblastoma cell line is differentiated in vitro with nanomolar concentrations of 12-O-tetradecanoyl-phorbol-13-acetate (TPA). Untreated cells express insulin receptors, and both type I and type II insulin-like growth factor (IGF) receptors, as has been shown by agonist binding and immunoprecipitation studies. Via interaction with its own receptor and the IGF-I receptor, insulin induced a mitogenic response in these cells. IGF-I and IGF-II are also mitogens for SH-SY5Y cells, as shown by a transient increase of the c-fos mRNA level, ornithin decarboxylase activity, thymidine incorporation, and, finally, cell division. TPA-differentiated cells do not respond mitogenically to any of these factors, although insulin and IGF-I receptors are still present on the cell surface and remain functional, as demonstrated by ligand-stimulated autophosphorylation, actin reorganization, and c-fos induction. However, other prereplicative responses, i.e., increased ornithin decarboxylase activity and c-myc mRNA levels, cannot be induced. These phenomena, may be part of a receptor uncoupling mechanism(s). The findings are discussed in terms of differentiation stage-dependent signaling of growth factor receptors. We suggest that these receptors switch from controlling cell division in replicative neuronal cells to mediating externally controlled functions related to the differentiated neuronal phenotype.
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PMID:Mitogenically uncoupled insulin and IGF-I receptors of differentiated human neuroblastoma cells are functional and mediate ligand-induced signals. 215 61

B104, an established rat neuroblastoma cell line exhibiting specific neuronal qualities, was chosen as a model to study insulin-like growth factor (IGF) binding and action in the central nervous system. Specific binding of [125I]IGF-II to B104 membranes averaged 12.2 +/- 4.0% (mean +/- SD)/100 micrograms/ml protein compared with [125I]IGF-I binding of 10.1 +/- 2.9%. In competitive binding studies employing [125I]IGF-II as the radioligand, high affinity for IGF-II was demonstrated (50% displacement at 2.7 ng/ml), with none for IGF-I or insulin. Upon cross-linking [125I]IGF-I to membranes under reducing conditions, two prominent bands were observed, migrating with apparent mol wt (Mr) of 135,000 and 280,000. Both bands were inhibited by IGFs and insulin, but not by R-II-PABI, a polyclonal antibody to the type 2 receptor. These bands presumably represent the alpha-subunit and an incompletely reduced alpha-alpha-dimer of the type 1 IGF receptor. When cross-linking [125I]IGF-II to membranes under reducing conditions, the primary labeled bands migrated with apparent Mr of 260,000 and 280,000. These bands were inhibited by IGF-II and R-II-PABI, but not by insulin, and probably represent the monomeric type 2 receptor. In addition, we observed a minor band at apparent Mr 35,000, which was inhibited by IGF but not by insulin. By a modified cross-linking technique, we confirmed the existence of a small IGF-binding protein in the serum-free conditioned medium of B104 cultures, migrating as two bands with apparent Mr of 33,000-39,000. These proteins demonstrated high affinity for IGF-I and IGF-II, but none for insulin. In summary, this study demonstrates the presence in B104 rat neuroblastoma cells of 1) abundant classical type 1 and type 2 IGF receptors, and 2) a secreted and membrane-associated small IGF-binding protein.
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PMID:Insulin-like growth factor receptors and binding protein in rat neuroblastoma cells. 246 92

The expression of the BRL 3A insulin-like growth factor binding protein (rBP-30) was characterized in rat brain, hypothalamus, and pituitary tissue and cultured neuronal and astroglial cells. The 27K BP expressed by BRL 3A cells (rBP-30) was found to also be expressed in conditioned media from newborn rat astrocytes and fetal neurons, but not in the medium from the neuroblastoma cell line, B104. Moreover, a polyclonal antibody, anti HEC1, specifically immunoprecipitated the BRL 3A BP from the same conditioned media, as well as from rat cerebrospinal and amniotic fluid and from conditioned medium of cells isolated from the neurointermediate lobe of adult rat pituitary. The same antibody also immunoprecipitated hBP-31 from human CSF. Northern blot analyses showed that rBP-30 mRNA was expressed in adult rat brain and pituitary, fetal brain and liver, and in fetal neurons and newborn astrocytes maintained in culture. We conclude that the BRL 3A BP (rBP-30) is the major insulin-like growth factor binding protein in the rat CNS and may be the rat analog of hBP-31, the predominant BP in human CSF.
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PMID:Expression of the BRL-3A insulin-like growth factor binding protein (rBP-30) in the rat central nervous system. 247 89

Insulin and various growth factors (epidermal growth factor (EGF), insulin-like growth factor, fibroblast growth factor, and transforming growth factor alpha), which fail to modify the resting [Ca2+]i in PC12 rat pheochromocytoma and SKNBE human neuroblastoma cells when administered alone, became capable of inducing [Ca2+]i increases when administered a few (4-20) min after another agent, bradykinin. The latter peptide, working through a B2 receptor, caused hydrolysis of polyphosphoinositides and a large, biphasic [Ca2+]i transient (an initial (1-2 min) spike, originated primarily from intracellular stores, followed by a steady-state elevation dependent on Ca2+ influx). Priming by bradykinin of the growth factor effects was quickly dissipated by the addition of a B2 blocker. Activation of other receptors coupled to polyphosphoinositide hydrolysis: muscarinic and purinergic (in PC12 and SKNBE cells); bombesin and vasopressin receptors (in Swiss 3T3 cells), was without effect in priming. Bradykinin-primed, growth factor-induced [Ca2+]i rises in PC12 cells appeared after a 20-30-s delay; they were relatively small, but persistent; their concentration dependence was similar to that of other effects of the factors; and they included both release of Ca2+ from intracellular stores and stimulation of Ca2+ influx, preceded (in PC12 cells) by a transient increase of polyphosphoinositide hydrolysis. Thus the effect of growth factors (possibly dependent on the tyrosine kinase activity of their receptors) consisted in the reinforcement of the transmembrane signaling at B2 receptors. This is the first direct demonstration of a [Ca2+]i rise induced by insulin and insulin-like growth factor-I, and of such an effect of EGF in cell types endowed with a small number of specific EGF receptors.
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PMID:Reinforcement of signal generation at B2 bradykinin receptors by insulin, epidermal growth factors, and other growth factors. 253 35

Insulin-like growth factor II (IGF-II) mRNA was increased in two of eight neuroblastomas and in eight of eight pheochromocytomas, tumors of the adrenal medulla that occur in childhood and adulthood, respectively. RNA encoding the type I IGF receptor, the receptor thought to mediate the mitogenic effects of IGF-I and IGF-II, also was uniformly expressed in these cells. To assess the role of IGF-II in the growth of these tumor cells, we have used the SK-N-AS cultured neuroblastoma cell line, which can be continuously propagated in mitogen-free medium, as a model system. Our results strongly suggest that IGF-II, synthesized by SK-N-AS cells and acting through type I IGF receptors, contributes to the autonomous growth of this tumor cell line. (a) SK-N-AS cells synthesized large amounts of IGF-II RNA and secreted greater than 50 ng/ml of IGF-II (as determined by specific radioimmuno- and radioreceptor assays). Little, if any, IGF-I RNA or immunoreactive IGF-I were detected. (b) SK-N-AS cells possess type I IGF receptors. (c) Exogenous IGF-I and IGF-II stimulated DNA synthesis in SK-N-AS cells, and this stimulation was abolished by a blocking antibody to the type I IGF receptor. (d) This anti-receptor antibody also abolished the multiplication of SK-N-AS cells in the absence of added mitogens. We conclude that IGF-II is an autocrine growth factor for SK-N-AS cells and suggest that this mechanism may contribute to the growth of some adrenal medullary tumors.
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PMID:Autonomous growth of a human neuroblastoma cell line is mediated by insulin-like growth factor II. 254 40

We have characterized receptors for the insulin-like growth factor (IGF-I) on the mouse neuroblastoma cell line N18 as well as NG108, the hybrid cell line of N18 and rat glioma (C6). In this cell-free system, IGF-I and insulin stimulated the phosphorylation of 95-kDa and 105-kDa proteins. Using appropriate antibodies we were able to demonstrate that the IGF-I receptor beta subunit has two subtypes of 95 kDa and 105 kDa. On the other hand, insulin receptor beta subunit is a separate single 95-kDa protein. Enzymatic digestion of IGF-I receptor beta subunit subtypes by glycopeptidase F resulted in similar molecular masses (84 kDa and 86 kDa) on SDS-PAGE, which suggests that the difference in molecular masses between two subtypes is attributable to the differences in N-linked complex-type carbohydrate chains on the extracellular domain of beta subunits. This conclusion is further supported by peptides of similar molecular mass following staphylococcal V8 protease digestion. Analysis of IGF-I receptor beta subunit subtypes in these cells may provide insights into the mechanism of action of IGF-I on neural tissues.
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PMID:Insulin-like growth factor I receptors on mouse neuroblastoma cells. Two beta subunits are derived from differences in glycosylation. 296 5

We have previously shown that insulin and the insulin-like growth factors share some important neurotrophic properties with nerve growth factor (NGF), including the capacity to enhance neurite formation. In this study, we have examined the effects of these neuritogenic agents on the expression of genes coding for important cytoskeletal proteins of axons and dendrites. Insulin specifically and coordinately increased the levels of alpha- and beta-tubulin mRNAs in human neuroblastoma SH-SY5Y cells. The dose-response curves for these increases were very similar to that for enhancement of neurite formation. Tubulin transcripts reached a transient maximum in approximately 1 day, suggesting that higher levels are important during initiation of neurites and that high levels are not required to sustain neurites once formed. Insulin-like growth factor II shared with insulin the capacity to substantially increase tubulin mRNA levels. NGF had but a small effect. Complementary mechanisms for these neurotrophic agents are suggested, because other studies show NGF and insulin can synergistically potentiate neurite formation. None of the factors altered the levels of actin mRNA. Thus, neurite formation does not seem to require a coordinate increase in actin and tubulin transcripts in SH-SY5Y cells.
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PMID:Insulin, insulin-like growth factor II, and nerve growth factor effects on tubulin mRNA levels and neurite formation. 390 Oct 11


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