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)

125I-beta-Endorphin (human) binds with high affinity, specificity, and saturability to rat brain and neuroblastoma X glioma hybrid cell (NG 108-15) membranes. Dissociation constants and binding capacities were obtained from Scatchard plots and are 2 nM and 0.62 pmol/mg of protein for rat whole brain and 6 nM and 0.8 pmol/mg of protein for NG 108-15 cells. Results from competition experiments also indicate that this ligand interacts with high affinity with both mu and delta opioid binding sites, with a slight preference for mu sites, while exhibiting low affinity at kappa sites. We have demonstrated that human 125I-beta-endorphin is a useful probe for the investigation of the subunit structure of opioid receptors. The specific cross-linking of this ligand has revealed the presence of four reproducible bands or areas after sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography at 65, 53, 38, and 25 kDa. All labeled bands seem to be opioid receptor related since they are eliminated when binding is carried out in an excess of various opiates. The evidence we have obtained using rat whole brain (delta congruent to mu), rat thalamus (largely mu), bovine frontal cortex (delta:mu congruent to 2:1), and NG 108-15 cells (delta) demonstrates that different labeling patterns are obtained when mu and delta binding sites are cross-linked. The pattern obtained on sodium dodecyl sulfate-polyacrylamide gel electrophoresis from cross-linked mu sites contains a major (heavily labeled) component of 65 kDa and a minor component of 38 kDa, while patterns from delta sites contain a major labeled component of 53 kDa. This 53-kDa band appears clearly in extracts from NG 108-15 cells and bovine frontal cortex, while in rat whole brain a diffusely labeled region is present between 55 and 41 kDa. In addition, NG 108-15 cells also display a minor labeled component at 25 kDa. The relationship of the minor bands to the major bands is not clear.
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PMID:Covalent labeling of opioid receptors with radioiodinated human beta-endorphin. Identification of binding site subunit. 299 92

Both high and low affinity receptors for nerve growth factor (NGF) have been described, but only the former appear to mediate NGF actions and uptake. To specifically characterize the molecular identity of the high affinity site and to compare it with the low affinity site, the water-soluble carbodiimide EDC was used to cross-link 125I-NGF to NGF receptors on: rat PC12 cells, PC12nnr5 cells (PC12 mutants that have only low affinity NGF binding), SH-SY5Y human neuroblastoma cells (which have only high affinity binding sites), and cultured rat sympathetic ganglion cells. A variety of criteria were used to distinguish the two classes of affinity-labeled receptors: competition with unlabeled NGF, dissociation rate, and selective solubilization by 0.1% Triton X-100. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed that cross-linking generated only a single Mr approximately 103,000 125I-NGF affinity-labeled species which represents both the low and high affinity forms of the receptor. The 125I-NGF X receptor complexes formed with both affinity classes of the receptor were quantitatively immunoprecipitated by the monoclonal anti-NGF-receptor antibody 192-IgG and both showed identical shifts in mobility when subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis under nonreducing conditions. These findings indicate that both high and low affinity NGF receptors possess apparently identical NGF-binding moieties. The differences between the kinetic and functional properties of the two receptor types may therefore result from their interactions with other membrane components or with cytoplasmic proteins.
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PMID:A single Mr approximately 103,000 125I-beta-nerve growth factor-affinity-labeled species represents both the low and high affinity forms of the nerve growth factor receptor. 302 71

We have found specific receptors for atrial natriuretic factor (ANF) in cultured neuroblastoma cells (N4TG1) of peripheral ganglionic origin. Scatchard analysis of the displacement binding revealed noninteracting, single-class binding sites with a KD of 1 X 10(-10) M and a density (Bmax) of 110,000-150,000 sites/cell. The cell-bound 125I-ANF was displaced by unlabeled ANF in a dose-dependent manner. Hormones unrelated to ANF such as angiotensins, adrenocorticotropic hormone, or arginine vasopressin were ineffective in displacing the cell-bound radioactivity. Using azidobenzoyl-125I-ANF as a photoaffinity ligand, an ANF receptor with an apparent Mr of 138,000 was identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. The addition of unlabeled ANF (1 microM) to the incubation medium completely abolished the labeling of this protein band, but atriopeptin I (1 microM) or angiotensins I, II, and III (each 1 microM) were not effective in inhibiting the affinity labeling. The treatment of the neuroblastoma cells with ANF stimulated intracellular cyclic GMP levels in a dose-dependent manner with an EC50 of 5 nM. ANF (1 X 10(-7) M) stimulated cyclic GMP accumulation in less than 5 min by 30-fold as compared to the controls.
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PMID:Identification of atrial natriuretic factor receptor of neuroblastoma N4TG1 cells: binding characteristics and photoaffinity labeling. 303 Dec 16

Receptors for the nerve growth factor protein (NGFR) present in the human neuroblastoma cell line LAN-1 were characterized. LAN-1 cells display high-affinity (type I, with KD value of 5.9 X 10(-11) M) and low-affinity (type II, with KD value of 9.2 X 10(-9) M) binding to NGF. NGFR were fractionated by preparative isoelectric focusing in a granulated gel (PEGG). High-affinity binding was found in the 5.9-6.2 pH region of the PEGG, and low-affinity binding in the 4.6-4.8 and 8.8-9.3 pH ranges. After further analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) we observed both 92.5- and 200-kDa molecular species associated with NGF binding activity. The 200-kDa protein was found in fractions displaying high-affinity NGF binding and the 92.5-kDa protein in fractions displaying low-affinity NGF binding. Equilibrium binding analysis of NGF in PEGG fractions confirmed the presence of two specific saturable binding sites with KD values similar to those observed for whole dissociated cells. When NGFR II activity from the acidic region of the PEGG chromatogram was incubated with NGFR II from the basic region of the PEGG chromatogram, there was no change in NGF binding or in the number of apparent NGF receptors. However, incubation of these same fractions with a fraction having only NGFR I showed an apparent increase in high-affinity NGF binding and a decrease in low-affinity NGF binding. Immunoprecipitation of this "mixed" fraction and analysis on SDS-PAGE under reduced and nonreduced conditions showed 200-kDa and 92.5-kDa proteins under nonreduced conditions and a 92.5-kDa protein under reduced conditions. Our findings are consistent with the hypothesis that there are two distinct NGF receptors in NGF-responsive cells. The interconvertibility of low- and high-affinity receptors and the possible existence of a modulator type protein or of "silent" type receptors are also in agreement with our findings.
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PMID:Nerve growth factor receptors in human neuroblastoma cells. 303 29

Giardia lamblia, a flagellated parasitic protozoan and the causative agent of giardiasis, lacks de novo purine biosynthesis and exists on salvage of adenine and guanine by adenine phosphoribosyltransferase and guanine phosphoribosyltransferase. Guanine phosphoribosyltransferase from G. lamblia crude extracts has been purified to apparent homogeneity by Sephacryl S-200 gel filtration followed by C-8-GMP-agarose and 2',3'-GMP-agarose affinity chromatography, resulting in an overall recovery of 77% and a purification of 83,000-fold. The molecular weight of the native enzyme as estimated by gel filtration and isokinetic sucrose gradients was found to be 58,000-63,000, with a subunit molecular weight of approximately 29,000, as shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Mono P chromatofocusing chromatography gives rise to a major activity peak eluting from the column at a pH of 6.75 and two minor activity peaks at pH of 5.3 and 5.2. Hypoxanthine and xanthine can be recognized by the enzyme as substrates but at Km values 20 times higher than that observed with guanine. G. lamblia guanine phosphoribosyltransferase is immunologically distinct from human hypoxanthine-guanine phosphoribosyltransferase and Escherichia coli xanthine-guanine phosphoribosyltransferase, and G. lamblia DNA fragments are incapable of hybridizing with mouse neuroblastoma hypoxanthine-guanine phosphoribosyltransferase DNA or E. coli xanthine phosphoribosyltransferase DNA under relatively relaxed conditions. All evidence presented suggests that G. lamblia guanine phosphoribosyltransferase may be qualified as a potential target for antigiardiasis chemotherapy.
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PMID:Purification and characterization of guanine phosphoribosyltransferase from Giardia lamblia. 308 75

Although both second messenger response systems are fully functional in both cell lines, activation of muscarinic cholinergic receptors only results in inhibition of adenylate cyclase in NG108-15 neuroblastoma X glioma cells and stimulation of phosphoinositide hydrolysis in 1321N1 human astrocytoma cells. Muscarinic receptors on both cell types were covalently labeled with [3H]propylbenzilylcholine mustard ([3H]PBCM), and the mobilities of the [3H]PBCM-labeled species of both cells were compared by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. 1321N1 and NG108-15 cells each primarily expressed a single [3H]PBCM-labeled species with an apparent size of approximately 92,000 and 66,000 Da, respectively. [3H]PBCM labeling was completely inhibited by 1 microM atropine or by down-regulation of muscarinic receptors by an overnight incubation with carbachol. The apparent size of the [3H]PBCM-labeled species of both cell lines was not altered by treatment with a series of protease inhibitors or by treatment with dithiothreitol and iodoacetamide. Since muscarinic receptors are glycoproteins, the contribution of carbohydrate groups to the difference in apparent size of the [3H]PBCM-labeled proteins was determined by treatment of [3H]PBCM-labeled membranes with endoglycosidase F, an enzyme that removes both complex and high mannose type N-linked carbohydrate chains. Endoglycosidase F treatment reduced the apparent size of the [3H]PBCM-labeled species in 1321N1 cells from 92,000 to approximately 77,000 Da and in NG108-15 cells from 66,000 to 45,000 Da. Neuraminidase produced no further reduction of the apparent size of the [3H]PBCM-labeled species from either cell after endoglycosidase F treatment, suggesting the absence of sialic acid containing O-linked carbohydrate chains on the muscarinic receptors of the two cell lines. The results suggest that different muscarinic receptor proteins may be responsible for the two different biochemical responses to muscarinic receptor activation.
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PMID:[3H]propylbenzilylcholine mustard-labeling of muscarinic cholinergic receptors that selectively couple to phospholipase C or adenylate cyclase in two cultured cell lines. 311 80

Neuron-specific gamma gamma enolase was purified from a neuroblastoma tissue obtained at surgical resection. The final preparation showed a single band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) with a mobility identical to that of gamma gamma enolase purified from human brain. The values of specific activity (about 80 units/mg), optimal pH (6.9), and Km for 2-phosphoglycerate (about 3 X 10(-5) M) of gamma gamma enolase purified from neuroblastoma were very similar to those of gamma gamma enolase purified from brain. The results of peptide mapping analysis after limited proteolysis, and amino acid analysis also indicate there was no difference between the enzymes purified from neuroblastoma and brain.
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PMID:Purification and characterization of neuron-specific gamma gamma enolase from human neuroblastoma: comparison with the brain enzyme. 311 43

The chemical heterogeneity of radiolabelled neuroblastoma heparan sulfate has been studied by ion exchange chromatography and by affinity chromatography on heparan sulfate-agarose. Although the entire population of chains shows considerable homogeneity in charge density, the deaminative cleavage products ranged in size from disaccharides to eicosasaccharides. Under appropriate conditions neuroblastoma heparan sulfate could be separated into two pools of low or high affinity for lung heparan sulfate-agarose. Analyses of periodate oxidation-alkaline elimination indicated that the high affinity chains contained larger proportions of heparin-like segments, i.e. iduronate-rich and N-sulfated ones.
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PMID:Chemical heterogeneity of heparan sulfate from a human neuroblastoma cell line. 315 73

Human and rat neuroblastoma cells extend neurites over plasma fibronectin (pFN)-coated substrata. For resolution of which fibronectin binding activities (the cell-binding domain (CBD), the heparan sulfate-binding domains, or a combination of the two) are responsible for neurite outgrowth, CBD was prepared free of heparan sulfate-binding activity as described by Pierschbacher et al. (Cell 26 (1981) 259-267). Neuroblastoma cells attached and extended neurites as stably and as effectively on CBD-coated substrata as on intact pFN, while cytoplasmic spreading was more extensive on pFN-coated substrata. The structures of growth cones on CBD or pFN were virtually identical. On substrata coated with the model heparan sulfate-binding protein, platelet factor 4 (PF4), cells attached and spread somewhat but never extended neurites. When cells were challenged with substrata coated with various ratios of CBD and PF4, PF4 was found to be an effective inhibitor of CBD-mediated neurite extension. Similarly, cells grown on substrata coated at different locations with CBD or PF4 in order to evaluate topographical dependence of growth cone formation extended neurites only onto the CBD-coated region or along the interface between these two proteins, but never onto the PF4 side of cells that bridged the interface. These studies indicate that (a) the CBD activity of pFN, and not its heparan sulfate-binding activity, is the critical determinant in neurite extension of these neural tumor cells from the central nervous system; (b) under some circumstances, heparan sulfate-binding activity can be antagonistic to neurite extension; (c) the chemical nature of the substratum controls the direction of neurite extension; (d) these neuroblastoma cells respond to these binding proteins very differently than fibroblasts or neurons from the peripheral nervous system.
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PMID:Neurite extension by neuroblastoma cells on substratum-bound fibronectin's cell-binding fragment but not on the heparan sulfate-binding protein, platelet factor-4. 315 90

Attachment and neurite extension processes have been evaluated for an immortalized derivative cell of a rat dorsal root neuron after fusion with a mouse neuroblastoma cell (the clonal F11 hybrid cell line) and these processes compared with previous studies of neuroblastoma cells, since both cell types may be derived from the neural crest of the developing embryo. Biochemically defined substrata were provided by human plasma fibronectin (pFN), the heparan sulfate-binding protein platelet factor-4 (PF4), and the ganglioside GM1-binding protein cholera toxin B subunit (CTB). While some attachment of unsupplemented cells was noted on CTB substrata, GM1 supplementation permitted F11 cells to attach as well on CTB as on pFN or PF4. On PF4, very few neurite processes were observed while on pFN two morphologically distinct types of neurites could be identified: short, linear processes in a low percentage of cells resembling those of neuroblastoma cells and long, irregular and narrow processes in a higher percentage of cells resembling those of dorsal root neurons. On CTB, neurites of the latter class were even more prominent; however, cell bodies on CTB failed to spread by cytoplasmic extension as commonly observed in F11 cells on pFN and, to some extent, on PF4. The formation of both neurite classes on either pFN or CTB was completely inhibited by low concentrations of an RGDS (Arg-Gly-Asp-Ser) peptide in the medium of cultures, indicating the significance of pFN's binding to cell surface integrin or ganglioside GM1's possible interaction with integrin for mediating the differentiative process. In contrast, neurite formation of neuroblastoma cells is refractile to the soluble peptide as reported previously. Neurite extensions of F11 cells on either pFN or CTB were comparably sensitive to low concentrations of cytochalasin D, revealing the mediation of microfilament reorganization in these processes. Treatment of F11 cells with cycloheximide failed to inhibit neurite extension on pFN but did partially inhibit extension on CTB; this contrasts with the very high sensitivity of neurite formation by neuroblastoma cells on CTB substrata reported previously.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Multiple and alternative adhesive responses on defined substrata of an immortalized dorsal root neuron hybrid cell line. 316 39


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