UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Both glial and neuronal cells maintained in primary culture were found to accumulate [3H]GABA by an efficient "high-affinity" uptake system (apparent Km = 9 muM, Vmax = 0.018 and 0.584 nmol/mg/min, respectively) which required sodium ions and was inhibited by 1 mM ouabain. Strychnine and parachloromercuriphenylsulfonate (pCS) (both at 1mM) also strongly inhibited uptake of [3H]GABA, but metabolic inhibitors (2,4-dinitrophenol, potassium cyanide, and malonate) were without effect. Only three structural analogs of GABA (nipecotate, beta-alanine, and 2,4-diaminobutyrate) inhibited uptake of [3H]GABA, while several other compounds with structural similarities to GABA (e.g. glycine, L-proline, and taurine) did not interact with the system. The kinetic studies indicated presence of a second uptake (Km = 92 muM, Vmax = 0.124 nmol/mg/min) in the primary cultures containing predominantly glioblasts. On the other hand, only one of the neuronal cell lines transformed by simian virus SV40 appeared to accumulate [3H]GABA against a concentration gradient. Apparent Km of this uptake was relatively high (819 muM), and it was only weakly inhibited by 1 mM ouabain and 1 mM pCS. The structural specificity also differed from that of the uptake observed in the primary cultures. Significantly, non of the nontransformed continuous cell lines of either tumoral (glioma, C6; neuroblastoma, M1; M1NN) or normal (NN;I6) origin actively accumulated [3H]GABA. It is suggested that for the neurochemical studies related to GABA and requiring homogeneous cell populations, the primary cultures offer a better experimental model than the continuous cell lines.
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PMID:High-affinity uptake of gamma-aminobutyric acid in cultured glial and neuronal cells. 22 77

Collagens are a heterogeneous family of structural proteins synthesized by many cultured cells including tumor cells. The synthesis of these proteins by three human tumor types commonly encountered in children [neuroblastoma, rhabdomyosarcoma, and nephroblastoma (Wilms' tumor)] was investigated in short-term cultures of freshly excised tumor explants grown on extracellular matrices. Analysis of the incorporation of [3H]proline into collagenase-sensitive proteins indicated significant collagen production by several Wilms' tumors and rhabdomyosarcomas, while neuroblastomas did not synthesize this structural protein. All eight Wilms' tumor specimens analyzed secreted type IV procollagen. Interstitial types I and III collagens were also produced by these tumors, but in most cases, the alpha 1 (I): alpha 2 ratio was much higher than the 2:1 ratio expected for type I collagen, indicating a major change in the control of type I collagen production. Rhabdomyosarcomas were very heterogeneous with regard to collagen secretion and synthesized either a single collagen isotype (type III), several collagens including types I, III, and IV, or no detectable collagen. Our data represent a first quantitative and qualitative analysis of collagen synthesis by primary tumor cultures and reveal much more heterogeneity in collagen biosynthesis by these tumors than reported previously with established cell lines. They also indicate significant alterations in the expression of type I collagen genes in Wilms' tumors.
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PMID:Collagen synthesis by short-term explants of pediatric tumors. 298 85

The three-dimensional structures of the carboxyl-terminal regions of the P21 protein products of the human Harvey (Ha), Kirsten (KiA and KiB), and neuroblastoma (N) RAS oncogenes and various mutants have been determined by using conformational energy analysis. The carboxyl-terminal region of P21 has been strongly implicated in the binding of the protein to the inner surface of the plasma membrane without which the protein is inactive. The only invariant residue in this region is Cys-186, which is necessary for the post-translational addition of palmitic acid. The surrounding sequences of the active native proteins differ considerably. Nevertheless, certain amino acid substitutions in this region are known to eliminate membrane binding and protein activity, suggesting that there is a conserved common structural feature in this region in the native proteins that is disrupted in the mutant proteins. Conformational energy analysis shows that the four native P21 proteins have a common structure in the form of an alpha-helix for the terminal pentapeptide. A mutant, pBW277, that fails to bind to the membrane and is inactive cannot adopt an alpha-helical structure in this region because of a proline at position 188. Another mutant, pBW766, that retains membrane binding and activity, on the other hand, retains the preference for an alpha-helical conformation in the terminal pentapeptide. These findings suggest that, despite various amino acid sequences in this region, the carboxyl-terminal pentapeptides of the P21 proteins form a distinctive structural domain that must have an alpha-helical structure for membrane binding and intracellular activity.
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PMID:Structure of the carboxyl terminus of the RAS gene-encoded P21 proteins. 304 6

The mechanisms by which neurotensin (NT) was inactivated by differentiated neuroblastoma and HT29 cells were characterized. In both cell lines, the sites of primary cleavages of NT were Pro7-Arg8, Arg8-Arg9 and Pro10-Tyr11 bonds. The cleavage at the Pro7-Arg8 bond was totally inhibited by N-benzyloxycarbonyl-Prolyl-Prolinal and therefore resulted from the action of proline endopeptidase. This peptidase also contributed in a major way to the cleavage at the Pro10-Tyr11 bond. However the latter breakdown was partly due to an NT-degrading neutral metallopeptidase. Finally, we demonstrated the involvement of a recently purified rat brain soluble metalloendopeptidase at the Arg8-Arg9 site by the use of its specific inhibitor N-[1(R,S)-carboxy-2-Phenylethyl]-alanylalanylphenylalanine-p-amino benzoate. The secondary processing of NT degradation products revealed differences between HT29 and N1E115 cells. Angiotensin converting enzyme was shown to degrade NT1-10 and NT1-7 in N1E115 cells but was not detected in HT29 cells. A post-proline dipeptidyl aminopeptidase activity converted NT9-13 into NT11-13 in HT29 cells but not in N1E115 cells. Finally bestatin-sensitive aminopeptidases rapidly broke down NT11-13 to Tyr in both cell lines. Models for the inactivation of NT in HT29 and N1E115 cells are proposed and compared to that previously described for purified rat brain synaptic membranes.
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PMID:Catabolism of neurotensin by neural (neuroblastoma clone N1E115) and extraneural (HT29) cell lines. 356 17

Rubrophilin, a unique brain specific polypeptide, was purified to apparent homogeneity from microsomal fractions of bovine brains. The peptide stains pink with Coomassie Brilliant Blue R-250 (C.I. No. 42660) under specific conditions, has an apparent Mr of 53,000, and is acidic with an apparent pI of 4.9. The purification involves initial solubilization of delipidated microsomes in sodium dodecyl sulfate, followed by ammonium sulfate fractionation, reversed ammonium sulfate gradient elution from diatomaceous earth, gel filtration on polyacrylamide (Biogel P-200), gradient elution chromatography from hydroxylapatite, and reverse-phase chromatography from phenyl-Sepharose. A yield of about 5 mg of rubrophilin was obtained from 9 g of microsomal proteins. Amino acid analysis shows that rubrophilin contains only nine amino acids with residues/mol as follows: alanine (102), glutamic acid (97), lysine (65), proline (55), aspartic acid (48), glycine (44), serine (37), threonine (35), and valine (10). Cysteine, methionine, tryptophan, tyrosine, isoleucine, phenylalanine, histidine, and arginine could not be detected. Relative rubrophilin content of vertebrate brains was as follows: mammals greater than birds greater than reptiles greater than fishes. It is present in mouse retina and human neuroblastoma cell cultures but could not be detected in octopus optic lobe or in cultured C-6 rat glioma cells.
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PMID:Purification and properties of rubrophilin: a novel brain specific membrane polypeptide. 380 7

An analysis was done on the synthesis of collagen, an extracellular matrix protein synthesized by Schwann cells, by several human neuroblastoma lines. Cultured cells were incubated in the presence of L-[2,3-3H]proline, and the collagens synthesized and secreted into the culture medium were analyzed by electrophoresis on acrylamide gels, ion exchange chromatography, and immunoprecipitation. The amount of collagen secreted by 4 cell lines tested represented less than 3% of the total protein synthesis, indicating a low degree of collagen biosynthesis by this tumor type. Analysis of collagen types secreted by all cell lines revealed the presence of a high-molecular-weight collagen precursor (Mr = 165,000) identified as type IV procollagen. In addition, several cell lines synthesized stromal type I and type III collagens. These studies show that neuroblastoma cells produce collagenous proteins including basement membrane collagen (type IV) and stromal collagens (types I and III), indicating that these cells express properties of glial cells such as Schwann cells.
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PMID:Collagen biosynthesis in human neuroblastoma cell lines: evidence for expression of glial cell properties. 392 57

Extracellular matrix proteins synthesized and secreted by adherent human tumor cell lines were analyzed using metabolic labelling with glycine and proline in the presence of ascorbate, polypeptide analysis and polyacrylamide gel electrophoresis, affinity chromatography, collagenase digestion, and immunofluorescence staining. The results showed a characteristic pattern of matrix proteins for each tumor cell type. Tumor cell lines of mesenchymal origin produced mostly interstitial types (I and II) of collagen and fibronectin. Carcinoma cell lines secreted only basement membrane proteins, type IV collagen, laminin and fibronectin, but not interstitial collagen. A melanoma and a rhabdomyosarcoma cell line produced type V of procollagen that has not previously been described in cell culture. Neuroblastoma cells were shown to be phenotypically heterogeneous also with respect to matrix protein production. We propose that the analysis of extracellular matrix proteins may serve as an adjunct in the classification of human tumors.
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PMID:Extracellular matrix proteins characterize human tumor cell lines. 627 24

Neuropeptide Y (NPY), a 36-residue polypeptide produced abundantly in both nervous and peripheral tissues, appears to play a significant role in the regulation of diverse biological processes, including feeding behavior and cardiovascular and psychotropic functions. The actions of NPY are mediated through effective binding to specific receptors of which two, designated Y1 and Y2, have been well characterized. A shortened cyclic analogue of NPY, des-AA10-17-cyclo-7/21[Cys7,21]NPY, was shown to retain high affinity for both human neuroblastoma SK-N-MC and SK-N-BE2 cell types (expressing Y1 and Y2 receptors, respectively). Increasing the size of the ring (des-AA10-17-cyclo-2/27[Cys2,27]NPY) in the present study produced a high-affinity analogue (Ki = 3.0 vs 0.3 nM for NPY) that bound exclusively to Y2 receptors. Using the feedback from structure-activity relationships, we also describe the optimization of specific substitutions and bridging arrangements leading to the production of other truncated, high-affinity Y1 selective analogues which bind, as does NPY itself, in the low-nanomolar range. Of greatest significance, des-AA10-17-cyclo-7/21[Cys7,21,Pro34]NPY (11) was found to possess agonistic properties with an affinity comparable to that of the native NPY molecule when tested for its ability to inhibit norepinephrine-stimulated cAMP release in SK-N-MC human neuroblastoma cells. Compound 11 also caused an increase in blood pressure in anesthetized rats. However, in two central nervous system models of Y1 receptor function, stimulation of feeding and anxiolytic activity, this analogue was inactive, which suggests the presence of a new subclass of receptors. In summary, the present results demonstrate that residues 10-17 of NPY are not directly involved in either Y1 or Y2 receptor recognition or activation. This suggests that the selectivity of NPY receptors is highly dependent on subtle conformational changes such as the substitution of residue 34 to a proline or the introduction of intramolecular constraints. Additionally, we have produced an analogue of NPY that selectively activates peripheral NPY Y1 receptors.
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PMID:Y1 and Y2 receptor selective neuropeptide Y analogues: evidence for a Y1 receptor subclass. 747 86

The distribution of microtubule-associated protein lB (MAPlB) phosphorylated by either proline-directed protein kinase (PDPK) or casein kinase II (CK II) in neuroblastoma cells and hippocampal neurons has been studied by immunofluorescence using specific antibodies to distinct phosphorylation-sensitive epitopes. A proximo-distal gradient of increasing PDPK-catalyzed phosphorylation of MAPlB is superimposed on a proximo distal gradient of decreasing CK II-catalyzed MAPlB phosphorylation within growing axon-like neurites. Additionally, CK II-phosphorylated MAPlB is present in cell bodies and dendrites where no PDPK-phosphorylated MAPlB is observed. These results suggest distinct roles for both types of modifications of MAPlB in developing neurons.
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PMID:Role of phosphorylated MAPlB in neuritogenesis. 751 12

Phosphorylation of microtubule-associated protein MAP1B and the neuronal-specific beta III-tubulin isoform takes place during neurite growth in neuroblastoma cells. Protein kinase CK2 (formerly referred to as casein kinase 2) is possibly involved in beta III-tubulin phosphorylation. As for MAP1B, there are at least two types of phosphorylation; one catalyzed by proline-directed protein kinases and another catalyzed by CK2. Protein kinase CK2 is primarily localized to the nuclei in proliferating neuroblastoma cells, whereas an increased amount of the enzyme is present in the cytoplasm of postmitotic cells bearing neurites. Treatment of neuroblastoma cells with an antisense oligonucleotide which specifically results in CK2 catalytic subunit depletion inhibits neuritogenesis. CK2 depletion is accompanied by dephosphorylation of MAP1B on the corresponding phosphorylatable sites. This dephosphorylation is paralleled by a release of MAP1B from microtubules. These results suggest that MAP1B phosphorylation by CK2 may be required for the assembly of microtubules within neurites. Other neuronal cytoskeletal proteins including MAP1A and tau are also substrates for CK2, indicating a role for the enzyme in the regulation of cytoskeletal functions also in mature neurons.
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PMID:Phosphorylation of microtubule-associated proteins by protein kinase CK2 in neuritogenesis. 753 78

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