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)

Scrapie strain replication in the nerve growth factor-induced, differentiated PC12 cell culture system was examined. Differences in replication between mouse-derived agents were demonstrated, with the 139A scrapie strain yielding 100- to 1000-fold higher levels of infectivity than the ME7 scrapie strain. Replication was not detected in PC12 cells infected with either the hamster-derived 263K or rat-derived 139R scrapie strains. Studies on the neurotransmitters in infected PC12 cells demonstrated that the adrenergic pathway was unchanged but the cholinergic pathway was altered. Furthermore, the degree of alteration correlated with the level of scrapie strain replication. Comparison of infectivity titres and enzymatic changes in ME7-infected PC12 cells with those in Chandler agent-infected mouse neuroblastoma cells suggests that the significant changes in neurotransmitter levels in cultures exhibiting low titres of infectivity involve factors in addition to strain replication. The variation in the range of scrapie strain replication in PC12 cells is discussed in relationship to species barrier, cell targeting, genetic susceptibility and species strain specificity. These studies further emphasize the value of the PC12 cell model system in examining the scrapie strain-host cell interaction and in addition support the concept of variation among scrapie strains.
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PMID:Demonstration of scrapie strain diversity in infected PC12 cells. 135 2

The expression of the genes in the human HOX2 locus has been studied during differentiation of two human neuroblastoma (SH-SY5Y and Kelly), a human glioblastoma (251-MG), and the murine F9 embryonal carcinoma cell lines. Cells were differentiated with retinoic acid (RA), or with RA together with dibutyral cyclic AMP (db-cAMP) and nerve growth factor (NGF) in order to assess the changes in the expression patterns of these homeobox genes during neuronal differentiation. We show that the genes of the HOX2 locus are expressed in a complex transcription pattern that varies with cell type. The two uninduced neuroblastoma cell lines show a similar pattern of expression for a number of HOX2 genes although the levels of expression are different for individual cell lines. The embryonal carcinoma cell line F9 expresses low levels of several HOX2 genes which is restricted to the 5' region of the HOX2 cluster. The glioblastoma cell line, 251-MG expresses almost all of the genes of the HOX2 locus. Differentiation of these cells modulates the expression of the HOX2 genes in a manner that is dependent upon the cell type as well as the differentiation factor. Differentiation affects both the level of HOX2 gene expression and the distribution of transcript sizes. In conclusion, our analysis reveals a complex pattern of expression for the genes of the HOX2 locus in neuronal and glial cells and suggests that the cell-specific expression of these genes may be correlated with the phenotypic differences that are observed between different neuronal and glial cell populations within the nervous system.
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PMID:Modulation of HOX2 gene expression following differentiation of neuronal cell lines. 136 Apr 33

A protein of neurite outgrowth activity has been identified in porcine seminal plasma after ammonium sulfate precipitation and affinity chromatography on heparin-Sepharose. Upon SDS-PAGE, the polypeptide is shown to have a M(r) of 16,000-18,000. Biologically by induction of neuritic processes on neuroblastoma cells, and immunologically by cross-reaction with specific antisera, this seminal plasma protein differs from acidic fibroblast growth factor (aFGF), basic fibroblast growth factor (bFGF) and nerve growth factor (NGF). The neurite outgrowth activity is relatively stable at pH 3-7 and under denaturing conditions of 8 M urea and beta-mercaptoethanol, but is inactivated by treatment of trypsin. This appears to be a novel protein, enhancing morphological differentiation of neuroblastoma cells in culture.
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PMID:A heparin-binding protein in porcine seminal plasma stimulates neurite outgrowth on neuroblastoma cells in culture. 138 97

Treatment of the neuroblastoma cell line SHSY5Y with nerve growth factor (NGF) resulted in limited neurite extension, but proliferation continued. However, SHSY5Y cells treated with NGF and a pulse of the DNA polymerase alpha and delta inhibitor aphidicolin showed dramatic neuronal differentiation. Few differentiated cells were observed immediately following the NGF-aphidicolin treatment; however, continued treatment of the cells with NGF in the ensuing week resulted in extension of long neurites (> 400 microns). Neurite extension was not observed for cells treated with aphidicolin alone. Hence, aphidicolin and NGF act synergistically to induce differentiation of SHSY5Y cells. If maintained in NGF, the differentiated cells were stable for at least 1 month and displayed many neuronal characteristics. They were mitotically inactive, and, in contrast to control or NGF-treated cells, the differentiated cells required NGF for survival. The cells expressed multiple microtubule-associated proteins (MAP), including MAP 1A, MAP 1B, and tau. There was expression of synaptic vesicle antigens synaptophysin and SV2, but not synapsin Ia/b or synapsin IIa/b. Both hydroxyurea and thymidine, which inhibit synthesis of nucleotides, act synergistically with NGF to induce differentiation of SHSY5Y cells. Since aphidicolin, hydroxyurea, and thymidine are chemically unrelated, we conclude that these drugs enhance NGF-induced differentiation by blocking cell proliferation and not through an unrelated side effect. The model suggested by these studies is that differentiation is triggered by two simultaneous signals: NGF and cessation of cell proliferation.
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PMID:Neuronal differentiation triggered by blocking cell proliferation. 141 12

Phosphatidylinositol (PI) breakdown represents a powerful system participating in the transduction mechanism of some neurotransmitters and growth factors and producing two second messengers, diacylglycerol and inositol trisphosphate. The transformation of PC12 neuroblastoma cells into neuron-like cells induced by nerve growth factor (NGF) is preceded by a rapid stimulation of PI breakdown; however, it was not known whether PI breakdown mediates actions of other members of the neurotrophin family. The present study analyzed the effects of NGF, brain-derived neurotrophic factor (BDNF), and neurotrophin-3 (NT-3) on PI breakdown in primary cultures of embryonic rat brain cells. Cultures were grown for 7 days; PI was then labeled by incubating cultures with myo-[3H]inositol, which then were exposed acutely to growth factors. BDNF and NT-3, but not NGF, elevated the levels of labeled inositol phosphates within 10-15 min after addition to the cultures in a dose-dependent manner. ED50 values for BDNF and NT-3 were 12.4 and 64.5 ng/ml, respectively. Comparable effects were found in cultures of cortical, striatal, and septal cells. The actions of BDNF and NT-3 probably reflect actions on neurons, because no effects were seen in cultures of nonneuronal cells. In contrast, basic fibroblast growth factor induced a marked stimulation of PI breakdown in cultures of nonneuronal cells. K252b, which selectively blocks neurotrophin actions by inhibiting trk-type receptor proteins, prevented the PI breakdown mediated by BDNF and NT-3. The findings suggest that rapid and specific induction of PI breakdown is involved in the signal transduction of BDNF and NT-3, and they provide evidence that cortical neurons are functionally responsive to BDNF and NT-3 during development.
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PMID:Stimulation of phosphatidylinositol hydrolysis by brain-derived neurotrophic factor and neurotrophin-3 in rat cerebral cortical neurons developing in culture. 143 96

The precise regional control of cell adhesion and growth on a substrate may create two-dimensional tissue formation, as in a neural network. To prepare a neural circuit, micropositioning of neural cells and guidance of extending axons in a given region are required. In general, the adhesion of neural cells and their axonal extension are mediated by adhesive proteins found in the extracellular matrix. This paper describes a novel surface photoprocessing that enables the creation and guidance of regionally selective cell adhesion, leading to a neural network. The non-adherent region was created by chemical fixation of a photoreactive hydrophilic co-polymer of azidostyrene and N, N-dimethylacrylamide on a hydrophobic substrate. Ultraviolet irradiation with the use of a photomask placed on a substrate hydrophilically modified the irradiated regions, which was evident in ESCA and contact angle measurements. The addition of a collagen buffer solution resulted in collagen adsorption only on the non-irradiated hydrophobic portions. Seeded neuroblastoma cells adhered only on collagen-adsorbed pathways 130 microns in width. One day after seeding, nerve growth factor was added to the culture medium, resulting in cell differentiation from growth to axonal extension. The axons grew along the collagen-adsorbed pathways. Sooner or later, cells were interconnected with extended axons, which was clearly visible microscopically. Further culturing completed the honeycomb-like patterning, as designed. The surface processing developed here can manipulate fundamental cellular behavior, leading to two-dimensional patterned tissue, which may provide information on the morphogenesis of the neural network and neurotransmission.
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PMID:Two-dimensional cell manipulation technology. An artificial neural circuit based on surface microphotoprocessing. 145 57

B-Raf, a member of the Raf family of serine/threonine kinases, is expressed primarily in the brain and in the nervous system. In this study, the biochemical properties of the B-Raf protein were investigated in nerve growth factor (NGF)-responsive cell lines and in brain tissues. B-Raf was identified by using phosphopeptide mapping analysis and cDNA analysis as a 95-kDa protein which is primarily localized in the cytosol. NGF rapidly stimulated both serine and threonine phosphorylation in vivo and autophosphorylation activity in vitro of the B-Raf protein. In PC12 cells, B-Raf autokinase activity was induced by both differentiation factors and mitogens, with maximal activity observed after 5 min of factor addition. B-Raf kinase activity was also observed following NGF treatment of SH-SY5Y neuroblastoma cells and in adult mouse brain and hippocampus. Induction of B-Raf kinase activity in NGF-treated PC12 cells required expression of kinase-active trk receptors. Exogenous substrates or a peptide containing the autophosphorylation site became phosphorylated when added to immune complex kinase assays and reduced the in vitro autophosphorylation activity of B-Raf, suggesting that in vitro autophosphorylation sites and exogenous substrates compete for active sites of the B-Raf kinase. Finally, the major in vitro autophosphorylation site of B-Raf was identified as threonine 372 in the conserved region 2 domain. A threonine residue is present at similar positions in all three mammalian Raf family members and may represent a regulatory site for these proteins.
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PMID:95-kilodalton B-Raf serine/threonine kinase: identification of the protein and its major autophosphorylation site. 150 79

The synthetic undecameric peptide, pGlu-Pro-Pro-Gly-Gly-Ser-Lys-Val-Ile-Leu-Phe, known as the hydra head activator peptide, present in high concentrations in mammalian hypothalamus and intestine, was tested for neurotrophic activity in a survival assay using cultured chick embryonic sympathetic and dorsal root ganglion cells, and for morphological differentiation activity on neuroblastoma cells. Hydra head activator peptide supported neuron survival. The optimal active concentration, 1 pM, was very similar to the concentration that causes bud and head formation in hydra. Maximal neuron survival obtained with hydra head activator peptide was close to that obtained with nerve growth factor: both substances enhanced survival up to 3 times that of control cultures. Bradykinin, which has some amino acid sequence homology with hydra head activator, was inactive as a neurotrophic factor. Hydra head activator induced rapid morphological differentiation of the mouse neuroblastoma cell line Neuro-2A. Neuro-2A responded to the peptide by process extension, 4 h after its addition to the culture medium. Neurotrophic factors isolated to date have been characterized by their ability to maintain cell viability and enhance neurite outgrowth. Hydra head activator peptide met these two criteria when tested in 3 different neuron culture systems. Our results suggest that the head activator peptide may act as a neurotrophic factor for neurons in other species, including mammals.
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PMID:Hydra head activator peptide has trophic activity for eukaryotic neurons. 152 28

Human neuroblastoma SH-SY5Y cells differentiate terminally in culture upon exposure to nerve growth factor (NGF) for 4-5 weeks. The neuronal phenotypic properties acquired in response to prolonged NGF treatment include morphological differentiation, cessation of mitotic activity, neuronal marker expression, increased membrane electrical potentials, and a survival dependence upon NGF for trophic support (Jensen, L.M. (1987) Dev. Biol. 120, 56-64). Thus, differentiated cultures survive indefinitely in the continued presence of NGF, however, withdrawal of NGF from differentiated cultures effects the loss of cellular viability within 3-6 days. Here, we show that death of differentiated SH-SY5Y cells caused by NGF deprivation is characteristic of apoptosis. To compare the differentiation promoting and the neurotrophic properties of NGF, whole SH-SY5Y cell extracts were analyzed by two-dimensional polyacrylamide gel electrophoresis using isoelectric focusing and nonequilibrium pH gradient electrophoresis gels in the first dimension. Steady-state levels of polypeptides extracted from whole-cell lysates of naive (untreated) cells, terminally differentiated cells, and NGF-deprived differentiated cells were compared. Over 1,000 spots from each were analyzed using computer-aided spot matching and densitometry. We noted 25 polypeptides that decreased during differentiation, including 15 that decreased by a factor of 10 or more. The levels of five polypeptides were induced from very low or undetectable levels in naive cells. Withdrawal of NGF from terminally differentiated cells produced alterations in steady-state protein patterns substantially distinct from those occurring during differentiation. While levels of most proteins do not appear affected early after NGF withdrawal, others rapidly return to levels comparable with those of the naive state and some changes occurring with differentiation are enhanced further upon NGF withdrawal. Three polypeptides were regulated uniquely by NGF withdrawal, including two that were induced, on average, 20- and 28-fold and another that was depressed more than 7-fold after NGF deprivation, before cell death. These data indicate that NGF elicits both constitutive and nonconstitutive changes in gene expression and suggest that the differentiation promoting and the neurotrophic properties of NGF correlate with the regulation of different gene products.
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PMID:Steady-state polypeptide modulations associated with nerve growth factor (NGF)-induced terminal differentiation and NGF deprivation-induced apoptosis in human neuroblastoma cells. 152 53

Immunocytochemical, immunoblotting and in situ hybridization studies were used to map the distribution of SNAP-25 protein and mRNA in the rodent nervous system. These experiments demonstrated that subsets of neurons expressed SNAP-25, and that several patterns of expression emerged: SNAP-25 expression in caudate nucleus was initially concentrated in axons, which subsequently was localized in presynaptic regions of these axons. Other regions, typified by neocortex, showed developmental increases and persistent adult neuronal immunoreactivity for SNAP-25. Finally, olfactory bulb contained neurons which initially expressed SNAP-25, but lost expression during maturation. Additional studies in cultured human and rat cell lines derived from neural crest suggested that SNAP-25 is expressed in such lines, but not in glial or fibroblast lines. Differentiation of rat PC-12 cells with nerve growth factor failed to alter steady-state levels of SNAP-25 protein; similar responses were seen in human SMS-KCNR neuroblastoma cells differentiated using retinoic acid. The presence of SNAP-25 in presynaptic regions of numerous neuronal subsets and in neural crest cell lines suggests that this protein subserves an important function in neuronal tissues.
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PMID:Distribution and expression of SNAP-25 immunoreactivity in rat brain, rat PC-12 cells and human SMS-KCNR neuroblastoma cells. 157 61


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