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)

Hexahydro-sila-difenidol and eight analogues behaved as simple competitive inhibitors of [3H]N-methyl-scopolamine binding to homogenates from human neuroblastoma NB-OK 1 cells (M1 sites), rat heart (M2 sites), rat pancreas (M3 sites), and rat striatum 'B' sites (M4 sites). Pyrrolidino- and hexamethyleneimino analogues showed the same selectivity profile as the parent compound. Hexahydro-sila-difenidol methiodide and the methiodide of p-fluoro-hexahydro-sila-difenidol had a higher affinity but a lower selectivity than the tertiary amines. Compounds containing a p-methoxy, p-chloro or p-fluoro substituent in the phenyl ring of hexahydro-sila-difenidol showed a qualitatively similar selectivity profile as the parent compound (i.e., M1 = M3 = M4 greater than M2), but up to 16-fold lower affinities. o-Methoxy-hexahydro-sila-difenidol has a lower affinity than hexahydro-sila-difenidol at the four binding sites. Its selectivity profile (M4 greater than M1, M3 greater than M2) was different from hexahydro-sila-difenidol. Replacement of the central silicon atom of hexahydro-sila-difenidol, p-fluoro-hexahydro-sila-difenidol and their quaternary (N-methylated) analogues by a carbon atom did not change their binding affinities significantly. The four muscarinic receptors showed a higher affinity for the (R)- than for the (S)-enantiomers of hexahydro-difenidol, p-fluorohexahydro-difenidol and their methiodides. The stereoselectivity varied depending on the receptor subtype and drug considered.
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PMID:Binding affinities of hexahydro-difenidol and hexahydro-sila-difenidol analogues at four muscarinic receptor subtypes: constitutional and stereochemical aspects. 206 19

The recently reported presence of alumino-silicates in the core of Alzheimer's senile plaques raises a number of questions concerning the little studied area of interactions between solid particles and neuronal tissue. In this preliminary study we report that contact between crystalline alumino-silicates and cultured neuroblastoma cells selectively caused a rapid increase in membrane electrical conductance and loss of excitable activity. Severe morphological deterioration was subsequently evident within 30 min of exposure. Similar effects were induced by a magnesium silicate mineral but not by aluminum hydroxides or by silicon in the form of quartz. Homogeneously charged synthetic particles did not induce changes in electrical function of the cells. These results suggest that a layout incorporating both negative and positive charges, as can be found on the broken edges of platy clay metallo-silicates, and the non-isodiametrical geometry of the particles may be necessary for the acute neurotoxic interaction observed.
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PMID:Toxic effects of alumino-silicates on nerve cells. 208 76

Information on the transmembrane signaling events and subsequent biochemical processes initiated by ciliary neurotrophic factor (CNTF) receptor activation in neurons is lacking. SH-SY5Y cells, a human neuroblastoma cell line expressing CNTF receptors, were used to study metabolic changes associated with functional ligand-receptor interactions. Real-time measurements quantifying the rate of extracellular acidification by SH-SY5Y cells (a measure of metabolic activity) were made using a silicon-based cytosensor. Application of recombinant human CNTF (rhCNTF) to resting SH-SY5Y cells increased their acidification rate in a concentration and time-dependent manner with an apparent EC50 of 60 ng/ml. Pretreatment of cells with phosphatidylinositol-specific phospholipase C (PI-PLC) prevented the CNTF, but not an NGF-stimulated increase in acidification rate. Collectively, these results demonstrate that: (1) SH-SY5Y cells express functional CNTF receptors; and (2) the initial signal transduction mechanism activated by the CNTF receptor in SH-SY5Y cells is distinct from that activated by the NGF receptor; however, both may ultimately stimulate the same downstream biochemical messengers to increase cellular metabolism.
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PMID:Recombinant human ciliary neurotrophic factor stimulates the metabolic activity of SH-SY5Y cells as measured by a cytosensor microphysiometer. 806 84

The B104 neuroblastoma cell line was investigated for use as an assay for predicting the patterning of primary neurons. B104 cells were grown on four uniform substrates with the result that the cells preferred, in descending order, poly-D-lysine (PDL), phenyltrichlorosilane (PTCS), coverslip glass, and silicon dioxide coated coverslips. B104 cells were then grown on micropatterned PDL grids on silicon dioxide coated substrates with excellent patterning. Compliance of somata to the pattern, defined as the percentage of cell bodies in a grid field located on the grid pattern, was 86% after 8 h. Neurites were not as compliant, since only 10% of background areas were free of neurites and connected cells. Compliance at longer time periods was greatly reduced. With the addition of the differentiating agent dibutyrylcyclicAMP (DBcAMP), the compliance of somata was maintained at high levels for up to 72 h. Also, the compliance of neurites greatly increased (70%) and showed positive improvement with longer pattern path lengths, contrary to B104 cells without DBcAMP. At longer times neurite compliance was reduced (12% at 28 h and 44% at 72 h). Although there are differences in substrate preferences, the B104 system with DBcAMP appears to be a useful tool in the investigation of the technology of patterned substrates.
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PMID:Differentiated B104 neuroblastoma cells are a high-resolution assay for micropatterned substrates. 926 49

The quaternisation of N-substituted benzimidazoles by heating with various alkyl, allyl, propargyl and benzyl chlorides and bromides leads to the formation of benzimidazolinium salts. The interaction of N-monosubstituted benzimidazoles with various salts (CuCl2, ZnCl2, CoCl2, PdCl2 and AgNO3) yielded stable solid complexes. Potential cytotoxic activity of synthesised benzimidazolinium salts and benzimidazole metal complexes was tested in vitro on four monolayer tumour cell lines: MG-22A (mouse hepatoma), HT-1080 (human fibrosarcoma), B16 (mouse melanoma), Neuro 2A (mouse neuroblastoma) and normal mouse fibroblast cells. A preliminary analysis of the structure-activity relationship for the benzimidazole derivatives clearly indicates that the character of substituents in the benzimidazole ring has strong influence on the cytotoxic activity. The insertion of the silicon atom into the N-alkyl chain increases the cytotoxic activity of benzimidazolinium salts significantly, which show a very significant potency in vitro against all studied tumour cell lines, being particularly active in experiments with B16 (mouse melanoma). TD50 for the most active compounds are in the range 0.001-0.008 microg x ml(-1). Cytotoxicity of benzimidazole metal complexes (L2MX2) strongly depends on the metal nature. 1-(3-trimethylsilylpropyl)benzimidazole in dose 1 mg x kg(-1) inhibits carcinoma S-180 tumour growth by 62% (on ICR mice).
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PMID:Synthesis and antitumour activity of trimethylsilylpropyl substituted benzimidazoles. 1152 41

Studies of electrically induced morphological changes in neurons have either been limited by the resolution of light microscopy or the cell fixation required for electron microscopy. Atomic force microscopy (AFM), however, mechanically maps cell topography, offering exquisite resolution of evolving processes in three dimensions. In this paper, we present a microelectrode array (MEA) based platform for the real-time detection of subtle, electrically induced variations in neuronal morphology, with AFM. This platform required the customized design and production of a silicon-based MEA, integration with a commercial AFM, and the development of biological techniques for culture of neuroblastoma (SH-SY5Y) cells onto the device. Biphasic pulse trains (1 Hz) of electric current were delivered to a microelectrode interfaced with a neuroblastoma cell, and the AFM continuously recorded a cross-sectional height profile. Proof-of-principle experiments demonstrate that electric stimulation may induce fluctuations ranging in the 100-300-nm range, 75-fold greater than the systemic resolution, but smaller than the resolution of light microscopy modalities. In addition, the real-time capabilities of AFM captured a collapse (30%-40%) of a neurite cross section, seconds after electric stimulation. Ultimately, this platform can be used to nanocharacterize cell responses to electric stimulation and other biochemical cues, for use in neuronal patterning and regeneration studies.
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PMID:A novel MEA/AFM platform for measurement of real-time, nanometric morphological alterations of electrically stimulated neuroblastoma cells. 1538 43

The accurate determination of biological parameters by means of rapid, on-line measurements at low-concentrations is an important task within the fields of pharmaceutical screening and medical diagnostic. Nevertheless, in biological samples, the analytes of interest are present as minor components in complex mixtures and with interfering species. Biosensors are the best candidates for these applications providing a direct solution to this need of accuracy, but their intrinsic selectivity often excludes all the other components in the sample. A separation step introduced prior to the sensing component could allow both the increase of selectivity with respect the interfering species and the identification of a large spectrum of molecular components in the sample. This work reports the development of a silicon-based integrated separation microsystem for gas chromatography aimed to biomedical applications, with particular emphasis to monitor the homovanillic acid (HVA) and vanillylmandelic acid (VMA) ratios in mass population screening for neuroblastoma diagnosis and prognosis. The miniaturised system consists of two main modules: (i) a metal oxide semiconductor detector and (ii) a micromachined separation capillary column. As first step, the metal oxide semiconductor capability to detect HVA and VMA has been demonstrated. Then, a technology for a silicon separation capillary microcolumn including the on-chip gas sensor housing has been proposed and a first prototype has been developed. The proposed microsystem is an analytical device with biosensing capabilities for diagnostic and biomedical applications, which yield an electronic signal proportional to the concentration of a specific analyte or group of analytes.
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PMID:Development of a gas chromatography silicon-based microsystem in clinical diagnostics. 1574 Oct 65

In this study, we demonstrate that porous silicon films can be ablated by the pulsed nitrogen laser of a commercial MALDI mass spectrometer. The extent of laser-induced ablation was found to depend on the doping level and surface chemistry of the porous silicon film. Using direct laser writing with or without a mask, micropatterns were generated on the porous silicon surface. These micropatterns were subsequently used to guide the growth of mammalian cells including neuroblastoma. Excellent selectivity of cell growth toward the laser-ablated regions was established.
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PMID:Micropatterning of porous silicon films by direct laser writing. 1702 78

The effects of surface topography on cell behaviour are the subject of intense research in cell biology. These effects have so far only been studied using substrate surfaces of discretely different topography. In this paper, we present a new approach to characterise cell growth on porous silicon gradients displaying pore sizes from several thousands to a few nanometers. This widely applicable format has the potential to significantly reduce sample numbers and hence analysis time and cost. Our gradient format was applied here to the culture of neuroblastoma cells in order to determine the effects of topography on cell growth parameters. Cell viability, morphology, length and area were characterised by fluorescence and scanning electron microscopy. We observed a dramatic influence of changes in surface topography on the density and morphology of adherent neuroblastoma cells. For example, pore size regimes where cell attachment is strongly discouraged were identified providing cues for the design of low-fouling surfaces. On pore size regimes more conducive to cell attachment, lateral cell-cell interactions crosslinked the cell layer to the substratum surface, while direct substrate-cell interactions were scarce. Finally, our study revealed that cells were sensitive to nanoscale surface topography with feature sizes of <20 nm.
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PMID:Using continuous porous silicon gradients to study the influence of surface topography on the behaviour of neuroblastoma cells. 1805 14

We here measure the toxicity of MCM-41, a mesoporous silica nanomaterial, two of its functionalized analogs, AP-T, which has grafted aminopropyl groups and MP-T, which has grafted mercaptopropyl groups, and spherical silica nanoparticles (SiO(2)), toward human neuroblastoma (SK-N-SH) cells. Since the particles studied are not soluble in aqueous media, the metric used to report the cytotoxicity of these materials is a new quantity, Q(50), which is the number of particles required to inhibit normal cell growth by 50%. Determining the number of particles per gram of material applied to the cells required both the calculated and experimentally determined surface areas of these nanomaterials. This study shows that Q(50) increases in the order, MCM-41<MP-T<AP-T approximately SiO(2), showing that on a per particle basis, MCM-41 is the most cytotoxic material studied. For the three mesoporous silica materials in this study, cytotoxicity appears related to the adsorptive surface area of the particle, although the nature of the functional group cannot be ruled out. Silica nanospheres have the lowest surface area of the particles studied but since they exhibit a Q(50) value similar to that of AP-T, shape may also be important in the cytotoxicity of these materials.
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PMID:Cytotoxicity of mesoporous silica nanomaterials. 1827 65

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