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

We have been investigating the use of three culture types for both screening and mechanistic neurotoxicology in vitro. These are the neuroblastoma cell lines (IMR32 - human; C-1300 - mouse), primary mixed monolayer cultures of the rat and chick embryonic midbrain ('micromass' systems) and organotypic whole rat brain reaggregate cultures. The performance of these models for neurotoxicity resting has been investigated with ethylcholine mustard aziridinium (ECMA), vincristine, aluminium, glutamate receptor antagonists, MPTP, and 'hypothyroidism'. From a 'screening' viewpoint, in vitro exposure through a tiered testing system (ranging from simple cytotoxicological parameters in the neural cell lines to neurotransmitter measurements in the organotypic cultures) may permit detection of CNS neurotoxicity and delineation of possible mechanisms. The type of developmental neurotoxicological information gained is highlighted in the cases of aluminum and the glutamate receptor antagonists. High concentrations of aluminum caused significant neural cell death in differentiated neuroblastoma cell lines after approximately two weeks exposure in vitro. In contrast, cell death was detected in the developing midbrain cultures as early as 24 - 48 hr. Studies in whole brain reaggregates suggest that cholinotoxicity may occur in a similar time-frame and is consistent with some of aluminium's effects in vivo. Preliminary experiments have shown that exposure of immature developing midbrain rat primary cultured neurones to the glutamate receptor antagonists, AP3 and MK-801 induces neural cell death which may relate to control of NGF by glutamate cells. Developing neural culture systems may prove useful for testing agents which cause neurotoxicity through disturbances of neurotrophic function.
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PMID:Models for the in vitro assessment of neurotoxicity in the nervous system in relation to xenobiotic and neurotrophic factor-mediated events. 150 34

The toxicity of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), its oxidized metabolite, and two recently synthesized 2'-alkyl derivatives of MPTP (methyl and ethyl), found to be more toxic in vivo in mice, have been compared in two neuroblastoma hybrid cell lines (NCB-20 and 140-3) that express the B form of monoamine oxidase (MAO), as tissue culture models for the mode of action of MPTP in the central nervous system. Unlike previously reported studies with cultured cells of neuronal origin expressing only MAO A, both of these cell lines were sensitive to MPTP. Consistent with the in vivo findings, the 2'-alkyl derivatives were much more toxic than MPTP and comparable to the oxidized metabolite MPP+ in their effects on cell survival and morphology. The cells could be protected against the reduced toxins, but not MPP+, by either the MAO A selective inhibitor, clorgyline or the MAO B selective inhibitor, deprenyl. The effectiveness of the MAO inhibitors in blocking the action of the reduced toxins was consistent with their ability to inhibit MAO activity in the cell cultures, but did not reflect MAO-substrate specificity of the toxins. Inhibitors of serotonin and dopamine uptake, which have been found to protect against MPTP toxicity in vivo, were generally ineffective in the cell cultures, with the exception of a marginal increase in survival of MPP(+)-treated 140-3 cells in the presence of the serotonin uptake inhibitor fluoxetine. These findings are discussed in relation to proposed in vivo mechanisms of MPTP cytotoxicity.
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PMID:Toxicity of MPTP and structural analogs in clonal cell lines of neuronal origin expressing B type monoamine oxidase activity. 177 93

The toxic effect of the Parkinsonism-producing neurotoxin MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine) was investigated using a neuronal cell culture system, namely, neuroblastoma X glioma hybrid NG 108-15. The cells were able to metabolize MPTP into its active metabolite MPP+ (1-methyl-4-phenylpyridinium ion) and to convert its derivative, 2'-methyl MPTP, to the corresponding pyridinium ion. Degenerative changes were observed in NG 108-15 cells when they were examined with a phase-contrast microscope following exposure to MPTP, MPP+, or 2'-methyl MPTP. These compounds also caused an increased leakage of LDH from the treated cells. An enhanced release of [14C]adenine nucleotides was observed from treated cells which were prelabeled with [14C]adenine. The cell death as indicated by the leakage of LDH and the release of adenine nucleotides was markedly reduced in the presence of a high concentration (25 mM) of glucose in the medium. MPTP and MPP+ induced a drastic depletion in cell ATP content prior to cell death. The ATP depletion was also reduced by the presence of a high concentration of glucose. In contrast, tetraphenylborate, a lipophilic anion, highly potentiated the ATP depletion and the subsequent cell death induced by MPTP. Thus, ATP depletion could be a major factor in MPTP-induced neuronal cell death.
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PMID:MPTP-induced ATP depletion and cell death in neuroblastoma X glioma hybrid NG 108-15 cells: protection by glucose and sensitization by tetraphenylborate. 199 18

The effects of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and its putative toxic metabolite 1-methyl-4-phenylpyridinium ion MPP+ were studied with specific neuronal and glial cell lines in vitro. MPTP had no morphological effect on actively growing neuroblastoma N2AB-1 cells or C6 glioma cells nor did it affect cell numbers. However, a low dose of MPP+ (33.7 microM) was cytotoxic to mitotic N2AB-1 cells inducing vacuole formation, cell lysis, and inhibiting cell growth over a 3-day period. Protein synthesis was inhibited in a dose-dependent fashion in MPP+ treated N2AB-1 cells after 24 h exposure while 33.7 microM of this toxin induced a 50% decrease in protein synthesis as early as 5 h after treatment of these cells. Differentiated, neurite-bearing N2AB-1 cells exhibited a loss of neurites and a change in cell size and shape following exposure to 0.33, 3.37 and 33.7 microM MPP+ after 24 h and some cells appeared to be mitogenically stimulated indicating MPP+ may act as a teratogen. C6 glioma cells, however, were resistant to MPP+. While mitotic N2AB-1 cells incubated with MPTP produced only traces of MPP+, C6 glioma cells generated significant amounts of this metabolite (3.6 microM). Moreover, although the morphology and cell number of cocultures did not change in the presence of MPTP, glioma-neuroblastoma cocultures produced 2.90 microM MPP+ which decreased protein synthesis by 18%.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Neurotoxicity of MPTP and MPP+ in vitro: characterization using specific cell lines. 326 40

The study of oxygen radical generation and effects during 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) metabolism was undertaken in an in vitro test system. Three neurochemically discrete neuronal cell lines, B50 (cholinergic) and B65 rat cell lines and SKNSH human neuroblastoma (both catecholaminergic), were exposed to MPTP (0-200 microM). Parallel experiments were performed using reagent H2O2, an intermediate which may be generated during MPTP metabolism, to determine whether MPTP and H2O2 had any selectivity of toxicity and whether the mechanisms of cell death were similar. MPTP toxicity was shown to be reduced by monoamine oxidase B inhibitors, pargyline (P < 0.01) and selegiline (P < 0.05), indicating that toxicity was due to metabolism of MPTP rather than the parent compound. Cytotoxicity was also decreased in the presence of antioxidants, most notably in the presence of superoxide dismutase and catalase together (P < 0.01), suggesting that reactive oxygen species (ROS) play a role in MPTP-induced cell death. Attempts to determine the intracellular target for oxidative attack did not identify significant levels of lipid peroxidation products, but did demonstrate nucleoid expansion, possibly the result of double stranded DNA breaks induced by ROS.
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PMID:An investigation into the role of reactive oxygen species in the mechanism of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine toxicity using neuronal cell lines. 845 68

A series of aliphatic N-methylpropargylamine MAO-B inhibitors have been synthesized and their structural and functional relationships have been investigated. 2-Hexyl-N-methylpropargylamine (2-HxMP), for example, has been found to be a highly potent, irreversible, selective, MAO-B inhibitor both in vitro and in vivo. The R-(-)-enantiomers are much more active than the S-(+)-enantiomers at inhibiting MAO-B activity. Some of these compounds protect mouse nigrostriatal dopamine neurons against the neurotoxin MPTP and the mouse hippocampal noradrenergic system against the neurotoxin N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine (DSP-4). They rescue hippocampal neurons after damage induced by ischemia and kainic acid treatment, as well as motoneurons in young mice following facial nerve axotomy. Such rescue effects are, interestingly, unrelated to inhibition of MAO-B activity. Some of the aliphatic propargylamines enhance the survival of neuroblastoma cells co-cultured with astrocytes following serum depletion. They stimulate the expression of AADC mRNA and inhibit GFAP mRNA expression. They do not possess amphetamine-like properties and exhibit no effect on noradrenaline or dopamine uptake nor do they increase hypertensive effects in the tyramine pressor test. Unlike R(-)-deprenyl, 2-HxMP does not potentiate dopamine toxicity in vitro. These new MAO-B inhibitors may possess significant chemotherapeutic implications for certain psychiatric and neurodegenerative disorders.
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PMID:Neurochemical, neuroprotective and neurorescue effects of aliphatic N-methylpropargylamines; new MAO-B inhibitors without amphetamine-like properties. 858 47

The possibility of imaging monoamine oxidase (MAO) containing neurons through the MAO-mediated conversion of the nonfluorescent tetrahydropyridine compound trans-1-methyl-4-[4-dimethylaminophenylethenyl]-1,2,3,6-tetrahydro pyridine (t-THP) to the corresponding fluorescent trans-1-methyl-4-[4-dimethylaminophenylethenyl]pyridinium species (t-P+) was examined with the aid of human neuroblastoma cells (SH-SY5Y). Fluorescence microscopy and fluorescence measurements established the intracellular formation of a fluorescent species with maximal excitation/emission wavelengths of 485/620 and 530/620 nm corresponding to the fluorescence characteristics of synthetic t-P+. An independent assay confirmed the presence of both MAO-A and MAO-B in these cells. As expected, the development of the fluorescence was inhibited by both clorgyline (an MAO-A inhibitor) and deprenyl (an MAO-B inhibitor). Cytotoxic effects, as determined by trypan blue dye exclusion for viability and by the MTT [3-(4,5-dimethylthiazole-2-yl)-2,5-diphenyltetrazolium bromide] assay for mitochondrial integrity, were not observed in cells incubated with concentrations of t-THP as high as 10(-3) M for 4 hr. The results from these studies with a neuronal cell line of human origin suggest: (1) that SH-SY5Y cells metabolize and, therefore, can be used for study of tetrahydropyridine compounds in vitro, and (2) that t-THP may be a useful agent to monitor neurodegenerative processes in MAO-rich neurons, including the dopaminergic nigrostriatal neurons that are damaged by the parkinsonian-inducing tetrahydropyrridine MPTP. The potential advantage of using t-THP over related imaging techniques is the possibility of assessing neuronal function by an in vivo processing of the reporter molecule rather than by postmortem immunofluorescent or formaldehyde-based procedures.
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PMID:Biotransformation of the MPTP analog trans-1-methyl-4-[4-dimethylaminophenylethenyl]-1,2,3,6-tetra- hydropyridine to a fluorescent pyridinium metabolite by intact neuroblastoma cells. 866 41

The uptake and cytotoxicity of 1-methyl-4-phenylpyridinium (MPP+), the toxic metabolite of the parkinsonism inducing agent 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), were studied in COS-7 cells transiently transfected with the cloned human noradrenaline and dopamine transporters and in permanently transfected SK-N-MC neuroblastoma cells. MPP+ had a 10- to 20-fold lower K(m) value for the noradrenaline than for the dopamine transporter. In dopamine transporter expressing cells, the maximal transport rate (Vmax) of MPP+, dopamine and noradrenaline was the same, but in noradrenaline transporter expressing cells the Vmax of MPP+ and dopamine was only one-half of the Vmax of noradrenaline. The turnover numbers (Vmax of uptake/maximal binding sites of binding) were 5 times higher for the dopamine transporter (as measured with [3H]dopamine and [3H]-2 beta-carbomethoxy-3 beta-(4-fluorophenyl) tropane than for the noradrenaline transporter (as measured with [3H]noradrenaline and [3H]nisoxetine). In SK-N-MC cells with similar Vmax values for both catecholamines, noradrenaline transporter expressing cells were killed by lower concentrations of MPP+ in the medium than dopamine transporter expressing cells. Desipramine blocked the toxicity of MPP+ toward the noradrenaline transporter, but not the dopamine transporter expressing cells. We conclude that the toxic effect of MPTP at the striatal dopamine system in the MPTP primate model of Parkinson's disease is not correlated with the affinity profile of MPP+ for catecholamine transporters, but rather with the higher turnover number of MPP+ at the dopamine transporter. In contradistinction, the toxicity of MPTP at the noradrenaline neurons in the primate cerebral cortex (Pifl et al., 1991) may involve the higher affinity of MPP+ for the noradrenaline transporter.
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PMID:Catecholamine transporters and 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine neurotoxicity: studies comparing the cloned human noradrenaline and human dopamine transporter. 866 8

PD is a common, late-onset neurodegenerative disorder that results in part from the gradual loss of dopaminergic neurons in the substantia nigra pars compacta. The neurotoxin MPTP can induce PD-like clinical symptomatology and neuropathological destruction and, thus, has been used as a PD model. The human neuroblastoma cell line SH-SY5Y possesses many of the qualities of human neurons and, as such, has served as a model for them. Apoptosis is the mode of cell death induced in SH-SY5Y cells by MPTP, and this was confirmed with nick end labeling and bisbenzimide staining. Transmission electron microscopic analysis of the ultrastructural changes occurring in neurotoxin exposed SH-SY5Ys revealed many morphological characteristics consistent with apoptosis. These changes included plasmalemmal blebbing, altered cytosolic density, nuclear condensation and fragmentation, pronounced vacuole formation, ribosomal dispersion, and the disappearance of the golgi complex, microtubules, and smooth endoplasmic reticulum. Limited amounts of rough endoplasmic reticulum and mitochondria exhibited normal morphology throughout the apoptotic changes but then were disrupted during secondary necrotic changes. The in vitro induction of apoptosis by a parkinsonism neurotoxin might be reflective of the mechanisms of in vivo nigral degeneration occurring during PD.
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PMID:MPP+ induced apoptotic cell death in SH-SY5Y neuroblastoma cells: an electron microscope study. 916 Feb 45

Morphological and metabolic endpoints were used to evaluate MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine) toxicity to SH-SY5Y human neuroblastoma cells. After 8 hours of exposure, MPTP was found to affect cell viability only at a very high concentration (3 x 10(-3) M), but its metabolite MPP+ could decrease viability at 10(-4) M. MPTP, via its metabolite MPP+, inhibited NADH dehydrogenase activity when concentrations exceeded 10(-4) M (for MPP+ 10(-5)M). The Ki were 2.4 x 10(-3) M and 3 x 10(-4)M for MPTP and MPP+, respectively. MPTP at concentrations greater than 10(-4) M altered cell morphology as early as one hour after exposure. These changes included formation of cell surface blebs and attenuated neurites. After 8 hours at 10(-3) M and 24 hrs at 10(-4) M, MPTP caused ultrastructural changes of mitochondria with increased electron-density of the matrix and disorganization of cristae, as well as abnormal aggregation of filamentous material of the cytoskeleton. Because these changes of structure and function took place at concentrations lower than those needed to affect cell viability, they may play a role in MPTP neurotoxicity in SH-SY5Y cell culture.
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PMID:Cytotoxic effects of MPTP on SH-SY5Y human neuroblastoma cells. 929 84


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