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)

The stability of proteins that constitute the neurofibrillary tangles and senile plaques of Alzheimer disease suggests that they would be ideal substrates for nonenzymatic glycation, a process that occurs over long times, even at normal levels of glucose, ultimately resulting in the formation of advanced glycation end products (AGEs). AGE-modified proteins aggregate, and they generate reactive oxygen intermediates. Using monospecific antibody to AGEs, we have colocalized these AGEs with paired helical filament tau in neurofibrillary tangles in sporadic Alzheimer disease. Such neurons also exhibited evidence of oxidant stress: induction of malondialdehyde epitopes and heme oxygenase 1 antigen. AGE-recombinant tau generated reactive oxygen intermediates and, when introduced into the cytoplasm of SH-SY5Y neuroblastoma cells, induced oxidant stress. We propose that in Alzheimer disease, AGEs in paired helical filament tau can induce oxidant stress, thereby promoting neuronal dysfunction.
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PMID:Glycated tau protein in Alzheimer disease: a mechanism for induction of oxidant stress. 805 61

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

We studied heat shock protein (HSP) synthesis by cultured human neuroblastoma cells in response to either hyperthermia or high levels of superoxide anion (oxygen free radical). Both treatment modalities resulted in induced synthesis of the same major HSP species with an additive effect on the latter and on cell growth inhibition upon combined treatments. Exposure to superoxide anion in the presence of the free radical scavenging enzymes, superoxide dismutase and catalase improved cell survival and prevented HSP induction. These findings suggest a common mechanism by which various forms of injury, such as hyperthermia, cause HSP induction, that is, via oxidative stress or increased production of oxygen free radicals. Increased expression of some HSPs has been detected in association with the pathological lesions that characterize some neurodegenerative diseases such as the neurofibrillary tangles of Alzheimer's disease. This, in turn, suggests that chronic oxidative stress may play a role in the pathogenesis of these disorders.
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PMID:Oxygen free radicals as inducers of heat shock protein synthesis in cultured human neuroblastoma cells: relevance to neurodegenerative disease. 849 94

Lead markedly amplified L-glutamate-induced oxidative stress, that is, increased L-glutamate-induced production of reactive oxygen species, decreased cellular glutathione, and induced cytotoxicity in human neuroblastoma cells. It was notable that oxidative burst induced by L-glutamate alone was observed only when neuronal glutathione was depleted. A role of protein kinase C (PKC) in glutamate-induced production of reactive oxygen species is likely because it was blocked by a PKC inhibitor. We suggest here that the mechanism whereby lead causes its neurotoxicity may be through the amplification of glutamate-induced oxidative stress, possibly through PKC activation.
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PMID:Lead amplifies glutamate-induced oxidative stress. 852 30

Currently available therapy for disseminated neuroblastoma affords only a 5-20% 5-year survival rate. We have attempted to design targeted chemotherapy for this disease by exploiting the dopamine uptake system on neuroblastoma cells. 6-Hydroxydopamine (6OHDA) is a neurotransmitter analogue, which generates cytolytic oxygen radicals in neuroblastoma cells that take it up. It is, however, predictably, systemically toxic, because of its spontaneous oxidation. Its toxicity is particularly severe in the sympathetic nervous system, because this tissue selectively concentrates dopamine and its analogues. Lowering the dose of 6OHDA below toxic levels prohibitively compromises its antitumor effect. To avoid both the systemic and sympathetic nervous system toxicity yet retain the antitumor efficacy of 6OHDA, we have used the antioxidant Tempol adjunctively with 6OHDA. Administration of Tempol (250 mg/kg, i.p.) 10 min prior to administration of toxic doses of 6OHDA (350 or 400 mg/kg, i.p.) resulted in a decrease in the mortality rate, sympathetic nervous system impairment, and activity impairment compared with those seen with 6OHDA alone. Tumor weights from mice administered saline or Tempol alone were 3.6 +/- 1.9 and 2.9 +/- 0.7 g, respectively. In contrast, mice administered Tempol followed by 6OHDA had an average tumor weight of 0.7 +/- 0.3 g. Tumor incidence was also reduced from 80-100% to 40%. Studies performed using electron spin resonance spectroscopy suggest that Tempol acts in this system by reacting directly with both the 6OHDA radical and, in the presence of iron, its oxidation product, the hydroxyl radical.
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PMID:Adjunctive treatment of murine neuroblastoma with 6-hydroxydopamine and Tempol. 862 8

Human or mouse epidermal keratinocytes NHEK or Pam212 was less susceptible to ultraviolet (UV)-B irradiation than mouse neuroblastoma NAs1 cells in culture, undergoing apoptosis-like cell death as shown by cell fragmentation and cell membrane integrity disruption. UV susceptibility was appreciably reduced by the reactive oxygen species (ROS)-scavenger L-ascorbic acid-2-phosphate (Asc2P) endowed with long-lasting functions but not by L-ascorbic acid (Asc) for each cell type. DehydroAsc reduced UV susceptibility of Pam212 or NAs1 established cell lines but not of normal diploid NHEK cells destined to be thereafter submitted to cellular senescence. The susceptibility reduction may not be ascribed to extracellular Asc2P or DehAsc, which was removed by aspirating and/or rinsing upon irradiation after the intracellular channelyzer analysis and dead cell-specific DNA-intercalator ethidium homodimer/fluorometry, respectively. Thus, the three cell types differed in UV susceptibility partly because of their different ROS-scavenging abilities, which may be potently promoted by Asc2P or dehydroAsc but not Asc.
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PMID:Differential susceptibility of epidermal keratinocytes and neuroblastoma cells to cytotoxicity of ultraviolet-B light irradiation prevented by the oxygen radical-scavenger ascorbate-2-phosphate but not by ascorbate. 877 35

Mitochondrial dysfunction and attendant bioenergetic defects are increasingly recognized as playing an important role in neurodegenerative disorders. The increased attention on mitochondrial involvement points to the need for developing cell lines that have neuron-like characteristics for the genetic analysis and modeling of these diseases. We describe the creation of respiratory-deficient SH-SY5Y neuroblastoma cell lines (rho zero 64/5) by selectively depleting mitochondrial DNA through prolonged exposure to ethidium bromide. Oxygen consumption in these cells and activities of the electron transport chain enzyme complexes I and IV that contain subunits encoded by the mitochondrial genome are eliminated. In contrast, the function of complex II, a nuclear-encoded electron transport chain component, is largely intact in these cells. The rho zero 64/5 cells retain the ability to differentiate into cells with neuron-like phenotypes following treatment with phorbol ester or retinoic acid. Normal respiratory function is recovered by repopulation of rho zero 64/5 cells with exogenous human platelet mitochondria. The rho zero 64/5 cell line serves as a valuable model for the study of neurologic diseases suspected of involving mitochondrial dysfunction.
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PMID:Creation and characterization of mitochondrial DNA-depleted cell lines with "neuronal-like" properties. 886 94

The mitochondrial electron transport enzyme NADH:ubiquinone oxidoreductase (complex I), which is encoded by both mitochondrial DNA and nuclear DNA, is defective in multiple tissues in persons with Parkinson's disease (PD). The origin of this lesion and its role in the neurodegeneration of PD are unknown. To address these questions, we created an in vitro system in which the potential contributions of environmental toxins, complex I nuclear DNA mutations, and mitochondrial DNA mutations could be systematically analyzed. A clonal line of human neuroblastoma cells containing no mitochondrial DNA was repopulated with mitochondria derived from the platelets of PD or control subjects. After 5 to 6 weeks in culture, these cytoplasmic hybrid (cybrid) cell lines were assayed for electron transport chain activities, production of reactive oxygen species, and sensitivity to induction of apoptotic cell death by 1-methyl-4-phenyl pyridinium (MPP+). In PD cybrids we found a stable 20% decrement in complex I activity, increased oxygen radical production, and increased susceptibility to 1-methyl-4-phenyl pyridinium-induced programmed cell death. The complex I defect in PD appears to be genetic, arising from mitochondrial DNA, and may play an important role in the neurodegeneration of PD by fostering reactive oxygen species production and conferring increased neuronal susceptibility to mitochondrial toxins.
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PMID:Origin and functional consequences of the complex I defect in Parkinson's disease. 887 87

We have established a stably transformed human neuroblastoma cell line (MC65) that conditionally expresses a C-terminal derivative of the amyloid beta protein precursor (beta PP) termed S beta C (a fusion protein composed of the amino-17 and carboxyl-99 residues of beta PP). Conditional expression of S beta C (mediated by the withdrawal of tetracycline from the culture medium) induces pronounced nuclear DNA fragmentation and cytotoxicity in this cell line. These effects are enhanced by hyperoxygen and suppressed by hypooxygen and antioxidants. This cell line is relatively insensitive to the extracellular application of amyloid beta 25-35, and coculture experiments suggest that this cytotoxicity is mediated by an intracellular process. These findings suggest that the overexpression of the C-terminal domain of beta PP can disrupt normal cellular processes in these cells in such a way as to induce a directed (deoxyribonuclease-mediated) mechanism of cell death. This process appears to be modulated and/or mediated by a reactive oxygen specie(s) (ROS). Consistent with a role for ROS in the process of S beta C-mediated toxicity, we have found that the MC65 cell line is hypersensitive to oxidative stress and that it is this sensitivity that appears (at least in part) to underlie its susceptibility to S beta C.
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PMID:Neurodegenerative mechanisms in Alzheimer disease. A role for oxidative damage in amyloid beta protein precursor-mediated cell death. 897 93

Autoxidation of dopamine or L-DOPA (3,4-dihydroxyphenylalanine) generates reactive oxygen species (ROS), i.e., hydrogen peroxide, superoxide, and hydroxyl radical, which are potentially cytotoxic. Increased formation of ROS has been proposed to be involved in the pathogenesis of many human diseases, including Parkinson's disease. Several reports suggest that R(-)-deprenyl (an MAO-B inhibitor and anti-Parkinsonian drug) may directly or indirectly exert antioxidant effects and thus protect neurons. We have assessed the toxic effects of dopamine and L-DOPA toward catecholaminergic neuroblastoma SH-SY5Y cells and whether R(-)-deprenyl and several structurally related compounds possess antioxidant effects in this system. The results show that both dopamine and L-DOPA are quite cytotoxic toward SH-SY5Y cells. R(-)-deprenyl rather than reducing this dopamine-induced toxicity actually enhances it. Structural analogues of R(-)-deprenyl, such as 4-methyldeprenyl, (-)-methylamphetamine, and clorgyline, exhibited similar effects. Some different MAO-B inhibitors, namely, the aliphatic N-methylpropargylamines, e.g., (+/-)-M-2-PP [N-(2-pentyl)-N-methylpropargylamine] and N-[2-hexyl]-N-methylpropargylamine, which can also protect and rescue neurons in several in vivo and in vitro models, did not exacerbate the cytotoxicity of dopamine. Neither R(-)-deprenyl nor (+/-)-M-2-PP affected the L-DOPA-induced cytotoxicity toward SH-SY5Y cells.
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PMID:R(-)-deprenyl potentiates dopamine-induced cytotoxicity toward catecholaminergic neuroblastoma SH-SY5Y cells. 900 48

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