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)

Alpha-synuclein is a brain presynaptic protein that is linked to familiar early onset Parkinson's disease and it is also a major component of Lewy bodies in sporadic Parkinson's disease and other neurodegenerative disorders. Alpha-synuclein expression increases in substantia nigra of both MPTP-treated rodents and non-human primates, used as animal models of parkinsonism. Here we describe an increase in alpha-synuclein expression in a human neuroblastoma cell line, SH-SY5Y, caused by 5-100 microM MPP+, the active metabolite of MPTP, which induces apoptosis in SH-SY5Y cells after a 4-day treatment. We also analysed the activation of the MAPK family, which is involved in several cellular responses to toxins and stressing conditions. Parallel to the increase in alpha-synuclein expression we observed activation of MEK1,2 and ERK/MAPK but not of SAPK/JNK or p38 kinase. The inhibition of the ERK/MAPK pathway with U0126, however, did not affect the increase in alpha-synuclein. The highest increase in alpha-synuclein (more than threefold) in 4-day cultures was found in adherent cells treated with low concentrations of MPP+ (5 microM). Inhibition of ERK/MAPK reduced the damage caused by MPP+. We suggest that alpha-synuclein increase and ERK/MAPK activation have a prominent role in the cell mechanisms of rescue and damage, respectively, after MPP+ -treatment.
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PMID:MPP+ increases alpha-synuclein expression and ERK/MAP-kinase phosphorylation in human neuroblastoma SH-SY5Y cells. 1206 70

At low micromolar concentrations, 1-methyl-4-phenylpyridinium (MPP+), the toxic metabolite of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) selectively kills nigrostriatal dopaminergic neurons by mechanisms believed to involve impairment of mitochondrial complex I. A human neuroblastoma cell line expressing the dopamine transporter (DAT) was utilized to examine the effects of MPP+ on acute physiologic responses and subsequent cell death. Acute responses were measured by microphysiometry and by monitoring mitochondrial membrane potential with [3H]tetraphenylphosphonium (TPP+) uptake. MPP+ (10 microM) increased extracellular proton excretion in DAT-expressing cells within 2-3 min, but had no effect in untransfected cells. The lipophilic complex I inhibitor, rotenone, increased proton excretion in both cell lines. In DAT-expressing cells, mitochondrial membrane potential was reduced within I h of 10 microM MPP+ exposure. Rotenone reduced mitochondrial membrane potential in both cell lines. MPP+ caused apoptotic death of DAT-transfected cells 2-3 days after drug application, but did not kill untransfected cells. Thus, MPP+ produces immediate mitochondrial impairment only in cells that express DAT, and these changes occur days before overt cellular toxicity. The magnitude, time course and nature of these changes were similar to those produced by rotenone, confirming the site of action of MPP+ as mitochondrial complex I. These immediate mitochondrial effects appear to be an accurate predictor of subsequent cell death.
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PMID:Acute mitochondrial and chronic toxicological effects of 1-methyl-4-phenylpyridinium in human neuroblastoma cells. 1242 29

The active neurotoxin of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), 1-methyl-4-phenylpyridinium (MPP+), exerts its lethal effect by inhibiting Complex I of the electron transport chain (ETC). MPP+ shuts down aerobic oxidative phosphorylation and ETC-mediated ATP synthesis. The present investigation examines anaerobic survival during MPP+ toxicity in murine neuroblastoma cells Neuro 2-A (N2-A). MPP+ addition to the cells resulted in a reduction in cell viability, mitochondrial O(2) consumption (MOC) and ATP concentration in a dose-dependent manner. However, the addition of 10 mM of D-(+)-glucose prevented MPP+ toxicity, attenuated the loss of ATP, but did not reverse the complete inhibition of MOC, indicating substrate level phosphorylation and explicit anaerobic survival. Glucose addition prevented MPP+-mediated drop in DeltaPsim, endoplasmic reticulum and intracellular organelle membrane potential tantamount to an increase of cell viability. Secondly, we examined the metabolic regulation of pyruvate dehydrogenase (PDH) and carnitine palmitoyl transferase (CPT) activities during glucose rescue. These enzymes exert control over acetyl CoA reservoirs in the mitochondria during aerobic metabolism. DL-6,8-Thioctic acid (PDH prosthetic group) and insulin slightly augmented metabolic rate, resulting in enhanced vulnerability to MPP+ in a glucose-limited environment. Additional glucose prevented these effects. Amiodarone (CPT inhibitor) and glucagon did not hamper or potentiate glucose rescue against MPP+. These data support strict anaerobic glucose utilization in the presence of toxic levels of MPP+. Moreover, the findings indicate that MPP+ exerts two distinct modes of toxicity (fast and slow death). With MPP+ (<1 mM), anaerobic glycolysis is operational, and toxicity is strictly dependent upon glucose depletion. MPP+ (1-10 mM) initiated acute metabolic collapse, with failure to sustain or switch to anaerobic glycolysis. In conclusion, overcoming energy failure against MPP+ may involve targeting rate-limiting controls over anaerobic energy pathways.
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PMID:D-(+)-glucose rescue against 1-methyl-4-phenylpyridinium toxicity through anaerobic glycolysis in neuroblastoma cells. 1254 55

A reliable in vitro cytotoxic system is essential in neurocytotoxic and neuroprotective research. The present study examined four cytotoxic insults with the SK-N-SH human neuroblastoma cell line. These were beta-amyloid protein (Abeta), 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), high density culture, and serum deprivation induced neuronal death. These insults induced significant reduction in cell numbers after 96 h culture, in a concentration dependent manner. Among all the insults, MPTP, serum deprivation, and high density culture induced apoptosis after 96 h, while Abeta presumably induced necrotic neuronal death since apoptosis was not detectable. The p38 MAP kinase inhibitor, SB203580 (1 microM), and the PKC inhibitor, chelerythrine (5 microM) successfully inhibited the loss in viability caused by Abeta and the high density culture, respectively. Other kinase inhibitors, including the non-specific protein kinase inhibitor, H7, the PKA inhibitor 14-22 Amide, the PKG inhibitor, KT5823, and the protein tyrosine kinase inhibitor, AG18 had no effect on any of the four cytotoxic models. This system allows the study of neuroprotection under conditions where the different pathways and mechanisms of the neurons can be considered within one cellular system, removing variations which may be due to different cell type studied. The present studies describe an effective model system for screening potential neuroprotective agents.
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PMID:The establishment of a reliable cytotoxic system with SK-N-SH neuroblastoma cell culture. 1258 45

We studied effects of methylpyridinium ion (MPP(+)) on apoptosis, cell death and regulation of Bcl-2-family proteins in SH-SY5Y neuroblastoma cells. MPP(+) increased intracellular accumulation of DNA-histone complexes as a measure of apoptosis and decreased intracellular calcein fluorescence as a measure of cell death. If ATP synthesis was supported, MPP(+) caused apoptosis in rho(0) cells devoid of electron transport function. Caspase inhibition blocked apoptosis but not cell death caused by MPP(+). MPP(+) increased levels of Bax, Bcl-2 and Bcl-X(L) proteins approximately 2-fold over 24 hr, with Bax increases occurring first; Bax did not increase in rho(0) cells. The Bax increase, but not that of Bcl-2 or Bcl-X(L), was dependent on nitric oxide (NO) and seemed post-transcriptional. DAF-FM imaging revealed increased mitochondrial NO within hours of exposure to MPP(+). Western blots showed a constitutive approximately 130 kD protein that stained for NOS-2, consistent with reports of mitochondrial nitric oxide synthase (mtNOS). MPP(+) caused a NO-dependent release of cytochrome C into cytoplasm. MPP(+) increases mitochondrial NO levels and causes a NO-dependent increase in Bax protein, providing a mechanism for NOS-and Bax-dependency of MPTP neurotoxicity in vivo and implicating locally produced NO as a signaling molecule used by mitochondria to manipulate cell death cascades.
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PMID:Interactions among nitric oxide and Bcl-family proteins after MPP+ exposure of SH-SY5Y neural cells I: MPP+ increases mitochondrial NO and Bax protein. 1264 81

Acetyl-L-carnitine (ALCAR) plays an integral role in the transport of long chain fatty acids across the inner mitochondrial membrane for oxidative phosphorylation. In non-human primates, administration of ALCAR was reported to prevent 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced neurological injury to the substantia nigra. The present study investigates the effects of ALCAR against the toxicity of 1-methyl-4-phenylpyridinium (MPP(+)), the neurotoxic metabolite of MPTP, in murine brain neuroblastoma cells. MPP(+), a potent mitochondrial toxin, induced a dose-dependent reduction in mitochondrial oxygen consumption and cell viability, corresponding to an accelerated rate of cellular glucose utilization. Treatment with ALCAR, but not L-carnitine, prevented MPP(+) toxicity and partially restored intracellular ATP concentrations, but did not reverse the MPP(+)-induced loss of mitochondrial oxygen consumption. These data indicate that protective effects are independent of oxidative phosphorylation. ALCAR had a substantial glucose sparing effect in both controls and MPP(+)-treated groups, demonstrating a potential role in enhancing glucose utilization through glycolysis. Antagonizing the entry of fatty acids into the mitochondria, with either insulin or malonyl CoA, did not interfere with ALCAR protection against MPP(+). On the contrary, insulin potentiated the protective effects of ALCAR. In conclusion, these data indicate that ALCAR protects against MPP(+) toxicity, independent of mitochondrial oxidative capacity or beta-oxidation of fatty acids. In contrast, the protective effects of ALCAR appear to involve potentiation of energy derived from glucose through anaerobic glycolysis.
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PMID:Acetyl-L-carnitine cytoprotection against 1-methyl-4-phenylpyridinium toxicity in neuroblastoma cells. 1282 72

Estrogen has been considered to be a neuroprotectant and a neuromodulator in many neuronal cell lines and tissue preparations. The protective effects of estrogen may be mediated through classical estrogen receptors (ERs), or may be due to its anti-oxidant properties which are independent of receptors. The current studies show that 17beta-estradiol (E2) is neuroprotective against beta-amyloid protein 25-35 (Abeta)-, 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-, high density culture condition-, and serum deprivation-induced neuronal death in SK-N-SH human neuroblastoma cells. SK-N-SH cells express ERbeta, but not ERalpha, as detected by Western blot analysis. Among all the insults, MPTP, high density culture and serum deprivation induce apoptotic cell death in this cell system as detected by ELISA determination of mono/oligonucleosomes and DNA laddering, while Abeta induces necrotic cell death. The protective effects of E2 are abolished by the addition of tamoxifen and ICI 182,780 in the MPTP treated cells, but not in the other models, suggesting that the effect of E2 in the MPTP model is probably associated with activation of ERbeta. The addition of ICI 182,780 shows a mitogenic effect in SK-N-SH cells in the presence of E2 in control culture or in the Abeta treated groups. Also, ICI 182,780 induced expression of ERalpha. Collectively, the current studies suggest that E2 is neuroprotective in apoptotic and necrotic death induced by multiple insults in SK-N-SH human neuroblastoma cells. Involvement of ER is insult type dependent. ICI 182,780 is able to influence the expression of ERs, probably through upregulation of ERalpha when ERbeta is totally antagonized.
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PMID:The neuroprotective effects of estrogen in SK-N-SH neuroblastoma cell cultures. 1468 5

The neuropathology of Parkinson's Disease has been modeled in experimental animals following MPTP treatment and in dopaminergic cells in culture treated with the MPTP neurotoxic metabolite, MPP(+). MPTP through MPP(+) activates the stress-activated c-Jun N-terminal kinase (JNK) pathway in mice and SH-SY5Y neuroblastoma cells. Recently, it was demonstrated that CEP-1347/KT7515 attenuated MPTP-induced nigrostriatal dopaminergic neuron degeneration in mice, as well as MPTP-induced JNK phosphorylation. Presumably, CEP-1347 acts through inhibition of at least one upstream kinase within the mixed lineage kinase (MLK) family since it has been shown to inhibit MLK 1, 2 and 3 in vitro. Activation of the MLK family leads to JNK activation. In this study, the potential role of MLK and the JNK pathway was examined in MPP(+)-induced cell death of differentiated SH-SY5Y cells using CEP-1347 as a pharmacological probe and dominant negative adenoviral constructs to MLKs. CEP-1347 inhibited MPP(+)-induced cell death and the morphological features of apoptosis. CEP-1347 also prevented MPP(+)-induced JNK activation in SH-SY5Y cells. Endogenous MLK 3 expression was demonstrated in SH-SY5Y cells through protein levels and RT-PCR. Adenoviral infection of SH-SY5Y cells with a dominant negative MLK 3 construct attenuated the MPP(+)-mediated increase in activated JNK levels and inhibited neuronal death following MPP(+) addition compared to cultures infected with a control construct. Adenoviral dominant negative constructs of two other MLK family members (MLK 2 and DLK) did not protect against MPP(+)-induced cell death. These studies show that inhibition of the MLK 3/JNK pathway attenuates MPP(+)-mediated SH-SY5Y cell death in culture and supports the mechanism of action of CEP-1347 as an MLK family inhibitor.
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PMID:Inhibition of mixed lineage kinase 3 attenuates MPP+-induced neurotoxicity in SH-SY5Y cells. 1501 67

Parkinson's disease (PD) is a slowly progressing neurodegenerative disorder with no clear etiology. Pathological hallmarks of the disease include the loss of dopaminergic neurons from the substantia nigra (SN) and the presence of Lewy bodies (LBs) (alpha-synuclein and ubiquitin-positive, eosinophilic, cytoplasmic inclusions) in many of the surviving neurons. Experimental modeling of PD neurodegeneration using the neurotoxins 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and 1-methyl-4-phenyl-pyridinium (MPP(+)) has identified changes in gene expression of different endoplasmic reticulum (ER) stress proteins associated with MPTP- and PD-related neurodegeneration. We show that the protein disulfide isomerase (PDI) family member pancreatic protein disulfide isomerase (PDIp), previously considered exclusively expressed in pancreatic tissue, is uniquely upregulated among PDI family members within 24 h following exposure of retinoic acid (RA)-differentiated SH-SY5Y human neuroblastoma cells to either 1 mM MPP(+) or 10 microM of the highly specific proteasome inhibitor lactacystin. RT-PCR confirms PDIp expression in brain of post-mortem human PD subjects and immunohistochemical studies demonstrate PDIp immunoreactivity in LBs. Collectively, these findings suggest that increased PDIp expression in dopaminergic (DA) neurons might contribute to LB formation and neurodegeneration, and that this increased PDIp expression may be the result of proteasome impairment.
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PMID:Identification of the protein disulfide isomerase family member PDIp in experimental Parkinson's disease and Lewy body pathology. 1535 26

In vitro systems for neurotoxicological studies can be useful for the investigation of events associated with pertubations of cellular and molecular targets that are similar to those in the intact animal. The toxicities of organophosphorus compounds, which inhibit esterases, and 1,2,3,6-tetrahydropyridine (MPTP), which depletes dopamine, can be studied in human neuroblastoma cells.
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PMID:Bridging the gap between in vitro and in vivo toxicology testing. 1561 69


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