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)

We investigated the role of neurofilament (NF) proteins in Alzheimer disease (AD) neurofibrillary degeneration. The levels and degree of phosphorylation of NF proteins in AD neocortex were determined by Western blots developed with a panel of phosphorylation-dependent NF antibodies. Levels of all three NF subunits and the degree of phosphorylation of NF-H and NF-M were significantly increased in AD as compared to Huntington disease brains used as control tissue. The increase in the levels of NF-H and NF-M was 1.7- and 1.5-fold (P<0.01) as determined by monoclonal antibody SMI33, and was 1.6-fold (P<0.01) in NF-L using antibody NR4. The phosphorylation of NF-H and NF-M in AD was increased respectively at the SMI31 epitope by 1.6- and 1.9-fold (P<0.05) and at the SMI33 epitope by 2.7- and 1.3-fold (P<0.01 and P<0.05). Essentially similar effects were observed in SY5Y human neuroblastoma cells when treated with okadaic acid, an inhibitor of protein phosphatase (PP)-2A and -1. This is the first biochemical evidence which unambiguously demonstrates the hyperphosphorylation and the accumulation of NF subunits in AD brain, and shows that the inhibition of PP-2A/PP-1 activities can lead to the hyperphosphorylation of NF-H and NF-M subunits.
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PMID:Hyperphosphorylation and accumulation of neurofilament proteins in Alzheimer disease brain and in okadaic acid-treated SY5Y cells. 1168 63

Reactive oxygen species (ROS) and reactive nitrogen species (RNS) are signal-transducing molecules that regulate the activities of a variety of proteins. In the present investigation, we have compared the effects of superoxide (O2-), nitric oxide (NO), and hydrogen peroxide (H2O2) on the activities of three highly homologous serine/threonine phosphatases, protein phosphatase type 1 (PP1), protein phosphatase type 2A (PP2A), and calcineurin (protein phosphatase type 2B). Although superoxide, generated from xanthine/xanthine oxidase or paraquat, and NO, generated from (+/-)-(E)-4-ethyl-2-[(E)-hydroxyimino]-5-nitro-3-hexenamide or sodium nitroprusside, potently inhibited the phosphatase activity of calcineurin in neuroblastoma cell lysates, they had relatively little effect on the activities of PP1 or PP2A. In contrast, H2O2 inhibited the activities of all three phosphatases in lysates but was not a potent inhibitor for any of the enzymes. Calcineurin inactivated by O2-, NO, and H2O2 could be partially reactivated by the reducing agent ascorbate or by the thiol-specific reagent dithiothreitol (DTT). Maximal reactivation was achieved by the addition of both reagents, which suggests that ROS and RNS inhibit calcineurin by oxidizing both a catalytic metal(s) and a critical thiol(s). Reactivation of H2O2-treated PP1 also required the combination of both ascorbate and DTT, whereas PP2A required only DTT for reactivation. These results suggest that, despite their highly homologous structures, calcineurin is the only major Ser/Thr phosphatase that is a sensitive target for inhibition by superoxide and nitric oxide and that none of the phosphatases are sensitive to inhibition by hydrogen peroxide.
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PMID:Differential susceptibilities of serine/threonine phosphatases to oxidative and nitrosative stress. 1214 65

Previous evidence supports the notion of a redox regulation of protein phosphatase calcineurin that might be relevant for neurodegenerative processes where an imbalance between generation and removal of reactive oxygen species occurs. We have recently observed that calcineurin activity is depressed in human neuroblastoma cells expressing Cu,Zn superoxide dismutase (SOD1) mutant G93A and in brain areas from G93A transgenic mice, and that mutant G93A-SOD1 oxidatively inactivates calcineurin in vitro. We have studied the possibility that, by interfering directly with calcineurin activity, mutant SOD1 can modulate pathways of signal transduction mediated by redox-sensitive transcription factors. In this paper, we report a calcineurin-dependent activation of nuclear factor-kappaB (NF-kappaB) induced by the expression of familial amyotrophic lateral sclerosis (fALS)-SOD1s in human neuroblastoma cell lines. Alteration of the phosphorylation state of IkappaBalpha (the inhibitor of NF-kappaB translocation into the nucleus) and induction of cyclooxygenase 2 are consistent with the up-regulation of this transcription factor in this system. All of these modifications might be relevant to signaling pathways involved in the pathogenesis of fALS.
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PMID:Oxidative modulation of nuclear factor-kappaB in human cells expressing mutant fALS-typical superoxide dismutases. 1243 73

A new cytotoxicity assay for detection and quantitation of diarrhetic shellfish toxins (DSP) is presented. This assay is based upon fluorimetric determination of F-actin depolymerization induced by okadaic acid (OA)-class compounds in the BE(2)-M17 neuroblastoma cell line. No interferences were observed with other marine toxins such as saxitoxin, domoic acid, or yessotoxin, thus indicating a good specificity of the assay as expected by the direct relationship between protein phosphatase inhibition and cytoskeletal changes. The proposed method is rapid (<2h) and shows a linear response in the range of 50-300 nM OA. The detection limit of the assay for crude methanolic extracts of bivalves lies between 0.2 and 1.0 microg OA per gram of digestive glands, depending on the type of samples (fresh or canned), thus being similar to that of the mouse bioassay. The performance of this assay has been evaluated by comparative analysis of 32 toxic mussel samples by the F-actin assay, mouse bioassay, HPLC and PP2A inhibition assay. Results obtained by the F-actin method showed no differences with HPLC and significant correlation with PP2A inhibition assay (r(2)=0.71). No false negative results were obtained with this new cell assay, which also showed optimum reproducibility.
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PMID:Development of a F actin-based live-cell fluorimetric microplate assay for diarrhetic shellfish toxins. 1275 50

FOXO3a is a ubiquitously expressed mammalian forkhead transcription factor with a high expression level in adult brain. The activity of FOXO3a is inhibited by growth factors through activation of phosphatidylinositol 3-kinase (PI3K)/Akt signaling, which phosphorylates FOXO3a and decreases the level of FOXO3a in the nucleus. In the present study, we examined the regulation of FOXO3a by brain-derived neurotrophic factor (BDNF) in retinoic acid (RA)-differentiated human SH-SY5Y neuroblastoma cells. BDNF caused a rapid and time-dependent decrease of nuclear FOXO3a with a corresponding increase of cytosolic FOXO3a. The rate of the BDNF-induced nuclear/cytosolic redistribution was consistent with the time course of BDNF-induced threonine32-phosphorylation of FOXO3a, and was mediated by the PI3K/Akt signaling pathway. Active FOXO3a rapidly increased the level of Bcl-2-interacting mediator (bim) in differentiated SH-SY5Y cells, and BDNF decreased the FOXO3a-induced increase of bim through activation of both PI3K/Akt and Erk signaling pathways. Thapsigargin, an endoplasmic reticulum (ER) stress-inducing agent, significantly decreased threonine32-phosphorylation of FOXO3a, and increased nuclear and decreased cytosolic FOXO3a, suggesting that thapsigargin activates FOXO3a. Treatment with BDNF completely reversed and blocked the thapsigargin-induced dephosphorylation and nuclear accumulation of FOXO3a. In addition, protein phosphatase 1/2A inhibitors increased threonine32-phosphorylation of FOXO3a, decreased nuclear FOXO3a, and blocked thapsigargin-induced activity of FOXO3a. The regulatory effect of BDNF on FOXO3a and its target genes may play a significant role in the BDNF-mediated neuronal survival, differentiation, and plasticity.
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PMID:Regulation of FOXO3a by brain-derived neurotrophic factor in differentiated human SH-SY5Y neuroblastoma cells. 1520 15

There is increasing evidence showing the involvement of unsaturated free fatty acids in cell death pathways, particularly in the context of apoptotic signalling. Our previous in vitro study has demonstrated that oleic acid, a monounsaturated fatty acid, reduces phosphorylation of proapoptotic Bad through activation of protein phosphatase type 2Cbeta. In the present study, we attempted to investigate the role of oleic acid in neuronal apoptosis using different types of cell cultures, and, furthermore, to explore the underlying mechanism with regard to its effect on Bad expression. As revealed by nuclear staining, oleic acid caused a concentration- and time-dependent damage with typical apoptotic features in cortical and hippocampal cultures from embryonic and neonatal rats, respectively, as well as in human neuroblastoma SH-SY5Y cells. In mixed hippocampal cultures, nearly all neurons were damaged at 24 h after the treatment, while damage of astrocytes was detected 48 h after adding this fatty acid, suggesting that neurons were more vulnerable than astrocytes. Nile blue staining showed that oleic acid and oleic acid methyl ester were both taken up by the neurons within 30 min. In contrast to oleic acid, oleic acid methyl ester did not change cell viability demonstrating that oleic acid-induced cell death was not due to an overload of the cells with lipids. Caspase-3 activity was not increased by oleic acid in cultured hippocampal cells. Western blot analysis of phospho-Ser112 Bad and the total Bad in cultured hippocampal cells revealed a significant decrease in the ratio of phospho-Ser112 Bad to total Bad in a time- and concentration-dependent manner after the exposure with oleic acid. We conclude that oleic acid induces neuronal apoptosis through a caspase-3-independent mechanism involving dephosphorylation of Bad.
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PMID:Oleic acid causes apoptosis and dephosphorylates Bad. 1562 13

Intracellular signaling pathways and their relationship to malignant progression have become a major focus of cancer biology. The dual-specificity phosphatase (DSP) family is a more recently identified family of intracellular signaling modulators. We have identified a novel protein phosphatase with a well-conserved DSP catalytic domain containing the DSP catalytic motif, xHCxxGxSRS, and mitogen-activated protein kinase phosphatase (MKP) motif, AYLM. Because of these unique characteristics, the protein was named mitogen-activated protein kinase phosphatase-8 (MKP-8). This protein is approximately 20kDa in size and mainly localizes to the nuclear compartment of the cell. MKP-8 is expressed in embryonal cancers (retinoblastoma, neuroepithelioma, and neuroblastoma) and has limited expression in normal tissues. MKP-8 displays significant phosphatase activity that is inhibited by a cysteine to serine substitution in the catalytic domain. When co-expressed with activated MAPKs, MKP-8 is able to inhibit p38 kinase phosphorylation and downstream activity.
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PMID:MKP-8, a novel MAPK phosphatase that inhibits p38 kinase. 1579 12

Bim is one of the proapoptotic BH3-only homologs of the Bcl-2 family proteins, which interacts with other Bcl-2 family proteins to activate the intrinsic apoptotic pathway. The expression and protein level of Bim are highly regulated in cells at both transcriptional and post-translational levels, and inadequate control of Bim level may largely determine its pro-apoptic activity. In the present study, we reported that carbachol, a muscarinic cholinergic receptor agonist, regulated Bim in human SH-SY5Y neuroblastoma cells. Carbachol rapidly induced an upward gel mobility shift of Bim, which was abolished by protein phosphatase treatment, indicating an increased Bim phosphorylation by carbachol. The effect of carbachol was mimicked by the protein kinase C activator 12-myristate 13-acetate (PMA) and was blocked by the protein kinase C inhibitor rottlerin, suggesting that activation of protein kinase C was required for carbachol-induced phosphorylation of Bim. Prolonged treatment with carbachol and PMA significantly decreased Bim protein levels in total cell lysates and mitrochondria. Carbachol and PMA had no effect in the transcriptional regulation of Bim, whereas the reduction of Bim by both carbachol and PMA was reversed by the proteosome inhibitors, suggesting that carbachol and PMA facilitated the proteosome-dependent Bim degradation. Thus, this study identified the muscarinic receptor-protein kinase C signaling pathway as a regulator of Bim in neuroblastoma cells, and activation of muscarinic receptor and protein kinase C functions to induce Bim phosphorylation, followed by down-regulation of the proapoptotic protein.
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PMID:Phosphorylation and down-regulation of Bim by muscarinic cholinergic receptor activation via protein kinase C. 1618 68

Alzheimer's disease (AD), the most prevalent form of dementia, is characterized by several major morphological hallmarks such as senile plaques, neurofibrillary tangles and a loss of cholinergic basal forebrain neurons. Apart from cholinergic markers like choline acetyltransferase and acetylcholinesterase, there have been reports on changes in muscarinic acetylcholine receptors (mAChR) as well as on influences of zinc metabolism in the disease. As recent studies gave hints about a possible link between mAChRs and zinc uptake, the human neuroblastoma cell line SK-SH-SY5Y was used to evaluate the role of M1-mAChR on zinc uptake. Zinc levels were semi-quantitatively detected by using the zinc-specific fluorophor Zn-AF2-DA. In the presence of 1 microM extracellular zinc, M1-mAChR stimulation with talsaclidine increased intracellular zinc levels as did stimulation of PKC by phorbol esters. Furthermore, the effect of extracellular zinc on the expression of the zinc finger protein PNUTS (protein phosphatase 1 nuclear targeting subunit 10) was investigated and revealed an upregulation of PNUTS expression in the presence of 1 microM extracellular zinc by 294% when compared to incubation in zinc free medium. In summary, this report demonstrates that intracellular zinc uptake in SK-SH-SY5Y cells is controlled by M1-mAChR mediated signalling pathways and that zinc may act as a cofactor for transcriptional regulation of zinc finger genes such as PNUTS.
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PMID:Zinc uptake is mediated by M1 muscarinic acetylcholine receptors in differentiated SK-SH-SY5Y cells. 1640 70

The role of dihydroceramide desaturase as a key enzyme in the de novo pathway of ceramide generation was investigated in human neuroblastoma cells (SMS-KCNR). A novel assay using water-soluble analogs of dihydroceramide, dihydroceramidoids (D-erythro-dhCCPS analogs), was used to measure desaturase activity in situ. Conversion of D-erythro-2-N-[12'-(1''-pyridinium)-dodecanoyl]-4,5-dihydrosphingosine bromide (C(12)-dhCCPS) to its 4,5-desaturated counterpart, D-erythro-2-N-[12'-(1''-pyridinium)dodecanoyl]sphingosine bromide (C(12)-CCPS), was determined by liquid chromatography/mass spectrometry analysis. The validity of the assay was confirmed using C(8)-cyclopropenylceramide, a competitive inhibitor of dihydroceramide desaturase. A human homolog (DEGS-1) of the Drosophila melanogaster des-1 gene was recently identified and reported to have desaturase activity. Transfection of SMS-KCNR cells with small interfering RNA to DEGS-1 significantly blocked the conversion of C(12)-dhCCPS to C(12)-CCPS. The associated accumulation of endogenous dihydroceramides confirmed DEGS-1 as the main active dihydroceramide desaturase in these cells. The partial loss of DEGS-1 inhibited cell growth, with cell cycle arrest at G(0)/G(1). This was accompanied by a significant decrease in the amount of phosphorylated retinoblastoma protein. This hypophosphorylation was inhibited by tautomycin and not by okadaic acid, suggesting the involvement of protein phosphatase 1. Additionally, we found that treatment of SMS-KCNR cells with fenretinide inhibited desaturase activity in a dose-dependent manner. An increase in dihydroceramides (but not ceramides) paralleled this process as measured by liquid chromatography/mass spectrometry. There were no effects on the mRNA or protein levels of DEGS-1, suggesting that fenretinide acts at the post-translational level as an inhibitor of this enzyme. Tautomycin was also able to block the hypophosphorylation of the retinoblastoma protein observed upon fenretinide treatment. These findings suggest a novel biological function for dihydroceramides.
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PMID:Involvement of dihydroceramide desaturase in cell cycle progression in human neuroblastoma cells. 1728 68


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