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)

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

Conflicting data has emerged documenting decreased and increased levels of phospho-tau following calcium influx. Calcium influx achieved by treatment of SH-SY-5Y human neuroblastoma with 1 micro M calcium ionophore A23187 in the presence of 0.1 mM extracellular calcium depleted phospho-tau levels within 30 min. However, extending ionophore treatment to 60 min raised phospho-tau levels beyond that of control levels. Total tau levels were unchanged throughout these treatments, indicating that the reduction in PHF-1 reflected sequential alterations in tau phosphorylation rather than total tau. More rapid accumulation of phospho-tau accompanied treatment with increased concentrations of ionophore (3 micro M) and extracellular calcium (0.9 mM). An inhibitor active against calcium-dependent kinase(s) prevented the increase in phospho-tau following calcium influx. These data underscore that phospho-tau levels represent the summation of kinase and phosphatase activities and indicate that net dephosphorylation or phosphorylation is dependent upon the extent and/or rate of calcium influx
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PMID:Biphasic Effect of Calcium Influx on Tau Phosphorylation: Phosphorylation: Biphasic Effect of Calcium Influx on Tau Phosphorylation: Involvement of Calcium-Dependent Phosphatase and Kinase Activities. 1221 12

To understand cyclic nucleotide dynamics in intact cells, we used the patch-cramming method with cyclic nucleotide-gated channels as real-time biosensors for cGMP. In neuroblastoma and sympathetic neurons, both muscarinic agonists and nitric oxide (NO) rapidly elevate cGMP. However, muscarinic agonists also elicit a long-term (2 hr) suppression (LTS) of subsequent cGMP responses. Muscarinic agonists elevate cGMP by triggering Ca2+ mobilization, which activates NO synthase to produce NO, leading to the activation of soluble guanylate cyclase (sGC). Here we examine the mechanism of LTS. Experiments using direct intracellular cGMP injection demonstrate that enhancement of phosphodiesterase (PDE) activity, rather than depression of sGC activity, is responsible for LTS. Biochemical measurements show that both cGMP and cAMP content is suppressed, consistent with the involvement of a nonselective PDE. Application of pharmacological agents that alter Ca2+ mobilization from intracellular stores and experiments involving injection of the Ca2+ chelator BAPTA show that Ca2+ mobilization is necessary and sufficient for LTS induction but also show that LTS maintenance is Ca2+-independent. Protein phosphatase injection reverses LTS, and specific inhibitors of Ca2+/calmodulin kinase II (CaMKII) prevent induction and inhibit maintenance. The switch between the Ca2+ dependence of LTS induction to the Ca2+ independence of LTS maintenance is consistent with CaMKII autophosphorylation, similar to proposed mechanisms of hippocampal long-term potentiation. Because the molecular machinery underlying LTS is common to many cells, LTS may be a widespread mechanism for long-term silencing of cyclic nucleotide signaling.
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PMID:Patch cramming reveals the mechanism of long-term suppression of cyclic nucleotides in intact neurons. 1238 88

Myotubularin-related protein 7 (MTMR7) is a member of the myotubularin (MTM) family. The cDNA encoding the mouse MTMR7 contains 1,983 bp, and the predicted protein has a deduced molecular mass of 75.6 kDa. Northern and Western blot analyses showed that MTMR7 is expressed mainly in brain and mouse neuroblastoma N1E-115 cells. Recombinant MTMR7 dephosphorylated the D-3 position of phosphatidylinositol 3-phosphate and inositol 1,3-bisphosphate [Ins(1,3)P2]. The substrate specificity of MTMR7 is different than other MTM proteins in that this enzyme prefers the water-soluble substrate. Immunofluorescence showed that MTMR7 is localized in Golgi-like granules and cytosol, and subcellular fractionation showed both cytoplasmic and membrane localization of MTMR7 in N1E-115 cells. An MTMR7-binding protein was found in an anti-MTMR7 immunoprecipitate from N1E-115 cells and identified as MTM-related protein 9 (MTMR9) by tandem mass spectrometry. The coiled-coil domain of MTMR9 was sufficient for binding to MTMR7. The binding of MTMR9 increased the Ins(1,3)P2 phosphatase activity of MTMR7. Our results show that MTMR7 forms a complex with MTMR9 and dephosphorylates phosphatidylinositol 3-phosphate and Ins(1,3)P2 in neuronal cells.
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PMID:Characterization of myotubularin-related protein 7 and its binding partner, myotubularin-related protein 9. 1289 Aug 64

Cytokines, including interferon-gamma and ciliary neurotrophic factor (CNTF), act in common through tyrosine kinase-based Jak/STAT signaling pathways. We found that activation of the Jak/STAT pathway by both interferon-gamma and CNTF in nerve cells was rapidly terminated by tyrosine phosphatase inhibitors. Exposure of human neuroblastoma cells, BE(2)-C, first to tyrosine phosphatase inhibitors (either phenylarsine oxide or PTP inhibitor-2) prevented Jak1, STAT1 and STAT3 activation elicited subsequently by either CNTF or interferon-gamma. In contrast, exposure of these cells to phosphatase inhibitors after initial stimulation by CNTF or interferon-gamma prevented the normal time-dependent decrease of total cellular phosphotyrosine-STAT levels as expected, while excluding already formed phosphotyrosine-STAT from the nucleus. Thus, treatment of nerve cells with a tyrosine phosphatase inhibitor blocked nuclear signal transduction. A similar inhibition of CNTF-Jak/STAT signaling was observed following tyrosine phosphatase inhibition in SH-SY5Y human neuroblastoma cells, HMN-1 mouse motor neuron-neuroblastoma hybrid cells, HepG2 human hepatoma cells and embryonic chick ciliary ganglion and retinal neurons. Expression of dominant-negative forms of the tyrosine phosphatases, SHP-1 and/or SHP-2, in BE(2)-C cells had no effect on CNTF activation of STAT or on the ability of phosphatase inhibitors to block signaling. Further, results from H-35 cells expressing gp130 receptor subunits lacking functional SHP-2 binding sites revealed normal cytokine activation of Jak and STAT that was inhibited by phosphatase inhibitors. These findings suggest a critical control for regulating the initiation of Jak/STAT signaling requiring tyrosine phosphatase activity.
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PMID:Initiation and maintenance of CNTF-Jak/STAT signaling in neurons is blocked by protein tyrosine phosphatase inhibitors. 1294 69

Cannabinoids activate several members of the mitogen-activated protein kinase superfamily including p44 and p42 extracellular signal-regulated kinase (ERK). We used N1E-115 neuroblastoma cells and the cannabinoid receptor agonist WIN 55,212-2 (WIN) to examine the signal transduction pathways leading to the activation of ERK. ERK phosphorylation (activation) was measured by Western blot. The EC50 for stimulation of ERK phosphorylation was 10 nm, and this effect was blocked by pertussis toxin and the CB1 (cannabinoid) receptor antagonist SR141716A. The MEK inhibitors PD 98059 and U0126 blocked ERK phosphorylation, as did the adenylate cyclase activator forskolin. The phosphatidylinositol (PI) 3-kinase inhibitor LY 294002 and the Src kinase inhibitor PP2 partially occluded the response but also decreased basal levels of phospho-ERK. The PI 3-kinase and Src pathways are known to promote cell survival in many systems; therefore, MTT (1-(4,5-dimethylthiazol-2-yl)-3,5-diphenylformazan) conversion was used to examine the effects of these inhibitors on cellular viability. LY 294002 decreased the number of viable cells after 18 h of treatment; therefore, the inhibition of ERK by this inhibitor is probably because of cytotoxicity. Forskolin blocked ERK phosphorylation with an EC50 of <3 microm, and the protein kinase A (PKA) inhibitor H-89 enhanced ERK phosphorylation. c-Raf phosphorylation at an inhibitory PKA-regulated site (Ser259) was also reduced by WIN. This is probably due to constitutive phosphatase activity because WIN did not directly stimulate PP1 or PP2A activity when measured using 6,8-difluoro-4-methylumbelliferyl phosphate as a fluorogenic substrate. These data implicate the inhibition of PKA as the predominant pathway for ERK activation by CB1 receptors in N1E-115 cells. PI 3-kinase and Src appear to contribute to ERK activation by maintaining activation of kinases, which prime the pathway and maintain cellular viability.
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PMID:A predominant role for inhibition of the adenylate cyclase/protein kinase A pathway in ERK activation by cannabinoid receptor 1 in N1E-115 neuroblastoma cells. 1451 12

Accumulation of phosphorylated isoforms of the microtubule-associated protein tau is one hallmark of affected neurons in Alzheimer's disease (AD). This increase has been attributed to increased kinase or decreased phosphatase activity. Prior studies indicate that one of the kinases that phosphorylates tau (mitogen-activated protein kinase, or MAP kinase) does so at least in part indirectly within intact neuronal cells by phosphorylating and activating the L-voltage-sensitive calcium channel. Resultant calcium influx then fosters tau phosphorylation via one or more calcium-activated kinases. We demonstrate herein that treatment of differentiated SH-SY-5Y human neuroblastoma with the phosphatase inhibitor okadaic acid (OA) similarly may increase tau phosphorylation via sustained activation of the L-voltage-sensitive calcium channel. OA increased phospho-tau as indicated by increased immunoreactivity towards an antibody (PHF-1) directed against paired helical filaments from AD brain. This increase was blocked by co-treatment with the channel antagonist nimodipine. OA treatment increased channel phosphorylation. The increases in calcium influx, PHF-1 immunoreactivity and channel phosphorylation were all attenuated by co-treatment with PD98059, which inhibits MAP kinase activity, suggesting that OA mediates these effects at least in part via sustained activation of MAP kinase. These findings underscore that divergent and convergent kinase and phosphatase activities regulate tau phosphorylation.
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PMID:Okadaic acid mediates tau phosphorylation via sustained activation of the L-voltage-sensitive calcium channel. 1455 48

Focal adhesion kinase (FAK) prevents apoptosis in many cell types. We have reported that tyrosine residues in FAK are dephosphorylated and FAK is degraded during mannitol-induced apoptosis in human neuroblastoma cells. Several studies suggest that FAK dephosphorylation and degradation are separate events. The current study defines the relationship between FAK dephosphorylation and degradation in neuroblastoma cells using okadaic acid (OA). OA, a serine phosphatase inhibitor, promotes serine/threonine phosphorylation, which in turn blocks tyrosine phosphorylation. OA induced focal adhesion loss, actin cytoskeleton disorganization, and cellular detachment, which corresponded to a loss of FAK Tyr397 phosphorylation. These changes preceded caspase-3 activation, Akt and MAP kinase activity loss, protein ubiquitination, and cellular apoptosis. Insulin-like growth factor-I prevented mannitol-induced, but not OA-induced, substrate detachment and FAK Tyr397 dephosphorylation, and the effects of OA on FAK Tyr397 phosphorylation were irreversible. The proteolytic degradation of FAK is temporally distinct from its tyrosine dephosphorylation, occurring when apoptotic pathways are already initiated and during a generalized destruction of signaling proteins. Therefore, agents resulting in the dephosphorylation of FAK may be beneficial for therapeutic treatment, irrespective of FAK protein levels, as this may result in apoptosis, which cannot be prevented by growth factor signaling.
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PMID:Degradation and dephosphorylation of focal adhesion kinase during okadaic acid-induced apoptosis in human neuroblastoma cells. 1467 Jan 78

Oxidative stress has been demonstrated to produce modifications in several intracellular proteins that lead to alterations in their activities. Alzheimer's disease is related to an increase of oxidative stress markers, which may be an early event in the progression of the disease and neurofibrillary tangles formation. Abnormal phosphorylation of tau has been implicated in the etiopathogenesis of Alzheimer's disease. By using phospho-specific antibodies, we analyzed the changes in tau phosphorylation patterns after treatment of rat hippocampal and SHSY5Y human neuroblastoma cells with H2O2. We found that tau isoforms were hypophosphorylated at the Tau1 epitope after 2 h in the presence of H2O2. The decrease in the phosphorylation levels of tau protein were prevented by pretreatment with N-acetyl-L-cysteine. These changes were shown to depend on the activity of the cdk5/p35 complex, since a 3-fold increase in substrate phosphorylation and a 2-fold increase for the complex association were observed. Also, a decrease in the amount of inhibitor-2 bound to phosphatase PP1 was found in SHSY5Y cells under oxidative stress conditions. This decrease of inhibitor-2 bound to PP1 is due to an increased phosphorylation of the inhibitor-2 protein, thus leading to increased PP1 activity. Therefore, we propose that oxidative stress-induced activation of cdk5 leads to inhibitor-2 phosphorylation, relieving its inhibitory effect on PP1.
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PMID:Oxidative stress promotes tau dephosphorylation in neuronal cells: the roles of cdk5 and PP1. 1513 75

We have found recently that melatonin protects SH-SY5Y neuroblastoma cells from calyculin A-induced neurofilament impairment and neurotoxicity. In the present study, we further investigated the in vivo effect of inhibiting melatonin biosynthesis on spatial memory retention and tau phosphorylation in rats and the potential underlying mechanisms by using haloperidol, a specific inhibitor of 5-hydroxyindole-O-methyltransferase, and a key enzyme in melatonin biosynthesis. We have found that injection of haloperidol into the lateral ventricle and into peritoneal cavity compromises spatial memory retention of rats and induces hyperphosphorylation of microtubule-associated protein tau at tau-1 (Ser199/Ser202) and PHF-1 (Ser396/Ser404) epitopes. At mean time, the activity of protein phosphatase-2A (PP-2A), a deficit phosphatase in the Alzheimer's disease brain and superoxide dismutase decreases with an elevated level of malondialdehyde. Supplementation with melatonin by prior injection for 1 wk and reinforcement during the haloperidol administration significantly improves memory retention deficits, arrests tau hyperphosphorylation and oxidative stress, and restores PP-2A activity. These results strongly support the involvement of decreased melatonin in Alzheimer-like spatial memory impairment and tau hyperphosphorylation, and PP-2A may play a role in mediating aberrant melatonin-induced lesions.
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PMID:Effect of inhibiting melatonin biosynthesis on spatial memory retention and tau phosphorylation in rat. 1529 64


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