Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Glycogen synthase kinase-3gamma (GSK-3beta) is a multifunctional protein kinase that phosphorylates a variety of substrates including the neuronal-specific microtubule-associated protein tau. Here we report that the down-regulation of the GSK-3beta protein is an early event in the course of the differentiation of human neuroblastoma IMR-32 cells. This decline in GSK-3beta is accompanied by a significant decrease in the phosphorylation state of tau protein. A noteworthy increase in tau protein expression also takes place later during the differentiation of IMR-32 cells. The augmented expression and diminished phosphorylation of tau protein in differentiated IMR-32 cells can be correlated with increments in the assembly of microtubules and in the association of tau with microtubules. These results suggest a contribution of a decrease in GSK-3beta to molecular events leading to neuroblastoma cell differentiation. Among these, tau protein dephosphorylation might favor microtubule stabilization within neurites.
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PMID:Downregulation of glycogen synthase kinase-3beta (GSK-3beta) protein expression during neuroblastoma IMR-32 cell differentiation. 1034 58

Glycogen synthase kinase-3beta (GSK-3beta) is a central component in many critical intracellular signaling mechanisms. These include the phosphatidylinositol 3-kinase/Akt cell survival pathway, which inhibits GSK-3beta activity. GSK-3beta itself inhibits the activation of several transcription factors, which are important cell survival factors, such as heat shock factor 1. These factors likely contribute to the recent revelation that GSK-3beta is a pro-apoptotic enzyme. Recently, lithium has been identified as a selective and direct inhibitor of GSK-3beta. Based on these findings, we have proposed that part of the neuroprotectant properties of lithium is due to its ability to inhibit GSK-3beta, and thus block the facilitation of apoptosis produced by GSK-3beta. Since several anticonvulsants recently have been shown to be effective mood stabilizers, we examined if these agents are capable of protecting cells from GSK-3beta-facilitated apoptosis. In addition to lithium, both valproic acid and lamotrigine, but not carbamazepine, provided protection from GSK-3beta-facilitated apoptosis in human neuroblastoma SH-SY5Y cells. These results demonstrate that several drugs therapeutic for bipolar disorder can provide neuroprotection by inhibiting the pro-apoptotic effects of GSK-3beta, providing new evidence that dysregulation of GSK-3beta may contribute to the pathophysiology of bipolar disorder.
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PMID:Glycogen synthase kinase-3beta, mood stabilizers, and neuroprotection. 1207 11

Glycogen synthase kinase 3 (GSK3) is a serine/threonine kinase that has been implicated in pathological conditions such as diabetes and Alzheimer's disease. We report the characterization of a GSK3 inhibitor, AR-A014418, which inhibits GSK3 (IC50 = 104 +/- 27 nM), in an ATP-competitive manner (Ki = 38 nM). AR-A014418 does not significantly inhibit cdk2 or cdk5 (IC50 > 100 microM) or 26 other kinases demonstrating high specificity for GSK3. We report the co-crystallization of AR-A014418 with the GSK3beta protein and provide a description of the interactions within the ATP pocket, as well as an understanding of the structural basis for the selectivity of AR-A014418. AR-A014418 inhibits tau phosphorylation at a GSK3-specific site (Ser-396) in cells stably expressing human four-repeat tau protein. AR-A014418 protects N2A neuroblastoma cells against cell death mediated by inhibition of the phosphatidylinositol 3-kinase/protein kinase B survival pathway. Furthermore, AR-A014418 inhibits neurodegeneration mediated by beta-amyloid peptide in hippocampal slices. AR-A014418 may thus have important applications as a tool to elucidate the role of GSK3 in cellular signaling and possibly in Alzheimer's disease. AR-A014418 is the first compound of a family of specific inhibitors of GSK3 that does not significantly inhibit closely related kinases such as cdk2 or cdk5.
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PMID:Structural insights and biological effects of glycogen synthase kinase 3-specific inhibitor AR-A014418. 1292 38

Glycogen synthase kinase-3beta (GSK-3beta) is implicated in regulating apoptosis and tau protein hyperphosphorylation in Alzheimer's disease (AD). We investigated the effects of two key AD molecules, namely apoE (E3 and E4 isoforms) and beta-amyloid (Abeta) 1-42 on GSK-3beta and its major upstream regulators, intracellular calcium and protein kinases C and B (PKC and PKB) in human SH-SY5Y neuroblastoma cells. ApoE3 induced a mild, transient, Ca2+-independent and early activation of GSK-3beta. ApoE4 effects were biphasic, with an early strong GSK-3beta activation that was partially dependent on extracellular Ca2+, followed by a GSK-3beta inactivation. ApoE4 also activated PKC-alpha and PKB possibly giving the subsequent GSK-3beta inhibition. Abeta(1-42) effects were also biphasic with a strong activation dependent partially on extracellular Ca2+ followed by an inactivation. Abeta(1-42) induced an early and potent activation of PKC-alpha and a late decrease of PKB activity. ApoE4 and Abeta(1-42) were more toxic than apoE3 as shown by MTT reduction assays and generation of activated caspase-3. ApoE4 and Abeta(1-42)-induced early activation of GSK-3beta could lead to apoptosis and tau hyperphosphorylation. A late inhibition of GSK-3beta through activation of upstream kinases likely compensates the effects of apoE4 and Abeta(1-42) on GSK-3beta, the unbalanced regulation of which may contribute to AD pathology.
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PMID:Apolipoprotein E and beta-amyloid (1-42) regulation of glycogen synthase kinase-3beta. 1462 95

Glycogen synthase kinase-3beta (GSK-3beta) is a key component of several signaling pathways. We found that a short variant of 'TNF-like weak inducer of apoptosis' (shortTWEAK) formed a complex with GSK-3beta in a yeast two-hybrid system. We demonstrate that shortTWEAK and GSK-3beta colocalize in the nucleus of human neuroblastoma cells. We also show that TWEAK is internalized in different cell lines and that it translocates to the nucleus. This event causes the degradation of IkappaBalpha, the nuclear translocation of both GSK-3beta and p65, and the induction of NF-kappaB-driven gene expression. We demonstrate that the induction of IL-8 expression by TWEAK can be counteracted by LiCl. Taken together, these data suggest that GSK-3beta plays an important role in the signal transduction pathway between TWEAK and NF-kappaB.
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PMID:Involvement of GSK-3beta in TWEAK-mediated NF-kappaB activation. 1514 69

Oxidative stress is linked to neuronal dysfunction and death in many diseases. Glycogen synthase kinase-3 often promotes apoptosis, so this investigation tested whether glycogen synthase kinase-3 is linked to oxidative stress-induced apoptosis. Both intrinsic oxidative stress induced by the mitochondrial inhibitor rotenone and extrinsic oxidative stress induced by exogenously added H2O2 activated Bax, caspase-2, and caspase-3 in human neuroblastoma SH-SY5Y cells. Inhibitors of glycogen synthase kinase-3 blocked rotenone-induced, but not H2O2-induced, activation of both caspases, but not Bax activation. Thus, glycogen synthase kinase-3 is an important component of intrinsic oxidative stress-induced apoptosis that acts downstream of mitochondrial Bax activation, and there are substantial differences in the role of glycogen synthase kinase-3, and lithium's effects, in apoptotic signaling induced by intrinsic and extrinsic oxidative stress.
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PMID:Inhibition of glycogen synthase kinase-3 protects cells from intrinsic but not extrinsic oxidative stress. 1581 15

Arsenic is an environmental toxicant that recently has been shown to have anticancer activity against a number of types of cancer cells by inducing apoptosis. Glycogen synthase kinase-3 (GSK3), a serine/threonine kinase, is an important pro-apoptotic signaling enzyme. Although GSK3 has been shown to promote apoptosis caused by a wide variety of insults, a role for GSK3 in arsenic-induced apoptosis has not yet been identified. Investigation of the involvement of GSK3 in arsenite-induced apoptosis demonstrated that arsenite induced apoptosis in SH-SY5Y human neuroblastoma cells, activating the executioner caspase-3 which caused cleavage of poly-ADP ribose-polymerase (PARP). Two selective GSK3 inhibitors, lithium and SB216763, attenuated caspase-3 activation and PARP cleavage induced by arsenite treatment indicating that GSK3 contributed to arsenite-induced apoptosis. Apoptotic signaling following exposure to arsenite involved cytochrome C release from mitochondria, and this was reduced by inhibition of GSK3 indicating that GSK3 promotes arsenite-induced apoptotic signaling upstream of mitochondrial disruption. Moreover, arsenite induced the translocation of Bax and p53 to the mitochondria and the activation-associated oligomerization of Bax, and these crucial events were reduced by inhibition of GSK3, indicating that GSK3 promotes arsenite-induced apoptosis by facilitating signals leading to mitochondrial apoptotic events. Taken together, the findings from this study reveal that GSK3 promotes arsenite-induced apoptosis by facilitating signaling leading to disruption of mitochondria.
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PMID:GSK3 promotes arsenite-induced apoptosis via facilitation of mitochondria disruption. 1784 3

Rotenone, an environmental toxin that inhibits mitochondrial complex I, has been used to induce experimental Parkinsonism in animals and cell cultures. We investigated the mechanism underlying rotenone-induced death of SK-N-MC neuroblastoma cells. Rotenone-induced cell death preceded intracellular accumulation of reactive oxygen species, and antioxidants failed to protect cells, indicating that oxidative stress was minimally involved in rotenone-induced death of SK-N-MC cells. Glycogen synthase kinase 3beta (GSK3beta), a multifunctional serine/threonine kinase, has been implicated in the pathogenesis of neurodegeneration. We showed that rotenone activated GSK3beta by enhancing its phosphorylation at tyrosine 216 while inhibiting phosphorylation at serine 9. Inhibitors of GSK3beta and dominant negative (kinase deficient) GSK3beta partially protected SK-N-MC cells against rotenone cytotoxicity. Rotenone also induced endoplasmic reticulum (ER) stress which was evident by an increase in phosphorylation of PERK, PKR, and eIF2alpha as well as the expression of GRP78. Rotenone had a modest effect on the expression of CHOP. An eIF2alpha siRNA significantly reduced rotenone cytotoxicity. ER stress was experimentally induced by tunicamycin and thapsigargin, but tunicamycin/thapsigargin did not activate GSK3beta in SK-N-MC cells. Down-regulation of eIF2alpha also offered partial protection against rotenone cytotoxicity. Combined treatment of GSK3beta inhibitors and eIF2alpha siRNA provided much greater protection than either treatment alone. Taken together, the results suggest that GSK3beta activation and ER stress contribute separately to rotenone cytotoxicity.
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PMID:GSK3beta and endoplasmic reticulum stress mediate rotenone-induced death of SK-N-MC neuroblastoma cells. 1850 33

Ethanol is a potent teratogen for the developing central nervous system (CNS), and fetal alcohol syndrome (FAS) is the most common nonhereditary cause of mental retardation. Ethanol disrupts neuronal differentiation and maturation. It is important to identify agents that provide neuroprotection against ethanol neurotoxicity. Using an in vitro neuronal model, mouse Neuro2a (N2a) neuroblastoma cells, we demonstrated that ethanol inhibited neurite outgrowth and the expression of neurofilament (NF) proteins. Glycogen synthase kinase 3beta (GSK3beta), a multifunctional serine/threonine kinase negatively regulated neurite outgrowth of N2a cells; inhibiting GSK3beta activity by retinoic acid (RA) and lithium induced neurite outgrowth, while over-expression of a constitutively active S9A GSK3beta mutant prevented neurite outgrowth. Ethanol inhibited neurite outgrowth by activating GSK3beta through the dephosphorylation of GSK3beta at serine 9. Cyanidin-3-glucoside (C3G), a member of the anthocyanin family rich in many edible berries and other pigmented fruits, enhanced neurite outgrowth by promoting p-GSK3beta(Ser9). More importantly, C3G reversed ethanol-mediated activation of GSK3beta and inhibition of neurite outgrowth as well as the expression of NF proteins. C3G also blocked ethanol-induced intracellular accumulation of reactive oxygen species (ROS). However, the antioxidant effect of C3G appeared minimally involved in its protection. Our study provides a potential avenue for preventing or ameliorating ethanol-induced damage to the developing CNS.
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PMID:Cyanidin-3-glucoside reverses ethanol-induced inhibition of neurite outgrowth: role of glycogen synthase kinase 3 Beta. 1938 66

Glycogen synthase kinase-3 (GSK-3) has become an important target for the treatment of mood disorders and neurodegenerative disease. It comprises three enzymes, GSK-3alpha, beta and the neuron-specific isoform, beta2. GSK-3 regulates axon growth by phosphorylating microtubule-associated proteins including Tau. A genetic polymorphism that leads to an increase in the ratio of GSK-3beta1 to GSK-3beta2 interacts with Tau haplotypes to modify disease risk in Parkinson's and Alzheimer's disease. We have examined the roles of each isoform of GSK-3 in neurons. Silencing of GSK-3beta2 inhibited retinoic acid-induced neurite outgrowth in SH-SY5Y neuroblastoma cells and axon growth in rat cortical neurons. Inhibition of neurite outgrowth was prevented by co-expression of GSK-3beta2 but not by co-expression of GSK-3alpha or GSK-3beta1. Ectopic expression GSK-3beta2 enhanced the effects of retinoic acid on neurite length and induced neurite formation in the absence of retinoic acid. GSK-3beta2 phosphorylated Tau at a subset of those sites phosphorylated by GSK-3beta1. In addition, Axin, which regulates responses to Wnt signals, associated more readily with GSK-3beta1 than with GSK-3beta2. Our results suggest that GSK-3 inhibitors that target the Axin-binding site in GSK-3 will preserve the beneficial effects of GSK-3beta2 on axon growth.
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PMID:The neuron-specific isoform of glycogen synthase kinase-3beta is required for axon growth. 2006 85


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