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)

Phospholipid metabolism in neuroblastoma cells in monolayer culture after acute exposure to pyridoxal phosphate (PLP) has been studied. (a) A strong depression of the rate of biosynthesis of cellular phospholipids from labeled choline and ethanolamine, is demonstrated in neuroblastoma cells grown in culture media containing PLP. (b) Valproic acid reverses the effect of PLP on ethanolamine and choline incorporation into cell lipid. Other anticonvulsants (clonazepam, diazepam, carbamazepine, diphenylhydantoin and ethosuximide) have little or no effect on reversing the inhibition of lipid synthesis produced by PLP. (c) PLP decreases the cellular uptake of choline. This effect might be responsible for the decreased lipid synthesis and is partially reversed by valproic acid. (d) The energy charge of the cell is not affected by either PLP or valproic acid, but it is diminished by the two compounds together. (e) The degradation of choline lipids is decreased by PLP and valproic acid. The hydrolysis of phosphocholine and the outflow of choline from cultured cells is also affected by the drugs. Variations of ethanolamine and choline transport should not be due to any effects of PLP or valproic acid on the lipid phase of the membranes since these molecules have no effect on the permeability of liposomes. (f) It is concluded that ethanolamine and choline lipid metabolism in cultured neuroblastoma cells is influenced by PLP and/or valproic acid, probably through a mechanism involving the transport of precursors across the membrane, although other mechanisms cannot be ruled out.
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PMID:Effect of pyridoxal 5'-phosphate and valproic acid on phospholipid synthesis in neuroblastoma NA. 251 Jul 34

The effects of anticonvulsants on markers of growth, intracellular enzymes, and synaptic functions were evaluated using a rapidly dividing cholinergic neuroblastoma x glioma hybrid cell-line (NG108-15). Cell cultures were exposed for 4 days to phenobarbital, phenytoin, carbamazepine, or valproic acid. Anticonvulsant concentrations added to the media were selected to produce free levels in the cell media that were equivalent to free levels in humans ranging from therapeutic to very toxic. Free levels of anticonvulsants in the toxic range affected cell number, protein content, and neurochemical markers. However, only valproic acid and phenytoin reduced cell growth at therapeutic free drug concentrations. Valproic acid was the only medication to act as a differentiating agent, significantly increasing the activity of choline acetyltransferase, beta-galactosidase, and muscarinic cholinergic receptor binding. These results emphasize the importance of performing drug studies at appropriate free drug concentrations and suggest that valproic acid differs from other commonly prescribed anticonvulsants by having both a growth-suppressing and a differentiating effect.
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PMID:Effects of anticonvulsants on cell growth and enzymatic and receptor binding activity in a neuroblastoma x glioma hybrid cell culture. 310 72

The anticonvulsant drug 1-methyl-1-cyclohexanecarboxylic acid ( MCCA ) has been shown to cause maturation of murine neuroblastoma cells in vitro at concentrations that are pharmacologically achievable. HL-60 human promyelocytic leukemia cells cultured with this drug underwent a dose-dependent decrease in growth. Similarly, neutrophilic differentiation, based on morphologic criteria and the acquisition of the ability to reduce nitroblue tetrazolium and phagocytose yeast, was observed. Valproic acid, a clinically available anticonvulsant that is chemically related to MCCA , likewise inhibited growth and promoted maturation of HL-60 cells, although only at concentrations above the recommended therapeutic blood levels. MCCA was additive in its ability to induce differentiation of HL-60 with retinoic acid, another compound that induces differentiation at pharmacologic concentrations. MCCA , or similar branched-chain fatty acids, may be useful in the treatment of human leukemia, particularly in combination with other differentiation-inducing drugs.
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PMID:Induction of neutrophilic differentiation of human promyelocytic leukemic cells by branched-chain carboxylic acid anticonvulsant drugs. 642 13

Valproic acid (VPA) is a simple branched-chain fatty acid that has anticonvulsant activity and is widely used in the treatment of epilepsy. VPA was found to effect growth and differentiation of human neuroblastoma (NB) cells in vitro at concentrations that have been achieved in humans with no significant adverse effects. Treatment of UKF-NB-2 and UKF-NB-3 NB cell lines with VPA at concentrations ranging from 0.5 to 2 mM resulted in neuronal morphological differentiation characterized by extension of cellular processes without significant effects on cell viability. Ultrastructural features of VPA-treated cells were consistent with the neuronal type of differentiation. VPA treatment of NB cells was associated with decreased expression of N-myc oncoprotein and increased expression of neural cell adhesion molecule in their membrane. Treatment of NB cells with 0.5 mM VPA increased their sensitivity to lymphokine-activated killer lysis. The results indicate that VPA, at non-toxic pharmacological concentrations, arrests the growth, induces differentiation and increases immunogenicity of NB cells through non-toxic mechanisms.
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PMID:Antitumor activity of sodium valproate in cultures of human neuroblastoma cells. 894 88

Valproic acid (VPA), a simple branched fatty acid anticonvulsant, has been demonstrated to have clinical efficacy in the treatment of manic-depressive illness (Bowden et al., 1994), but the mechanism(s) by which VPA produces its therapeutic effects remain to be elucidated. VPA's clinical antimanic action require a lag period for onset and are not immediately reversed upon discontinuation of treatment, effects that suggest alterations at the genomic level; we therefore investigated the effects of VPA on the modulation of the DNA binding activity of key transcription factors. DNA binding activities of activator protein 1 (AP-1) and cAMP responsive element binding protein (CREB) were studied in acute (hours) and chronic (days) VPA-treated rat C6 glioma cells. VPA did not affect CREB DNA binding activity, but concentration- and time-dependently increased AP-1 DNA binding activity. The activity was raised at 2 hours (the shortest time examined) and remained high after 6 days (the longest time used) of continuing VPA treatment. VPA also enhanced AP-1 DNA binding activity in human neuroblastoma (SH-SY5Y) cells. Because the effects of VPA were markedly inhibited by cycloheximide, they appear to require new protein synthesis. Taken together, the data suggest that antimanic agents may affect gene expression by modulation of the activity of major transcription factors; in view of the key roles of these nuclear transcription regulatory factors in long-term neuronal plasticity and cellular responsiveness, these effects may play a major role in VPA's therapeutic efficacy and are worthy of further study.
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PMID:Increase in AP-1 transcription factor DNA binding activity by valproic acid. 913 40

Valproic acid (VPA) is a potent broad spectrum anticonvulsant with demonstrated efficacy in the treatment of Bipolar Affective Disorder, but the biochemical basis for VPA's antimanic or mood-stabilizing actions have not been fully elucidated. It has been demonstrated that VPA, at therapeutically relevant concentrations, increases AP-1 DNA binding activity in cultured cells in vitro. These findings raise the possibility that VPA may produce its mood-stabilizing effects by regulating the expression of subsets of genes via its effects on the AP-1 family of transcription factors. To determine if VPA does, in fact, enhance AP-1 mediated gene expression, the effects of VPA on the expression of a luciferase reporter gene were studied in transiently transfected rat C6 glioma and human SH-SY5Y neuroblastoma cells using the pGL2-control vector. The luciferase gene in the vector is driven by an SV40 promoter which contains well characterized AP-1 sites. VPA produced a greater than doubling of luciferase activity in a time- and concentration-dependent manner in both cell lines. Furthermore, mutations of the AP-1 sites in the SV40 promoter markedly attenuated the VPA-induced increases in luciferase activity. These effects of VPA on AP-1 mediated gene expression are very similar to the effects observed with lithium, and suggest that the temporal regulation of AP-1 mediated gene expression in critical neuronal circuits may play a role in the long-term therapeutic efficacy of these agents.
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PMID:Valproate robustly enhances AP-1 mediated gene expression. 988 18

Valproic acid (VPA) is a potent broad-spectrum anti-epileptic with demonstrated efficacy in the treatment of bipolar affective disorder. It has previously been demonstrated that both VPA and lithium increase activator protein-1 (AP-1) DNA binding activity, but the mechanisms underlying these effects have not been elucidated. However, it is known that phosphorylation of c-jun by glycogen synthase kinase (GSK)-3beta inhibits AP-1 DNA binding activity, and lithium has recently been demonstrated to inhibit GSK-3beta. These results suggest that lithium may increase AP-1 DNA binding activity by inhibiting GSK-3beta. In the present study, we sought to determine if VPA, like lithium, regulates GSK-3. We have found that VPA concentration-dependently inhibits both GSK-3alpha and -3beta, with significant effects observed at concentrations of VPA similar to those attained clinically. Incubation of intact human neuroblastoma SH-SY5Y cells with VPA results in an increase in the subsequent in vitro recombinant GSK-3beta-mediated 32P incorporation into two putative GSK-3 substrates (approximately 85 and 200 kDa), compatible with inhibition of endogenous GSK-3beta by VPA. Consistent with GSK-3beta inhibition, incubation of SH-SY5Y cells with VPA results in a significant time-dependent increase in both cytosolic and nuclear beta-catenin levels. GSK-3beta plays a critical role in the CNS by regulating various cytoskeletal processes as well as long-term nuclear events and is a common target for both lithium and VPA; inhibition of GSK-3beta in the CNS may thus underlie some of the long-term therapeutic effects of mood-stabilizing agents.
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PMID:The mood-stabilizing agent valproate inhibits the activity of glycogen synthase kinase-3. 1003 7

Despite surgery and adjuvant cytotoxic therapy anaplastic astrocytoma, glioblastoma and diffuse intrinsic brain stem glioma continue to have dismal prognosis. Differentiation induction is a new approach taking into account that malignant glioma cells share many features with immature glial progenitor cells that are capable of terminal differentiation. The concept of differentiation therapy is currently evaluated for several pediatric malignancies with or without multimodal standard therapy. Valproic acid (VPA) is a branched chain fatty acid that is able to inhibit proliferation of neuroectodermal cells and to induce these cells along neuronal or glial lineage. Preclinical studies have shown that VPA inhibits growth of human and rodent glial tumor cells in vitro and induces a distinct mature glial phenotype. In addition, growth of human neuroblastoma cells is inhibited in vitro and in vivo and exhibits marked evidence of differentiation. Treatment of neuroblastoma and glioma cells with VPA was accompanied by changes of surface molecule expression that enhance immunogenicity and reduce their capability to metastasize. The antitumoral effects observed in preclinical studies were reached at concentrations that are readily achieved in patients treated with VPA for epilepsy. Epilepsy patients receiving VPA have significantly enhanced hemoglobin F levels, supporting the hypothesis that nontoxic levels of VPA can induce cellular differentiation. Broad clinical experience with VPA and its low toxicity encourage the evaluation of VPA in patients that have been submitted to postoperative combined chemo- and radiotherapy for pediatric malignant glioma.
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PMID:Valproic acid for the treatment of pediatric malignant glioma. 1047 71

Activation of muscarinic receptors in human neuroblastoma SH-SY5Y cells with carbachol stimulated a rapid and large increase in early growth response-1 (Egr-1, also called zif268 and NGF1-A) protein levels and DNA binding activity. Egr-1 DNA binding activity was stimulated within 15 min of treatment with carbachol and maintained a maximum 20-fold increase over basal between 1 and 2 h after treatment, and the EC50 was approximately 1 microM carbachol. Carbachol-stimulated Egr-1 DNA binding activity was dependent on protein kinase C, as it was potently inhibited by GF109203X (IC50 approximately 0.1 microM) and was reduced by 85 +/- 5% by down-regulation of protein kinase C. Inhibitors of increases in intracellular calcium levels reduced carbachol-induced Egr-1 DNA binding activity by 25-35%. Carbachol-stimulated activation of Egr-1 was reduced 35% by genistein, a tyrosine kinase inhibitor, and 60% by PD098059, an inhibitor of mitogen-activated protein kinase kinases 1/2 (MEK1/2) that activates extracellular-regulated kinases 1/2 (ERK1/2). A novel inhibitory action was caused by chronic (7-day) administration of sodium valproate but not by two other bipolar disorder therapeutic agents, lithium and carbamazepine. Valproate treatment reduced carbachol-stimulated Egr-1 DNA binding activity by 60% but did not alter carbachol-induced activation of ERK1/2 or p38 or increases in Egr-1 protein levels. These results reveal that muscarinic receptors activate Egr-1 through a signaling cascade primarily encompassing protein kinase C, MEK1/2, and ERK1/2 and that valproate substantially inhibits Egr-1 DNA binding activity stimulated by carbachol or protein kinase C.
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PMID:Cholinergic stimulation of early growth response-1 DNA binding activity requires protein kinase C and mitogen-activated protein kinase kinase activation and is inhibited by sodium valproate in SH-SY5Y cells. 1050 Nov 81

Valproic acid (VPA) has been shown to induce growth-arrest and differentiation of human neuroectodermal tumors similarly to several other fatty acids. In the present study, we show that continuous VPA treatment together with Interferon-alpha (INF-alpha) synergistically inhibited cell growth of a well-established model of neuroblastoma (NB) differentiation using the human N-myc amplified cell line BE(2)-C. Suppression of tumor growth was accompanied by morphological features of neuronal differentiation and inhibition of histone deacetylase activity. Furthermore, induction of differentiation was concomitant with altered expression of genes related to malignant phenotype such as down-regulation of N-myc, induction of bcl-2 and neural cell adhesion molecule. Production of inhibitors of angiogenesis like thrombospondin-1 and activin A was up-regulated in differentiated NB cells. Treatment with VPA alone decreased the ability of BE(2)-C cells to adhere to and penetrate human endothelium. All these effects of VPA were significantly enhanced when combined with INF-alpha which on its own had little or no effect. These results suggest that combination of VPA and INF-alpha may provide a novel therapeutic strategy for NB due to enhanced inhibition of tumor cell growth, induction of tumor differentiation and suppression of malignant biology by reduced angiogenic and decreased metastatic potentials.
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PMID:Induction of differentiation and suppression of malignant phenotype of human neuroblastoma BE(2)-C cells by valproic acid: enhancement by combination with interferon-alpha. 1174 48


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