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)

The trimeric form of protein phosphatase 2A (PP2A1 or polycation-stimulated protein phosphatase H1) was purified to homogeneity from rabbit skeletal muscle. Preparative SDS-polyacrylamide gel electrophoresis was used to purify the individual subunits with relative molecular masses of 36, 55, and 65 kDa. Sequence analysis of five peptides from the 65-kDa regulatory subunit (PR65) suggested that it was identical with the PR65 subunit derived from the dimeric protein phosphatase 2A2. Amino acid sequences derived from the 55-kDa regulatory subunit (PR55) were used to clone human and rabbit cDNAs encoding this protein. The PR55 subunit was found to be encoded by two genes, termed alpha and beta. The open reading frames of the PR55 alpha and beta cDNAs spanned 1341 and 1329 nucleotides, respectively, and predicted proteins with a molecular mass of about 52 kDa that are 86% identical. Comparison of the human PR55 amino acid sequences with the data obtained from the rabbit skeletal muscle protein and a partial rabbit PR55 beta cDNA clone indicated a high degree of conservation. Analysis of the mRNA expression in human cell lines revealed that the PR55 alpha isoform was encoded by two transcripts of about 2.3 and 2.5 kb and a less abundant 4.4-kb mRNA. Whereas a PR55 beta transcript of about 2.3 kb was detected at high levels in the neuroblastoma derived cell line LA-N-1, the level of the mRNA was very low in the other human cell lines analyzed. Interestingly, the PR55 sequence showed limited homology to the catalytic domain (domains VI-IX) of the c-abl protein tyrosine kinase.
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PMID:Structure of the 55-kDa regulatory subunit of protein phosphatase 2A: evidence for a neuronal-specific isoform. 184 34

Protein phosphorylation and subsequent dephosphorylation was studied in digitonin-permeabilized neuroblastoma SH-SY5Y cells by measuring the incorporation of [32P]phosphate into myelin basic protein (MBP). 1,2-Dioctanoyl-sn-glycerol (DOG) and calcium synergistically induced phosphorylation of MBP, which was inhibited by the protein kinase C (PKC) pseudosubstrate peptide (PKC19-36). The phosphorylation increased for 10 min when a net dephosphorylation started to appear. The dephosphorylation was inhibited by okadaic acid. Regardless of calcium concentration, the presence of DOG was necessary for significant effects of okadaic acid on MBP phosphorylation. H7 and staurosporine dose-dependently inhibited the phosphorylation of MBP, induced by DOG and calcium in the presence of okadaic acid. Different PKC pseudosubstrate peptides were applied and all showed an inhibitory effect on the phosphorylation of MBP under these conditions. These results demonstrate the presence, in SH-SY5Y cells, of a protein phosphatase, possibly protein phosphatase 2A, with a high basal activity that counteracts PKC-induced phosphorylation.
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PMID:An okadaic acid-sensitive protein phosphatase counteracts protein kinase C-induced phosphorylation in SH-SY5Y cells. 768 46

The effects of okadaic acid (OA), a potent and specific inhibitor of serine/threonine phosphatases 2A and 1, on the transient expression of a human hsp 70 promoter-linked chloramphenicol acetyltransferase gene transfected into N-18 mouse neuroblastoma cells were determined. Assays of reporter gene activity showed that nanomolar concentrations of OA markedly potentiated the heat-induced (but not the basal) expression of pHBCAT, a full-length hsp 70 promoter-driven chloramphenicol acetyltransferase gene construct. This effect of OA was dose-dependent and promoter-specific and appeared to be attributable to inhibition of protein phosphatase 2A as opposed to protein phosphatase 1. The ability of OA to potentiate the heat-induced expression of pHBCAT appeared to be a feature common to several different cell types examined. We propose that the heat-induced transcriptional activation of heat shock genes is associated with the phosphorylation of component(s) of the transcription complex and that OA enhances this phosphorylation, thereby potentiating the heat-induced hsp 70 promoter activity.
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PMID:Okadaic acid markedly potentiates the heat-induced hsp 70 promoter activity. 838 Apr 12

Protein phosphatase 2A is a heterotrimeric protein serine/threonine phosphatase consisting of a 36-kDa catalytic C subunit, a 65-kDa structural A subunit, and a variable regulatory B subunit. The B subunits determine the substrate specificity of the enzyme. There have been three families of cellular B subunits identified to date: B55, B56 (B'), and PR72/130. We have now cloned five genes encoding human B56 isoforms. Polypeptides encoded by all but one splice variant (B56gamma1) are phosphoproteins, as shown by mobility shift after treatment with alkaline phosphatase and metabolic labeling with [32P]phosphate. All labeled isoforms contain solely phosphoserine. Indirect immunofluorescence microscopy demonstrates distinct patterns of intracellular targeting by different B56 isoforms. Specifically, B56alpha, B56beta, and B56epsilon complexed with the protein phosphatase 2A A and C subunits localize to the cytoplasm, whereas B56delta, B56gamma1, and B56gamma3 are concentrated in the nucleus. Two isoforms (B56beta and B56delta) are highly expressed in adult brain; here we show that mRNA for these isoforms increases severalfold when neuroblastoma cell lines are induced to differentiate by retinoic acid treatment. These studies demonstrate an increasing diversity of regulatory mechanisms to control the activity of this key intracellular protein phosphatase and suggest distinct functions for isoforms targeted to different intracellular locations.
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PMID:The B56 family of protein phosphatase 2A (PP2A) regulatory subunits encodes differentiation-induced phosphoproteins that target PP2A to both nucleus and cytoplasm. 870 17

The purpose of this study was to examine the modulation of tau phosphorylation mediated by protein kinase A, a kinase with low intrinsic activity, and by the constitutively active glycogen synthase kinase, as well as to examine the subsequent effects on tau-microtubule association in differentiated human SH-SY5Y neuroblastoma cells. Activation of protein kinase A with forskolin and rolipram significantly increased tau phosphorylation at Ser262/356 only in the presence of okadaic acid, indicating that phosphates at these sites are normally turned over rapidly. In contrast, glycogen synthase kinase appears to maintain tau phosphorylation at Thr181 and Ser396/404 since inhibition of glycogen synthase kinase with lithium reduced phosphorylation at these sites. Lithium treatment also significantly decreased tau and tyrosinated alpha-tubulin levels. Perturbation of microtubules with nocodazole or taxol induced tau dephosphorylation at Tau-1 sites, Thr181 and Ser396/404, indicating that both constitutive kinase activity and microtubule state modulate tau phosphorylation at these sites. Nocodazole- or taxol-induced tau dephosphorylation was blocked by the protein phosphatase 2A/1 inhibitor okadaic acid, but not by the protein phosphatase 2B inhibitor cyclosporin A. In addition, osmotic stress, such as treatment with 20 mM NaCl, selectively increased tau phosphorylation at the Tau-1 epitope. To investigate the effect of phosphorylation on tau association with microtubules and microtubule stability in situ, a Triton X-100 extraction assay was utilized to separate the detergent-soluble cytosolic components from the detergent-insoluble cytoskeletal components. In control cells or cells treated with lithium very little tau was detected in the cytosolic fraction. Activation of protein kinase A in the presence of okadaic acid elevated tau levels in the detergent-soluble fraction, which contained all the tau phosphorylated at Ser262/356, and also decreased microtubule stability, as indicated by decreased acetylated alpha-tubulin levels. In conclusion, the phosphorylation state of tau in differentiated SH-SY5Y cells is regulated by glycogen synthase kinase, microtubule dynamics and osmotic stress at overlapping sites which apparently have little influence on tau-microtubule association. In contrast, phosphorylation of tau at Ser262/356 within the microtubule-binding, which was mediated in part by protein kinase A, prevented the association of tau with microtubules in situ.
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PMID:The interrelationship between selective tau phosphorylation and microtubule association. 966 18

Presynaptic, cocaine- and antidepressant-sensitive norepinephrine (NE) transporters (NETs) dictate levels of extracellular NE after vesicular release. Recent studies suggest that G protein-coupled receptors linked to protein kinase C (PKC) down-regulate cell surface NET protein levels and diminish NE uptake capacity. We identified distinct phosphatidylinositol 3-OH kinase (PI3K)-linked pathways supporting basal and insulin-triggered NE transport in the human noradrenergic neuroblastoma, SK-N-SH. Acute (0-60 min) insulin treatments produced a time- and concentration-dependent stimulation of NE transport, resolved in kinetic studies as an enhancement of NE transport capacity (Vmax) without an alteration in NE Km. Basal and insulin-modulated NET activities were reduced by the tyrosine kinase inhibitor genistein and the PI3K inhibitors wortmannin and LY-294002, but not by the PKC inhibitor staurosporine. PI3K activation was found to support phosphorylation of p38 mitogen-activated protein kinase (p38 MAPK). However, basal and insulin-stimulated NET activities were differentiated by their reliance on p38 MAPK activation. Thus, the p38 MAPK inhibitor SB203580 and SB202190 abolished insulin activation of NE transport yet failed to impact basal NET activity. Moreover, p38 MAPK activation and insulin activation of NETs were found to be sensitive to external Ca2+ depletion, blockade of voltage-sensitive Ca2+ channels, and inhibition of protein phosphatase 2A. Effects of tyrosine kinase and PI3K inhibitors on basal NET uptake appear to arise from a loss of cell surface NET protein, whereas the p38 MAPK-dependent enhancement of NE transport occurs without a detectable enhancement of surface NET. Our findings establish two distinct pathways for regulation of NE uptake involving PI3K, one linked to transporter trafficking and a second linked to Ca2+-dependent, p38 MAPK phosphorylation that promotes activation of cell surface NETs.
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PMID:Trafficking-dependent and -independent pathways of neurotransmitter transporter regulation differentially involving p38 mitogen-activated protein kinase revealed in studies of insulin modulation of norepinephrine transport in SK-N-SH cells. 1160 80

The cytoskeletal changes that alter cellular morphogenesis and motility depend upon a complex interplay among molecules that regulate actin, myosin, and other cytoskeletal components. The Rho family of GTP binding proteins are important upstream mediators of cytoskeletal organization. Gem and Rad are members of another family of small GTP binding proteins (the Rad, Gem, and Kir family) for which biochemical functions have been mostly unknown. Here we show that Gem and Rad interface with the Rho pathway through association with the Rho effectors, Rho kinase (ROK) alpha and beta. Gem binds ROKbeta independently of RhoA in the ROKbeta coiled-coil region adjacent to the Rho binding domain. Expression of Gem inhibited ROKbeta-mediated phosphorylation of myosin light chain and myosin phosphatase, but not LIM kinase, suggesting that Gem acts by modifying the substrate specificity of ROKbeta. Gem or Rad expression led to cell flattening and neurite extension in N1E-115 neuroblastoma cells. In interference assays, Gem opposed ROKbeta- and Rad opposed ROKalpha-mediated cell rounding and neurite retraction. Gem did not oppose cell rounding initiated by ROKbeta containing a deletion of the Gem binding region, demonstrating that Gem binding to ROKbeta is required for the effects observed. In epithelial or fibroblastic cells, Gem or Rad expression resulted in stress fiber and focal adhesion disassembly. In addition, Gem reverted the anchorage-independent growth and invasiveness of Dbl-transformed fibroblasts. These results identify physiological roles for Gem and Rad in cytoskeletal regulation mediated by ROK.
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PMID:The GTP binding proteins Gem and Rad are negative regulators of the Rho-Rho kinase pathway. 1195 30

The induction of T-cell mediated immunity against neuroblastoma is a challenge due to poor immunogenicity of this malignancy. Here, we demonstrate the induction of protective immunity in a syngeneic murine neuroblastoma model following vaccination with minigenes comprising of three novel natural MHC class I ligands. First, after immunoprecipitation of MHC class I from NXS2 cells, peptides were eluted and examined in tandem-MS analysis which lead to the identification of three novel natural MHC class I peptide ligands, TEALPVKLI from ribonucleotide reductase M2, NEYIMSLI from Ser/Thr protein phosphatase 2A and FEMVSTLI with unknown origin. Second, we constructed two different minigenes, one encoding for the three novel epitopes and the second for three known mTH derived epitopes with high predicted binding affinity to MHC class I by cloning them into the mammalian expression vector pCMV-3FUB. This lead to constructs with an ubiquitin-tag upstream the inserted epitopes in order to facilitate proteasomal degradation. Furthermore the epitopes were separated by a spacer peptide (AAY), which proved to be a preferential proteasome cleavage site. Third, we demonstrate the induction of protective immunity against neuroblastoma using an attenuated strain of Salmonella typhimurium as a carrier harboring pCMV 3FUb vectors encoding for the two minigenes. These findings establish proof of concept that disruption of self tolerance against neuroblastoma associated epitopes may be an effective adjuvant therapeutic strategy.
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PMID:Vaccination with minigenes encoding for novel 'self' antigens are effective in DNA-vaccination against neuroblastoma. 1288 Sep 84

The disruption of self-tolerance against neuroblastoma is the ultimate goal of an effective DNA-vaccine. We demonstrate the induction of protective immunity against syngeneic murine NXS2 neuroblastoma in A/J mice following vaccination with tyrosine hydroxylase (TH)-derived antigens. Oral gene delivery was accomplished using an attenuated strain of Salmonella typhimurium as a carrier harboring vectors encoding for mouse tyrosine hydroxylase (mTH) antigens. Vaccination was effective in protecting animals from a lethal challenge with wild-type NXS2 tumor cells. These findings were extended by comparing efficacy of mTH minigene vaccines with a minigene vaccine comprising three novel epitopes isolated fom NXS2 neuroblastoma cells. For this purpose, MHC class I was immunoprecipitated from NXS2 cell lysates, and peptides were eluted and examined in tandem-mass spectrometry analysis. This led to the identification of three novel natural MHC class I peptide ligands: TEALPVKLI, from ribonucleotide reductase M2; NEYIMSLI, from Ser/Thr protein phosphatase 2A; and FEMVSTLI, of unknown origin. Two minigenes were constructed, one encoding for the three novel epitopes and the second for three known mTH-derived epitopes with high predicted binding affinity to MHC class I, by cloning them into the mammalian expression vector pCMV-3FUB. Immunized mice showed a reduction in primary tumor growth and the absence of spontaneous liver metastasis in the majority of animals. Importantly, there was no significant difference between the two minigenes, suggesting that, compared with tumor peptide isolation, mTH epitope prediction is similarly effective for designing efficient DNA-minigene vaccines. In summary, these findings establish proof of the concept that disruption of self-tolerance against neuroblastoma-associated epitopes may be an effective adjuvant therapeutic strategy.
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PMID:DNA minigene vaccination for adjuvant neuroblastoma therapy. 1565 Feb 37

The norepinephrine transporter (NET) terminates noradrenergic signals by clearing released NE at synapses. NET regulation by receptors and intracellular signaling pathways is supported by a growing list of associated proteins including syntaxin1A, protein phosphatase 2A (PP2A) catalytic subunit (PP2A-C), PICK1, and Hic-5. In the present study, we sought evidence for additional partnerships by mass spectrometry-based analysis of proteins co-immunoprecipitated with human NET (hNET) stably expressed in a mouse noradrenergic neuroblastoma cell line. Our initial proteomic analyses reveal multiple peptides derived from hNET, peptides arising from the mouse PP2A anchoring subunit (PP2A-Ar) and peptides derived from 14-3-3 proteins. We verified physical association of NET with PP2A-Ar via co-immunoprecipitation studies using mouse vas deferens extracts and with 14-3-3 via a fusion pull-down approach, implicating specifically the hNET NH2-terminus for interactions. The transporter complexes described likely support mechanisms regulating transporter activity, localization, and trafficking.
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PMID:Proteomic analysis of human norepinephrine transporter complexes reveals associations with protein phosphatase 2A anchoring subunit and 14-3-3 proteins. 1596 52


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