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)

Acute desensitization of M1 muscarinic receptor-mediated responses (cyclic GMP formation and inositol phosphate release) was studied in murine neuroblastoma cells (N1E-115 clone). After a 45-min incubation at 37 degrees of N1E-115 cells either in monolayer or in suspension, with the muscarinic agonist carbachol (1 mM), the receptor-mediated cyclic GMP response to carbachol was nearly completely lost. This loss was associated with greater than 80% loss of carbachol-mediated inositol phosphate release. The protein kinase C activator phorbol 12-myristate 13-acetate (PMA) inhibited both responses with similar potencies. Carbachol or PMA reduced by 30-40% the number of muscarinic receptor sites for antagonist and agonist on intact cells (determined in binding assays using [3H]N-methylscopolamine) only for cells in monolayer and not for those in suspension. PMA but not carbachol pretreatment of cells in monolayer or in suspension caused a translocation of [3H]phorbol 12,13-dibutyrate binding and protein kinase C activity. In addition, desensitization to carbachol occurred in cells largely depleted of protein kinase C by chronic exposure to PMA. Thus, agonist-mediated down-regulation is not needed for muscarinic M1 receptor desensitization, which may be a result of the activation of a receptor-activated kinase different from protein kinase C.
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PMID:Desensitization of muscarinic M1 receptors of murine neuroblastoma cells (clone N1E-115) without receptor down-regulation and protein kinase C activity. 216 77

Experiments have been conducted that deal with the structure and biological activity of clostridial toxins. Studies have dealt mainly with botulinum neurotoxin, but work has also been done with tetanus toxin and with the binary toxin. Structural studies indicate that proteolytic processing of botulinum neurotoxin induces two major outcomes: activation and aging. The first is associated with a marked increase in toxicity and with conversion from a single chain to a dichain structure. The second is associated with nominal changes in toxicity and with molecular rearrangements in the dichain structure. Immunological studies have resulted in isolation and characterization of a monoclonal antibody that neutralizes tetanus toxin. Monoclonal antibodies have also been raised against botulinum neurotoxin, and these antibodies have been used to demonstrate that: i) activation is not due to marked conformational changes in the relevant epitopes, ii) binding of the toxin to cholinergic nerve endings does not produce detectable conformational changes, and iii) all functional domains of the toxin appear to be internalized simultaneously. Immunological studies done in vivo and in vitro suggest that certain antibodies may enter cholinergic nerves and neutralize subsequently internalized toxin. Additional work on clostridial toxins has produced the following results: i) the ligand binding assay typically used with tetanus toxin (i.e., low pH and ionic strength) is of questionable biological significance, ii) the binary toxin, like the clostridial neurotoxins, enters cells by receptor-mediated endocytosis, and iii) tetanus toxin can alter the disposition of protein kinase C in one neuroblastoma cell line.
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PMID:The study of clostridial and related toxins. The search for unique mechanisms and common denominators. 229 Jan 29

The phosphorylation of rat brain microtubule protein on intracranial injection of labeled phosphate has been analyzed. The major microtubule protein components phosphorylated in vivo in rat brain are the high-molecular-weight microtubule-associated proteins (MAPs) MAP-1A, MAP-1B, and MAP-2. A slight phospholabeling of beta-tubulin, which corresponds to the phosphorylation of a minor neuronal beta-tubulin isotype, is also observed. Whereas MAP-1B, MAP-2, and beta-tubulin are phosphorylated in the brain of 5-day-old rat pups, when most neurons of the CNS are extending processes, MAP-1A phosphorylation is observed only after neuronal maturation takes place. The phosphorylation of MAP-1A, MAP-1B, and beta-tubulin may be due mainly to casein kinase II or a related enzyme, whereas MAP-2 appears to be modified by other enzymes such as the cyclic AMP-dependent protein kinase (protein kinase A) and the calcium/phospholipid-dependent protein kinase (protein kinase C). Microtubule protein phosphorylation has also been studied in neuronal cultures. In differentiated neuroblastoma cells, only MAP-1B and beta-tubulin are phosphorylated in a manner coupled to neurite outgrowth. In primary cultures of fetal rat brain neurons, the pattern of microtubule protein phosphorylation resembles that found in vivo in rat pup brain. As phosphorylated MAP-1A and MAP-1B are present mainly on assembled microtubules, whereas the phosphorylation of MAP-2 decreases its interaction with microtubules, a role can be suggested for the phosphorylation of these proteins in the regulation of microtubule assembly and disassembly during neuronal development.
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PMID:Phosphorylation of microtubule proteins in rat brain at different developmental stages: comparison with that found in neuronal cultures. 229 11

A potential role of the protein kinase C (PKC) system in differentiation of human neuroblastoma cell line LA-N-5 was investigated. It was found that neurite outgrowth induced by 12-O-tetradecanoylphorbol 13-acetate (TPA, 81 nM) was associated with a down-regulation of PKC as determined independently by immunocytochemistry, immunoblot, and enzyme activity assay. Down-regulation of PKC in cells induced to differentiate by retinoic acid (1 microM) was less pronounced, whereas it was undetected in cells induced to differentiate by nerve growth factor (100 ng/ml). The in vitro phosphorylation of an 80-kilodalton protein present in control LA-N-5 cells or in cells treated with TPA, retinoic acid, or nerve growth factor for 1 day decreased to various extents at days 4 or 7 concomitant with neuritogenesis. Pretreatment of LA-N-5 cells with a high concentration (1 microM) of TPA to deplete cellular PKC rendered the cells unresponsive to the differentiating effect of the agents. It was observed that CHP-100 cells, another human neuroblastoma line shown to be resistant to differentiation induced by the agents, had a reduced PKC level and the amount of in vitro phosphorylation of the 80-kilodalton protein was greatly reduced in control cells and remained relatively unchanged when the cells were treated with the agents for up to 7 days. The present studies suggested that PKC and its 80-kilodalton substrate protein were likely involved in initiation and/or progression of LA-N-5 cell differentiation induced by TPA and that separate PKC-independent pathways might also be involved in the differentiating effect of retinoic acid or nerve growth factor.
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PMID:Protein kinase C and its 80-kilodalton substrate protein in neuroblastoma cell neurite outgrowth. 229 18

A novel human brain complementary DNA sequence encodes n-chimaerin, a 34,000 Mr protein. A single cysteine-rich sequence CX2CX13CX2CX7CX7C in the N-terminal half of n-chimaerin shares almost 50% identity with corresponding sequences in the C1 regulatory domain of protein kinase C. The C-terminal half of n-chimaerin has 42% identity with the C-terminal region (amino acid residues 1050 to 1225) of BCR, the product of the breakpoint cluster region gene involved in Philadelphia (Ph') chromosome translocation. n-Chimaerin mRNA (2.2 x 10(3) base-pairs) is specifically expressed in the brain, with the highest amounts being in the hippocampus and cerebral cortex. The mRNA has a neuronal distribution and is expressed in neuroblastoma cells, but not in C6 glioma or primary astrocyte cultures. The similarity of two separate regions of n-chimaerin to domains of protein kinase C and BCR has intriguing implications with respect to its evolutionary origins, its function in the brain and potential phorbol-ester-binding properties.
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PMID:Novel human brain cDNA encoding a 34,000 Mr protein n-chimaerin, related to both the regulatory domain of protein kinase C and BCR, the product of the breakpoint cluster region gene. 229 65

We examined specific expression of protein kinase C (PK-C) isozymes in cultured human glial and neuronal cell lines, using type-specific monoclonal antibodies MC-1a, -2a, and -3a (Hidaka H. et al., J. Biol. Chem., 263 (1988) 4523-4526). Immunoblotting experiments revealed that a 80 kDa band of three kinds of glioblastoma cells (A-172, SK-MG-1, SK-MG-4) was stained with MC-3a, whereas that of neuroblastoma cells (SK-N-MC) reacted with MC-2a. Immunoenzymetric assay showed that glioblastoma cells (A-172, SK-MG-1, SK-MG-4) contained 127.6 +/- 14.4, 248.8 +/- and 148.5 +/- 35.8 ng/mg protein of type III. respectively, while neuroblastoma cells (SK-N-MC) contained 389.5 +/- 20.7 ng/mg protein of type II. These results suggest that PK-C isozymes may be specifically expressed, depending on types of central nervous system (CNS) tumor cells.
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PMID:Type-specific expression of protein kinase C isozymes in CNS tumor cells. 230 20

SH-SY5Y human neuroblastoma cells can be induced to differentiate to mature ganglion cells when treated with the phorbol ester tetradecanoylphorbol acetate (TPA). Bryostatins are a new class of protein kinase C activators that are structurally unrelated to phorbol esters. This paper describes the effects of bryostatins 1 and 2 on morphological and functional differentiation of SH-SY5Y cells. Both bryostatins induced a rapid translocation of protein kinase C from the cytosol to the membrane fraction. Within 24 h, the bryostatins had caused a nearly complete down-regulation of the enzyme. Bryostatin 1 competed for [3H]phorbol-12,13-dibutyrate binding in intact cells with potency equal to that of TPA, in contrast to bryostatin 2, which exhibited a Ki value 1 order of magnitude higher than those of the two other agents. Bryostatins induced morphological changes similar to those induced by TPA. These changes were, however, only transient, occurring during the first 6 h of incubation in the presence of these compounds. By 72 h, the cells had acquired a morphology typical of untreated cells and, although a wide range of bryostatin concentrations were used, morphological changes characteristic of differentiated SH-SY5Y cells were not detected at 72 h. Bryostatin 1 at 5 nM and bryostatin 2 at 100 nM inhibited DNA synthesis, as measured by incorporation of [3H]thymidine by SH-SY5Y cells, although to a significantly lesser degree than TPA. In spite of the fact that bryostatins failed to induce morphological differentiation in SH-SY5Y cells, these compounds down-regulated c-myc mRNA expression. Bryostatins were significantly weaker in stimulating noradrenaline synthesis, compared with TPA, and high concentrations of these agents blocked the effect of the phorbol ester when they were included together with TPA. When SH-SY5Y cells were incubated in the presence of high concentrations of bryostatins, a decreased sensitivity of cells to muscarinic agonist-induced increases in cytosolic free Ca2+ was observed. The results suggest that down-regulation of protein kinase C activity and c-myc mRNA expression do not necessarily correlate with the morphological differentiation of SH-SY5Y cells.
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PMID:Effects of bryostatins 1 and 2 on morphological and functional differentiation of SH-SY5Y human neuroblastoma cells. 233 38

The role of muscarinic receptor-mediated polyphosphoinositide hydrolysis and subsequent calcium signals in altering the subcellular localization of calmodulin (CaM) was examined in SK-N-SH human neuroblastoma cells. Upon incubation of the cells with the full agonist carbachol, a 4.5- to 5-fold increase in CaM in the cytosol was observed, from 126 ng of CaM to 629 ng of CaM. There was an accompanying 68% decrease in membrane-bound CaM. The increase in the cytosol was maximal by 15 min, as was a corresponding decrease in membrane-associated CaM. The redistribution of CaM was maintained for at least 2 hr, before returning toward control levels by 4 hr. The EC50 values for carbachol in eliciting the translocation were 3.7 microM for the increase in cytosol and 1.3 microM for the decrease in membranes. The maximal changes in CaM concentration in both membranes and cytosol occurred with 10 microM carbachol. Incubation of the SK-N-SH cells with the partial muscarinic agonists bethanechol and arecoline resulted in 27 and 26% decreases in membrane-associated CaM, respectively, and 28 and 35% increases in cytosolic CaM, respectively. Thus, the partial agonists were less efficacious than carbachol in eliciting changes in CaM localization. Atropine completely blocked the carbachol-stimulated translocation, whereas the nicotinic agonist 1,1-dimethyl 4-phenylpiperazinium had no effect on the localization of CaM. Activation of receptors coupled to adenylate cyclase did not affect distribution of CaM. CaM content in membranes and cytosol of cells incubated with prostaglandin E1 or the alpha 2-adrenergic agonist UK 14,304 was not different from control values. The ionophore ionomycin (10 microM) and the phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) (50 nM) were both able to elicit changes in CaM distribution. Ionomycin caused a 64% increase in CaM in the cytosol, with no significant change in membrane CaM. TPA elicited a decrease in membrane-associated CaM, with a corresponding increase in CaM in the cytosol. When TPA and ionomycin were incubated together, the translocation was equal in magnitude to that observed with carbachol alone. The protein kinase C inhibitor H-7 blocked the TPA-stimulated response and partially blocked the carbachol-stimulated response. The CaM-binding protein neuromodulin, which demonstrates a decreased affinity for CaM in the presence of Ca2+ and when phosphorylated by protein kinase C, was present in both membranes and cytosol of SK-N-SH cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Muscarinic receptor-mediated translocation of calmodulin in SK-N-SH human neuroblastoma cells. 235 3

It has been proved that inhibition of protein kinase C by 1-(5-isoquinolinylsulfonyl)-1-methylpiperazine (H7) induces morphological differentiation in murine neuroblastoma (nb) cell. Here we report that H7 is also active on human nb cell lines. The human nb cell had originally neuroblast-like (N) or intermediate (I) morphology. N and I type are thought to represent different stages of neuroblastoma differentiation. Neurite outgrowth was observed in N and I type morphology treating the cells with 7, 14 or 28 microM of H7. The results confirm previous observations and show that inhibition of PKC by H7 also promotes neuronal differentiation in human cell line variants.
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PMID:The specific inhibitor of protein kinase C, 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H7), induces morphological change and cell differentiation of human neural crest-derived cell lineages. 238 13

Hydrolysis of the membrane phospholipid phosphatidylinositol-4,5-bisphosphate (PtdIns(4,5)P2) produces two prospective intracellular messengers: inositol 1,4,5-trisphosphate (InsP3), which releases Ca2+ from intracellular stores; and diacylglycerol (DG), which activates protein kinase C. Here we show how the formation of these two substances triggered by one external messenger, bradykinin, leads to the appearance of two different sequential membrane conductance changes in the neurone-like NG108-15 neuroblastoma-glioma hybrid cell line. In these cells bradykinin rapidly hydrolyses PtdIns(4,5)P2 to InsP3 and DG, raises intracellular Ca2+ and hyperpolarizes then depolarizes the cell membrane. By voltage-clamp recording we show that the hyperpolarization results from the activation pharmacologically-identifiable species of Ca2+-dependent K+ current. This is also activated by intracellular injections of Ca2+ or InsP3 so may be attributed to the formation and action of InsP3. The subsequent depolarization results primarily from the inhibition of a different, voltage-dependent K+ current, the M-current that is also inhibited by DG activators. Hence we describe for the first time a dual, time-dependent role for these two intracellular messengers in the control of neuronal signalling by a peptide.
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PMID:Two polyphosphatidylinositide metabolites control two K+ currents in a neuronal cell. 242 90


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