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:C0031511 (pheochromocytoma)
14,622 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The PC12 clone is a line of rat pheochromocytoma cells that undergoes neuronal differentiation in the presence of NGF protein. In the absence of NGF, PC12 cells are electrically inexcitable, while after several weeks of NGF treatment they develope Na+ action potentials. Past estimates made by measuring binding of 3H-saxitoxin (STX) indicate that NGF treatment brings about a large increase in Na channel density that is of sufficient magnitude to account for the induction of excitability. We have now used 22Na uptake to measure the Na permeability of PC12 cells before and after long-term NGF treatment. Treatment with NGF does not change the resting Na+ permeability. The alkaloid toxins veratridine and batrachotoxin (BTX) and scorpion toxin were used to activate Na channels. Such studies demonstrate that these toxins induce TTX-sensitive Na uptake in both NGF-treated and untreated cells and reveal differences in functional Na channel numbers per cell and per unit of membrane area that are similar to those found in the STX binding studies. On the other hand, affinities for drugs that activate these channels are not affected by NGF treatment. We also find that NGF-treated PC12 cells contain a population of Na channels with low affinity for TTX. These channels account for 5-20% of total BTX or veratridine-stimulated flux. Thus, NGF has 2 effects regarding the Na channels of PC12 cells: it increases the number of functional Na channels that otherwise behave similarly to those present before NGF treatment, and it induces the presence of TTX-resistant Na channels. These findings indicate that the PC12 model system may serve to study the developmental regulation of Na channel expression and properties.
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PMID:Nerve growth factor increases the number of functional Na channels and induces TTX-resistant Na channels in PC12 pheochromocytoma cells. 243 61

The effects of nerve growth factor (NGF) on induction of Na+,K+-ATPase were examined in a rat pheochromocytoma cell line, PC12h. Na+,K+-ATPase activity in a crude particulate fraction from the cells increased from 0.37 +/- 0.02 (n = 19) to 0.55 +/- 0.02 (n = 20) (means +/- SEM, mumol Pi/min/mg of protein) when cultured with NGF for 5-11 days. The increase caused by NGF was prevented by addition of specific anti-NGF antibodies. Epidermal growth factor and insulin had only a small effect on induction of Na+,K+-ATPase. A concentration of basic fibroblast growth factor three times higher than that of NGF showed a similar potency to NGF. The molecular form of the enzyme was judged as only the alpha form in both the untreated and the NGF-treated cells by a simple pattern of low-affinity interaction with cardiotonic steroids: inhibition of enzyme activity by strophanthidin (Ki approximately 1 mM) and inhibition of Rb+ uptake by ouabain (Ki approximately 100 microM). As a consequence, during differentiation of PC12h cells to neuron-like cells, NGF increases the alpha form of Na+,K+-ATPase, but does not induce the alpha(+) form of the enzyme, which has a high sensitivity for cardiotonic steroid and is a characteristic form in neurons.
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PMID:Nerve growth factor induces Na+,K+-ATPase in a nerve cell line. 244 35

Cells derived from a rat pheochromocytoma (PC12 cells) can generate an action potential only upon treatment with nerve growth factor. Using electrophysiological methods, we found that the appearance of action potentials in nerve growth factor-treated PC12 cells can be explained by an increase in the density of Na+ channels. The functional properties of Na+ channels in PC12 cells are similar to those described for peripheral nerves but appear to be different from Na+ channels synthesized in Xenopus oocytes injected with brain type II Na+ -channel mRNA. To determine if PC12 cells express the brain type II Na+ -channel gene, we performed RNase-protection analyses using probes that can distinguish between the brain type I and type II Na+ -channel mRNAs. The results from these studies indicate that undifferentiated PC12 cells express the type II but not the type I Na+ -channel gene. Treatment with nerve growth factor increases expression of the type II Na+ -channel gene but has no effect on type I gene expression. Our findings suggest that Na+ -channel excitability in PC12 cells is due to the specific induction of the brain type II gene by nerve growth factor.
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PMID:Selective induction of brain type II Na+ channels by nerve growth factor. 244 84

Properties of the whole-cell K+ currents and voltage-dependent activation and inactivation properties of single K+ channels in clonal pheochromocytoma (PC-12) cells were studied using the patch-clamp recording technique. Depolarizing pulses elicited slowly inactivating whole-cell K+ currents, which were blocked by external application of tetraethylammonium+, 4-aminopyridine, and quinidine. The amplitudes and time courses of these K+ currents were largely independent of the prepulse voltage. Although pharmacological agents and manipulation of the voltage-clamp pulse protocol failed to reveal any additional separable whole-cell currents in a majority of the cells examined, single-channel recordings showed that, in addition to the large Ca++-dependent K+ channels described previously in many other preparations, PC-12 cells had at least four distinct types of K+ channels activated by depolarization. These four types of K+ channels differed in the open-channel current-voltage relation, time course of activation and inactivation, and voltage dependence of activation and inactivation. These K+ channels were designated the Kw, Kz, Ky, and Kx channels. The typical chord conductances of these channels were 18, 12, 7, and 7 pS in the excised configuration using Na+-free saline solutions. These four types of K+ channels opened in the presence of low concentrations of internal Ca++ (1 nM). Their voltage-dependent gating properties can account for the properties of the whole-cell K+ currents in PC-12 cells.
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PMID:Voltage-dependent K+ currents and underlying single K+ channels in pheochromocytoma cells. 244 14

Muscarinic cholinergic receptor stimulation evokes catecholamine secretion from some cell types, but the mechanism has not been well characterized. Using pheochromocytoma (PC12) cells, we show that the muscarinic agonist methacholine stimulates 45Ca2+ influx and [3H]norepinephrine release in a dose-dependent manner. Experiments performed in Na+-free medium or with inhibitors of voltage-dependent Ca2+ channels suggest the involvement of a receptor-activated Ca2+ channel which differs significantly from the voltage-dependent Ca2+ channel involved in nicotinic receptor-stimulated release. Furthermore, both influx and release were inhibited by pertussis toxin (0.5-2.0 ng/ml, 21 h) with a dose dependency which paralleled the dose dependency of pertussis toxin-dependent in vivo ADP-ribosylation of a 41-kDa protein. These experiments provide the first evidence that muscarinic stimulation evokes neurotransmitter secretion by opening a receptor-activated Ca2+ channel which is controlled by a pertussis toxin-sensitive protein.
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PMID:Muscarinic stimulation of calcium influx and norepinephrine release in PC12 cells. 245 11

To investigate the possible release of beta-endorphins (beta EN) from tumors and to investigate their possible involvement in the hypotensive mechanism of clonidine (CLO) in pheochromocytoma (PHEO), as compared with essential hypertension (EH), we studied 12 patients with PHEO, 17 patients with uncomplicated stable EH (SEH), nine patients with borderline EH (BEH), and seven healthy volunteers (N). All subjects were hospitalized and excreted normal amounts of sodium. Mean blood pressure (MAP) and plasma beta EN, norepinephrine (NE), epinephrine (E), and dopamine (DA) were measured before and 180 min after an oral dose of 0.3 mg CLO. Following CLO, a significant (p less than 0.01) decrease in MAP was present in all groups. Plasma NE and E decreased (p less than 0.02 to p less than 0.01) in N, BEH, and SEH, but not in PHEO. DA did not change in any group. Pretreatment beta EN did not differ significantly between the groups, and following CLO it did not change in N or PHEO, while it increased significantly in BEH (p less than 0.01) and in SEH (p less than 0.02). Absolute changes in MAP correlated with those of beta EN only in the SEH group. Changes in NE or E did not correlate with changes in MAP in either group. Likewise, changes in NE or E were not correlated with those of beta EN, in N or EH, but a correlation between resting plasma E and resting beta EN concentrations was demonstrated in PHEO. These results support a role of beta EN in the hypotensive action of CLO in EH, but not in N or PHEO.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Plasma beta-endorphins and catecholamines before and after clonidine in essential hypertension and pheochromocytoma. 245 62

Peripherin, a recently described member of the intermediate filament multigene family, is present in peripheral and certain central nervous system neurons as well as in cultured neuron-like cell lines, including PC12 pheochromocytoma cells. In PC12 cells, peripherin appears to be the major intermediate filament protein and its relative levels and synthesis are specifically increased during nerve growth factor (NGF)-promoted neuronal differentiation. The present study examines the phosphorylation of peripherin and the regulation thereof by nerve growth factor and other agents in cultured PC12 cells. Immunoblotting experiments using a peripherin-specific antiserum show five distinct isoforms of this protein in whole cell and cytoskeletal extracts resolved by two-dimensional isoelectric focusing sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Three of these isoforms incorporate detectable quantities of [32P]phosphate during metabolic radiolabeling. The small proportion (approximately 6%) of total cellular peripherin that is extractable with 1% Triton X-100, does not appear to incorporate phosphate. NGF increases peripherin phosphorylation by 2-3-fold within 1-2 h of treatment. Epidermal growth factor and insulin have no effect. The relative levels of phosphorylated peripherin are markedly elevated (17-fold) by long term NGF exposure, and peripherin becomes a major cytoskeletal phosphoprotein. Activators of protein kinases A and C and treatment with depolarizing levels of K+ also enhance peripherin phosphorylation by 2-3-fold, in cultures both with and without prior long term NGF treatment. Evidence is presented that NGF regulates peripherin phosphorylation by a mechanism independent of protein kinases A and C and of depolarization. The large increase in phosphorylated peripherin brought about by NGF treatment suggests that this neuronal filament protein may play a role in the elaboration and maintenance of neurites. The presence of multiple independent pathways that acutely enhance peripherin phosphorylation indicates that this role is subject to modulation by extrinsic signals.
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PMID:Phosphorylation of the peripherin 58-kDa neuronal intermediate filament protein. Regulation by nerve growth factor and other agents. 253 51

The interaction of 125I-labeled tetanus toxin with PC12 pheochromocytoma cells in monolayer cultures has been examined. Under regular growth conditions, the PC12 cells bind 125I-tetanus toxin to a limited degree compared with dissociated cerebral neuron cultures. After exposure to nerve growth factor for 2 days in low serum-containing media with growth factor supplements, binding of toxin increases over twofold compared with untreated PC12 cells. Binding can also be enhanced (greater than 2.5-fold) after treatment of cells with 2 mM sodium metaperiodate for 20 min. Dissociated cerebral neurons but not fibroblasts in cell culture bind more toxin after periodate treatment. The effect of periodate can be abolished by 5 mM sodium borohydride. A ganglioside isolated from periodate-treated PC12 cells and tentatively identified as GT1b [(N-acetylneuraminyl)galactosyl-N-acetylgalactosaminyl(N- acetylneuraminyl-N-acetylneuraminyl)-galactosyl-glucosylceramide] binds 125I-tetanus toxin on silica gel chromatoplates and on nitrocellulose paper. There are no indications to suggest binding to a polypeptide from treated cells after polyacrylamide gel electrophoresis. Cells artificially supplemented with GT1b and subsequently treated with periodate effectively bind the toxin. The data suggest that modified sialyl groups linked to gangliosides, and not to proteins, are preferential targets for tetanus toxin.
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PMID:Periodate-modified gangliosides enhance surface binding of tetanus toxin to PC12 pheochromocytoma cells. 254 65

Rat pheochromocytoma (PC12) cells, persistently infected with mumps virus (MV), failed to generate full-sized stimulus-evoked action potentials (SEAPs) when examined by intracellular electrophysiological recording techniques. Application of tetrodotoxin (TTX) had little or no effect on MV-reduced SEAPs, indicating that the number of functional voltage-gated Na+ channels was decreased or their operation was blocked by the virus. In contrast, MV-infected cells generated normal Ca2+ spikes when bathed in a solution containing TTX, tetraethylammonium ions and a high concentration (20 mM) of Ca2+. In addition, when infected cells bathed in TTX were superfused with Co2+ the SEAP profile reverted to that typical of PC12 cells with functional voltagegated K+ channels only. These observations indicate that MV affects voltage-gated Na+ channels, but spares voltage-gated Ca2+ and K+ channels of persistently infected cells.
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PMID:Loss of functional voltage-gated sodium channels in persistent mumps virus-infected PC12 cells. 254 58

The aim of this work was to determine if the total (Na+ + K+)-ATPase of the plasma membrane of a cell population could be assayed without cell homogenization and partial purification of the enzyme. Several types of intact cells that were placed in an assay medium containing MgATP, Na+, and K+ hydrolyzed little or none of the added ATP. When the cells were pretreated with the ionophore alamethicin and then placed in the assay medium, they exhibited an ouabain-sensitive (Na+ + K+)-ATPase activity that increased and reached a limiting value with increasing alamethicin concentration. Since alamethicin did not increase the activity of the purified membrane-bound (Na+ + K+)-ATPase, its effects on the intact cells are probably due to the formation of large channels within the plasma membrane that allow the free access of the components of the assay medium to the intracellular domains of (Na+ + K+)-ATPase. Utilizing whole cells treated with alamethicin, total (Na+ + K+)-ATPase activity was determined in clonal pheochromocytoma cells (PC12), neuroblastoma x glioma hybrid cells (NG108-15), and myocytes isolated from adult and neonatal rat hearts. With the use of this whole-cell assay, the ouabain sensitivities of the enzymes in adult and neonatal rat heart myocytes were determined and found to be the same as those that have been determined with the use of partially purified enzymes.
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PMID:Determination of total (Na+ + K+)-ATPase activity of isolated or cultured cells. 256 Mar 48


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