UMLS:C0031511 - FACTA Search

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

Binding assays and assays of activation of adenylate cyclase with the agonists 5'-N-ethylcarboxyamidoadenosine (NECA) and CGS21680 have been used to compare adenosine receptors in rat pheochromocytoma PC12 cells and in rat striatum. The [3H]NECA binding showed two components, whereas [3H]CGS21680 bound to one component in both tissues. The Kd value for the high affinity site labeled with [3H]NECA in PC12 cell membranes (2.3 nM) was lower than that in striatum (6.5 nM). The [3H]CGS21680 binding site showed a Kd value of 6.7 nM and 11.3 nM in PC12 cells and striatum, respectively. In the presence of GTP the KD values of [3H]NECA and [3H]CGS21680 for the high affinity site were increased severalfold, whereas the low affinity sites for [3H]NECA were no longer detected with filtration assays. A comparison of the ability of a series of agonists and antagonists to inhibit high affinity binding of [3H]NECA to A2 receptors in PC12 cell and striatal membranes indicated that agonists had higher affinities and antagonists had lower affinities in PC12 cells, compared with affinities in striatal membranes. Analysis of activation of adenylate cyclase in PC12 cell membranes suggested that the dose-dependent stimulation by NECA involved two components, whereas CGS21680 stimulated via one component. The maximal stimulation by NECA significantly exceeded that caused by CGS21680. In intact PC12 cells, NECA caused a greater accumulation of AMP than did CGS21680, as was the case in membranes. In striatal membranes, NECA and CGS21680 showed similar maximal stimulations of adenylate cyclase. Both NECA and CGS21680 were more potent in PC12 cell membranes than in striatal membranes, in agreement with binding data. However, in contrast to binding data, antagonists were not less potent versus stimulation of adenylate cyclase by NECA or CGS21680 in PC12 cell membranes, compared with striatal membranes. In toto, the results suggest that A2A receptors in striatum are virtually identical to the A2A receptors in PC12 cells. But, in addition to an A2A receptor, it appears that a lower affinity functional receptor, probably an A2B receptor, is present in PC12 cells and PC12 cell membranes, whereas such a functional low affinity receptor is not detectable in striatal membrane.
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PMID:A2A adenosine receptors from rat striatum and rat pheochromocytoma PC12 cells: characterization with radioligand binding and by activation of adenylate cyclase. 131 11

PC12 cells, a rat pheochromocytoma cell line, has been reported to release norepinephrine in response to extracellular ATP in the presence of extracellular Ca2+. The potency order of ATP analogues was adenosine 5'-O-(3-thiotriphosphate) greater than ATP greater than adenosine 5'-O-(1-thiotriphosphate) = 2-methylthioadenosine 5'-triphosphate (MeSATP) greater than 2'- and 3'-O-(4-benzoyl-benzoyl)ATP (BzATP) greater than ADP greater than 5-adenylylimidodiphosphate. Adenosine 5'-O-(2-thiodiphosphate), beta, gamma-methyleneadenosine 5'-triphosphate, AMP and adenosine were inactive. The ATP action in the absence of extracellular Ca2+, suggests a small but appreciable contribution of intracellular Ca2+ mobilization, for norepinephrine release. However, for some ATP derivatives, like BzATP, almost no contribution of the phospholipase C-Ca2+ pathway is suggested, based on their low activity in inositol phosphates production. To identify the ATP-receptor protein, PC12 cell membranes were photoaffinity-labeled with [32P]BzATP. SDS-PAGE analysis showed that a 53-kDa protein labeling was inhibited by ATP and its derivatives, as well as by P2-antagonists, suramin and reactive blue 2, which inhibit the nucleotide-induced norepinephrine release. The inhibitory activity of the nucleotides was, in parallel with their potency, to induce norepinephrine release. Despite their inability to release norepinephrine, GTP and GTP gamma S inhibited the BzATP labeling, suggesting the participation of a putative G protein in the ATP-receptor-mediated actions. We suggest that the 53-kDa protein on the PC12 cell surface is an ATP receptor, which mediates the norepinephrine release, depending, mainly, on extracellular Ca2+ gating.
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PMID:Characterization of ATP receptor which mediates norepinephrine release in PC12 cells. 132 38

GTP cyclohydrolase I exhibits a positive homotropic cooperative binding to GTP, which raises the possibility of a role for GTP in regulating the enzyme reaction (Hatakeyama, K., Harada, T., Suzuki, S., Watanabe, Y., and Kagamiyama, H. (1989) J. Biol. Chem. 264, 21660-21664). We examined whether or not the intracellular GTP level is within the range of affecting GTP cyclohydrolase I activity, using PC-12 rat pheochromocytoma and IMR-32 human neuroblastoma cells. Since GTP cyclohydrolase I was the rate-limiting enzyme for the biosynthesis of tetrahydrobiopterin in these cell lines, the intracellular activities of this enzyme were reflected in the tetrahydrobiopterin contents. We found that the addition of guanine or guanosine increased GTP but not tetrahydrobiopterin in these cells. On the other hand, three IMP dehydrogenase inhibitors, tiazofurin, 2-amino-1,3,4-thiadiazole, and mycophenolic acid, decreased both GTP and tetrahydrobiopterin in a parallel and dose-dependent manner, and these effects were reversed by the simultaneous addition of guanine or guanosine. There was no evidence suggesting that these inhibitors inhibited other enzymes involved in the biosynthesis and regeneration of tetrahydrobiopterin. Comparing intracellular activities of GTP cyclohydrolase I in the inhibitor-treated cells with its substrate-velocity curve, we estimated that the intracellular concentration of free GTP is 150 microM at which point the activity of GTP cyclohydrolase I is elicited at its maximum velocity. Below this GTP concentration, GTP cyclohydrolase I activity is rapidly decreased. Therefore GTP can be a regulator for tetrahydrobiopterin biosynthesis.
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PMID:IMP dehydrogenase inhibitors reduce intracellular tetrahydrobiopterin levels through reduction of intracellular GTP levels. Indications of the regulation of GTP cyclohydrolase I activity by restriction of GTP availability in the cells. 135 83

1. A group of 21 to 24-kDa proteins of pheochromocytoma (PC-12) cells was found in blot overlay assays to bind specifically [alpha-32P]GTP. Binding was inhibited by GTP analogues but not by ATP. Such small GTP-binding proteins were found in the cytosolic and in the particulate fraction of the cells, but they were unevenly distributed: about 75% of the small GTP-binding proteins were localized within the particulate fraction of the cells. Separation of these proteins by two-dimensional gel electrophoresis revealed the existence of seven distinct [alpha-32P]GTP-binding proteins. 2. Targeting of the small GTP-binding proteins to the particulate fraction of PC-12 cells requires modification by isoprenoids, since depleting the cells of the isoprenoid precursor mevalonic acid (MVA) by the use of lovastatin resulted in a 50% decrease in membrane-bound small GTP-binding proteins, with a proportionate increase in the cytosolic form. This blocking effect of lovastatin was reversed by exogenously added MVA. 3. In addition, metabolic labeling of PC-12 cells with [3H]MVA revealed incorporation of [3H]MVA metabolites into the cluster of 21 to 24-kDa proteins in a form typical of isoprenoids; the label was not removed from the proteins by hydroxylamine, and labeling was enhanced in cells incubated with lovastatin. The latter effect reflects a decrease in the isotopic dilution of the exogenously added [3H]MVA, as the addition of exogenous MVA reversed the effect of lovastatin on [3H]MVA-metabolite incorporation into the 21 to 24-kDa proteins. 4. Additional experiments demonstrated that isoprenylation is required not only for membrane association of small GTP-binding proteins, but also for their further modification by a methylation enzyme. This was evident in experiments in which the cells were metabolically labeled with [methyl-3H]methionine, a methylation precursor. The group of 21 to 24-kDa proteins was labeled with a methyl-3H group in a form typical of C-terminal-cysteinyl carboxylmethyl esters. Their methylation was blocked by the methylation inhibitors methylthioadenosine (MTA), 3-deazadenosine and homocysteine thiolactone as well as by lovastatin. MVA reversed the lovastatin block of methylation. 5. Two-dimensional gel analysis of the [3H]methylated proteins detected seven methylated small GTP-binding proteins that correspond to the isoprenylated proteins. Levels of the small GTP-binding proteins as well as isoprenylation and methylation were reduced by cycloheximide. 6. Distribution of the methylated proteins between particulate and cytosolic fractions was found to be similar to that of the small GTP-binding proteins (i.e., a 4:1 ratio).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Isoprenylation and carboxylmethylation in small GTP-binding proteins of pheochromocytoma (PC-12) cells. 139 71

In the present study, an activation mechanism for phospholipase D (PLD) in [3H]palmitic acid-labeled pheochromocytoma PC12 cells in response to carbachol (CCh) was investigated. PLD activity was assessed by measuring the formation of [3H]phosphatidylethanol ([3H]PEt), the specific marker of PLD activity, in the presence of 0.5% (vol/vol) ethanol. CCh caused a rapid accumulation of [3H]-PEt, which reached a plateau within 1 min, in a concentration-dependent manner. The [3H]PEt formation by CCh was completely antagonized by atropine, demonstrating that the CCh effect was mediated by the muscarinic acetylcholine receptor (mAChR). A tumor promoter, phorbol 12-myristate 13-acetate (PMA), also caused an increase in [3H]-PEt content, which reached a plateau at 30-60 min after exposure, but an inactive phorbol ester, 4 alpha-phorbol 12,13-didecanoate, did not. Although a protein kinase C (PKC) inhibitor, staurosporine (5 microM), blocked PMA-induced [3H]PEt formation by 77%, it had no effect on the CCh-induced formation. These results suggest that mAChR-induced PLD activation is independent of PKC, whereas PLD activation by PMA is mediated by PKC. NaF, a common GTP-binding protein (G protein) activator, and a stable analogue of GTP, guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S), also stimulated [3H]PEt formation in intact and digitonin-permeabilized cells, respectively. GTP, UTP, and CTP were without effect. Furthermore, guanosine 5'-O-(2-thiodiphosphate) significantly inhibited CCh- and GTP gamma S-induced [3H]PEt formation in permeabilized cells but did not inhibit the formation by PMA, and staurosporine (5 microM) had no effect on [3H]PEt formation by GTP gamma S.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pertussis toxin-insensitive G protein mediates carbachol activation of phospholipase D in rat pheochromocytoma PC12 cells. 140 22

An actin binding protein having a molecular mass of 39,000 was purified from the Triton extract of bovine adrenal medulla membrane fraction using DNase I affinity column and following chromatographies. Specific antibody was produced against the protein and immunoblotting analysis of tissue extract showed the purified protein was not a breakdown product of a larger protein and also showed the presence of this protein in bovine adrenal medullary chromaffin cells and rat pheochromocytoma cells (PC12). An immunoblotting analysis of membrane fractions treated with nucleotides and their analogues showed that this protein was specifically solubilized in the presence of GTP gamma-S.
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PMID:Purification of a membraneous actin binding protein from bovine adrenal medulla. 144 97

Determination of the adenine and guanine nucleotides in Triton X-100-extracted cytoskeletal fractions was utilized to estimate the actin and tubulin content of the assembled cytoskeletons in nonmuscle cells. Results with stable cell lines (i.e., rat pheochromocytoma PC12 and neuroblastoma NB41A3) and with primary cultures (i.e., human foreskin fibroblasts and chick embryonic dorsal root ganglion neurons) exhibited levels of cytoskeletal fraction ADP and GDP consistent with their assembly-induced nucleoside-5'-triphosphatase activities only previously analyzed in vitro. Likewise, estimates of actin and tubulin content fall in the range of values obtained by other experimental approaches. In contrast, analysis of whole cell nucleotides showed high [ATP]/[ADP] and [GTP]/[GDP] ratios, suggesting there is little, if any, contamination of the cytoskeletal nucleotide pool by other cellular nucleotides.
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PMID:Adenine and guanine nucleotide content of Triton-extracted cytoskeletal fractions of nonmuscle cells. 151 95

Ras has been thought to be involved in neuronal differentiation of rat pheochromocytoma PC12 cells. PC12 cells are immature adrenal chromaffin-like cells which undergo differentiation to sympathetic neuron-like cells in response to nerve growth factor (NGF). Fibroblast growth factor (FGF) and interleukin (IL)-6 can also induce differentiation of PC12 cells. In this paper, we report that NGF, FGF, and IL-6 induce an accumulation of an active Ras.GTP complex. In the serum-starved culture of PC12 cells, 6% of the Ras protein was complexed with GTP. Upon stimulation with NGF, the percentage of Ras.GTP increased to 24% after 2 min, and the high level of Ras.GTP was maintained for at least 16 h. On the other hand, the activation of Ras by FGF and IL-6 showed distinct kinetics; about 3-fold increase of Ras.GTP was detected at 10 min, and afterward, the level returned to the basal level within 60 min. These observations provide direct evidence that activation of Ras is involved in signal transduction from these differentiation factors. In addition, it was found that growth factors, including epidermal growth factor, insulin, and insulin-like growth factor-I, and a tumor promoter, 12-O-tetradecanoylphorbol-13-acetate (TPA), can also activate Ras under the same conditions. A tyrosine kinase-specific inhibitor, genistein, inhibited the increase of Ras.GTP induced by NGF and other factors. On the other hand, down-regulation of protein kinase C (PKC) by prolonged treatment with TPA, which sufficiently blocked TPA-induced Ras activation, did not abolish the formation of Ras.GTP by NGF. These results suggest that tyrosine kinases rather than PKC play a major role in the NGF-induced activation of Ras in PC12 cells.
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PMID:Differentiation factors, including nerve growth factor, fibroblast growth factor, and interleukin-6, induce an accumulation of an active Ras.GTP complex in rat pheochromocytoma PC12 cells. 152 65

The ras gene product (p21) is thought to transduce signals from various growth and differentiation factors. p21 is a GTP-binding protein, and its activity is regulated by the bound GDP/GTP ratio. We analysed p21-bound nucleotides in cell lysates of rat pheochromocytoma cell line PC12 cells stimulated with various factors. Nerve growth factors (NGF) rapidly increased the relative amount of active p21-GTP complex to as much as 20% of the total amount of p21 within 2 min. The amount of p21-GTP then declined to 8% after 10 min, and this level was sustained for at least 2 h. Epidermal growth factor (EGF) also stimulated a rapid accumulation of p21-GTP to the same extent as seen with NGF, but the amount of p21-GTP declined to 5% after 10 min and gradually returned to the basal level within 60 min. In contrast, basic fibroblast growth factor, interleukin 6 and dibutyryl cAMP, which induce neuronal differentiation of PC12 cells, did not stimulate the accumulation of p21-GTP at any time point examined. Phorbol 12-myristate 13-acetate also had no effect. Interestingly, the protein kinase inhibitor K-252a specifically suppressed the NGF-induced accumulation of p21-GTP, but did not suppress the EGF-induced response. These results strongly suggest that an active p21-GTP complex transduces the differentiation signal from NGF. It may also be suggested that the process of activating p21 is mediated by a K-252a-sensitive protein kinase(s).
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PMID:Nerve growth factor induces rapid accumulation of the GTP-bound form of p21ras in rat pheochromocytoma PC12 cells. 154 49

The addition of either Ca2+ or guanosine 5'-O-3-(thiotriphosphate), GTP gamma S, to digitonin-permeabilized rat pheochromocytoma PC12 cells stimulates norepinephrine release. Unlike Ca(2+)-stimulated release, there is a delay between the time of addition of GTP gamma S to digitonin-permeabilized PC12 cells and stimulation of norepinephrine release. Preincubation of the permeabilized cells in the absence of Mg2+ eliminates this lag and increases the initial rate of GTP-gamma S-stimulated norepinephrine secretion. This suggests that the rate of GDP dissociation from the GTP-binding protein responsible for this stimulation is faster in the absence of Mg2+ than in its presence. While an equimolar concentration of GTP gives 50% inhibition of GTP gamma S-stimulated release, 100-fold excesses of ITP, ATP, UTP and CTP gave no inhibition of GTP gamma S-stimulated release. Both the inability of ITP to inhibit GTP gamma S-stimulated secretion and the increase in GTP gamma S-stimulated secretion caused by preincubation in the absence of Mg2+ indicate that some of the properties of the GTP-binding protein responsible for this stimulation are more like those of the low molecular weight GTP-binding proteins rap1 and ras than those of a heterotrimeric G-protein. Low concentrations of N-ethylmaleimide gave more inhibition of GTP gamma S-stimulated release than Ca(2+)-stimulated release which suggests that the mechanisms by which Ca2+ and GTP gamma S stimulate norepinephrine release are at least in part distinct.
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PMID:Guanine nucleotide stimulation of norepinephrine secretion from permeabilized PC12 cells: effects of Mg2+, other nucleotide triphosphates and N-ethylmaleimide. 155 51

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