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)

We examined the short-term regulation of the phosphorylation of the mid-sized neurofilament subunit (NF-M) by kinases which were activated in rat pheochromocytoma (PC12) cells by nerve growth factor (NGF) and/or 12-O-tetradecanoylphorbol 13-acetate (TPA). We found that NGF and TPA, alone or in combination, increased (a) the incorporation of [32P]Pi into NF-M and (b) the rate of conversion of NF-M from a poorly phosphorylated to a more highly phosphorylated form. This was not due to increased synthesis of NF-M, because NGF alone did not increase NF-M synthesis and TPA alone or TPA and NGF together inhibited the synthesis of NF-M. Further, an increase in calcium/phospholipid-dependent kinase (PKC) activity resulting from the treatment of PC12 cells with NGF and TPA was observed concomitant with the increased phosphorylation of NF-M. This PKC activity was determined to be derived from the PKC alpha and PKC beta isozymes. Finally, when PC12 cells were rendered PKC-deficient by treatment with 1 muM TPA for 24 h, NGF maintained the ability to induce an increase in NF-M phosphorylation, though not to the level attained in cells which were not PKC-deficient. These data suggest that NGF with or without TPA stimulates NF-M phosphorylation as a result of a complex series of events which include PKC-independent and PKC-dependent pathways.
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PMID:The differential role of protein kinase C isozymes in the rapid induction of neurofilament phosphorylation by nerve growth factor and phorbol esters in PC12 cells. 186 Nov 52

Protein kinase C is known to be involved both in initiation and termination of cellular responses due to phosphoinositide breakdown. Here we report that in PC12 cells (a line of neurosecretory cells derived from a rat pheochromocytoma), pretreatment with nanomolar concentrations of phorbol myristate acetate, PMA, which is believed to specifically activate protein kinase C, inhibits the cytosolic-free Ca2+ concentration rise induced by depolarizing agents. In contrast, plasma membrane potential and 45Ca efflux from preloaded cells were unaffected by PMA pretreatment. Inhibition by PMA and diacylglycerol of the cytosolic-free Ca2+ concentration rise induced by depolarization was observed also in another cell line, the insulin secreting line RINm5F. These results raise the possibility that the voltage-gated Ca2+ channel is under inhibitory control by protein kinase C.
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PMID:Tumor promoter phorbol myristate acetate inhibits Ca2+ influx through voltage-gated Ca2+ channels in two secretory cell lines, PC12 and RINm5F. 241 48

Protein kinase C, purified to homogeneity, was found to phosphorylate and activate tyrosine hydroxylase that had been partially purified from pheochromocytoma PC 12 cells. These actions of protein kinase C required the presence of calcium and phospholipid. This phosphorylation of tyrosine hydroxylase reduced the Km for the cofactor 6-methyltetrahydropterine from 0.45 mM to 0.11 mM, increased the Ki for dopamine from 4.2 microM to 47.5 microM, and produced no change in the Km for tyrosine. Little or no change in apparent Vmax was observed. These kinetic changes are similar to those seen upon activation of tyrosine hydroxylase by cAMP-dependent protein kinase. Two-dimensional phosphopeptide maps of tyrosine hydroxylase were identical whether the phosphorylation was catalyzed by protein kinase C or by the catalytic subunit of cAMP-dependent protein kinase. Both protein kinases phosphorylated serine residues. The results suggest that protein kinase C and cAMP-dependent protein kinase phosphorylate the same site(s) on tyrosine hydroxylase and activate tyrosine hydroxylase by the same mechanism.
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PMID:Calcium/phospholipid-dependent protein kinase (protein kinase C) phosphorylates and activates tyrosine hydroxylase. 615 Nov 78

Neuropeptide Y (NPY) is a 36 amino acid peptide present in the central and peripheral nervous systems. Treatment with Nerve Growth Factor (NGF) induces an increase in NPY mRNA in PC12 cells, a rat pheochromocytoma cell line extensively used as a model of neuronal differentiation. Stimulators of both cAMP and calcium-phospholipid dependent protein kinases (PKA and PKC respectively) increase NPY mRNA levels in a similar way to NGF. Nevertheless, H-89, a specific inhibitor of PKA failed to block NGF stimulated NPY mRNA accumulation. Furthermore, direct measurement of PKA activity in cell extracts showed no increase following NGF, in contrast to forskolin. H7, an inhibitor of both PKC and PKA systems completely abolished the NGF induced increase in NPY mRNA, suggesting that PKC is necessary for NGF induction of the NPY gene. NGF also increased PKC activity in cell extracts in a similar way to phorbol myristate acetate (PMA). Use of a reporter function, chloramphenicol acetyl transferase, controlled by 700 base pairs of the 5' flanking region of the NPY gene demonstrated that NGF and phorbol ester stimulated transcription of the NPY gene. This stimulation could be blocked by pre-incubating PC12 cells with calphostin C, a specific inhibitor of PKC. Our results indicate that NGF induces NPY gene expression via activation of PKC system. Although an increase in adenylate cyclase activity affects the expression of the NPY gene, activation of PKA appears not to be involved in mediating the NGF effects.
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PMID:Role of protein kinase C in mediating NGF effect on neuropeptide Y expression in PC12 cells. 752 99

The specific intracellular signals initiated by nerve growth factor (NGF) that lead to neurite formation in PC12 rat pheochromocytoma cells are as of yet unclear. Protein kinase C-delta (PKC delta) is translocated from the soluble to the particulate subcellular fraction during NGF-induced-neuritogenesis; however, this does not occur after treatment with the epidermal growth factor, which is mitogenic but does not induce neurite formation. PC12 cells also contain both Ca(2+)-sensitive and Ca(2+)-independent PKC enzymatic activities, and express mRNA and immunoreactive proteins corresponding to the PKC isoforms alpha, beta, delta, epsilon, and zeta. There are transient decreases in the levels of immunoreactive PKCs alpha, beta, and epsilon after 1-3 days of NGF treatment, and after 7 days there is a 2.5-fold increase in the level of PKC alpha, and a 1.8-fold increase in total cellular PKC activity. NGF-induced PC12 cell neuritogenesis is enhanced by 12-O-tetradecanoyl phorbol-13-acetate (TPA) in a TPA dose- and time-dependent manner, and this differentiation coincides with abrogation of the down-regulation of PKC delta and other PKC isoforms, when the cells are treated with TPA. Thus a selective activation of PKC delta may play a role in neuritogenic signals in PC12 cells.
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PMID:Selective translocation of protein kinase C-delta in PC12 cells during nerve growth factor-induced neuritogenesis. 762 8

Protein kinase C (PKC) family members were examined in PC-12 rat pheochromocytoma cells to evaluate their role in the action of nerve growth factor (NGF). Immunoblot analysis of whole cell lysates using antibodies against various PKC isoforms revealed that PC-12 cells contained PKC-alpha, -delta, -epsilon and zeta. Assay of the protein kinase activity in these different anti-PKC immunoprecipitates demonstrated that NGF stimulated the kinase activity of PKC-epsilon, but not PKC-alpha, -delta and -zeta. Both histone phosphorylation and autophosphorylation of PKC-epsilon were increased by treatment of PC-12 cells with NGF. This increased phosphorylation observed in vitro is rapid, occurring maximally at 2.5 min and declining thereafter. Moreover, this effect of NGF is dose-dependent over physiological concentrations of the growth factor. Although the mechanistic basis for this specificity in PKC activation is not clear, NGF acutely stimulated the production of diacylglycerol without causing corresponding changes in intracellular Ca2+ concentrations. These results suggest that NGF may selectively stimulate the Ca(2+)-insensitive epsilon isoform of PKC by a phosphatidylinositol-independent mechanism.
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PMID:Nerve growth factor activates calcium-insensitive protein kinase C-epsilon in PC-12 rat pheochromocytoma cells. 824 Feb 90

To establish whether protein kinase C was involved in the nuclear events underlying cell differentiation and proliferation, rat pheochromocytoma PC12 cells, serum-starved for 24 h, were treated with either differentiating doses of nerve growth factor or high serum concentrations, which represented a powerful mitogenic stimulus. Western blot analysis with isoform-specific antibodies, performed on whole cell homogenates, cytoplasms, and purified nuclei, showed that PKC isotypes alpha, beta I, beta II, delta, epsilon, eta, and zeta were expressed in PC12 cells and that all of them, except for beta I, were found at the nuclear level, variably modulated depending on the cell treatment. Compared to serum-stimulated cells, in which an early (1 day) and marked rise of protein kinase C activity was followed by a plateau, nerve growth factor-treated cells showed a progressive increase of protein kinase C activity coincident with the onset and maintenance of the differentiated phenotype. Western blot analysis of nuclei isolated from fully differentiated cells demonstrated an increase of protein kinase C alpha, paralleled by enhanced phosphotransferase activity along with the nerve growth factor treatment, and complete loss of the delta isotype. In contrast, in nuclei of proliferating PC12 cells, after an early but modest increase at 1 day of mitogenic stimulation, protein kinase C activity reached a plateau. Isotype-specific analysis indicated a concomitant increase of protein kinase C beta II, delta, and zeta and the appearance of protein kinase C epsilon and eta at the nuclear level. Considering the relative intensity of the cytoplasmic and nuclear immunoreactive bands under the three conditions examined, clear-cut translocation to the nucleus occurred for PKC epsilon and eta in serum-stimulated cells. Additional nuclear accumulation of PKC by translocation from the cytoplasm was prominently induced for the zeta isoform after mitogenic stimulation and for PKC alpha during prolonged NGF treatment. Our data suggest that nuclear translocation and selective activation of distinct protein kinase C isoforms play a relevant role in the control of proliferation and differentiation of the same cell type and that nuclear protein kinase C is crucial to the induction and persistence of the differentiated neuronal phenotype of PC12 cells.
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PMID:Changes of nuclear protein kinase C activity and isotype composition in PC12 cell proliferation and differentiation. 861 93

We have previously demonstrated that neuropeptide Y (NPY) inhibits depolarization-stimulated catecholamine synthesis in rat pheochromocytoma (PC12) cells differentiated to a sympathetic neuronal phenotype with nerve growth factor (NGF). The present study uses multiple selective Ca2+ channel and protein kinase agonists and antagonists to elucidate the mechanisms by which NPY modulates catecholamine synthesis as determined by in situ measurement of DOPA production in the presence of the decarboxylase inhibitor m-hydroxybenzylhydrazine (NSD-1015). The L-type Ca2+ channel blocker nifedipine inhibited the depolarization-induced stimulation of DOPA production by approximately 90% and attenuated the inhibitory effect of NPY. In contrast, the N-type Ca2+ channel blocker omega-conotoxin GVIA inhibited neither the stimulation of DOPA production nor the effect of NPY. Antagonism of Ca2+/calmodulin-dependent protein kinase (CaM kinase) greatly inhibited the stimulation of DOPA production by depolarization and prevented the inhibitory effect of NPY, whereas alterations in the cyclic AMP-dependent protein kinase pathway modulated DOPA production but did not prevent the effect of NPY. Stimulation of Ca2+/phospholipid-dependent protein kinase (PKC) with phorbol 12-myristate 13-acetate (PMA) did not affect the basal rate of DOPA production in NGF-differentiated PC12 cells but did produce a concentration-dependent inhibition of depolarization-stimulated DOPA production. In addition, NPY did not produce further inhibition of DOPA production in the presence of PMA, and the inhibition by both PMA and NPY was attenuated by the specific PKC inhibitor chelerythrine. These results indicate that NPY inhibits Ca2+ influx through L-type voltage-gated Ca2+ channels, possibly through a PKC-mediated pathway, resulting in attenuation of the activation of CaM kinase and inhibition of depolarization-stimulated catecholamine synthesis.
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PMID:Mechanism of catecholamine synthesis inhibition by neuropeptide Y: role of Ca2+ channels and protein kinases. 875 16

Wortmannin is a specific phosphatidylinositol 3-kinase inhibitor, and it inhibits secretion in many cell types. Previously we reported that high K+ and external ATP stimulated a Ca2+ influx and [3H]-noradrenaline ([3H]NA) release from rat pheochromocytoma cell line 12 (PC12) cells in the presence of extracellular CaCl2. Addition of phorbol 12-myristate 13-acetate (PMA) stimulated [3H]NA release by itself and enhanced the maximal responses of high K+ and ATP. In this study, we investigated the effects of wortmannin on NA release from PC12 cells. Wortmannin inhibited the [3H]NA release induced by high K+ and ATP, and the stimulatory effects of PMA, in a dose-dependent manner. Wortmannin caused 50% inhibition of high K+-induced [3H]NA release at a concentration of 2.78+/-0.68 microM (n = 5). The increased cytosolic free Ca2+ concentrations ([Ca2+]i), induced by ATP, were not inhibited by wortmannin. Wortmannin inhibited PMA-induced phosphorylation of a 80-kDa protein in the cytosol fraction of PC12 cells. Calphostin C, a specific protein kinase C inhibitor, also inhibited high K+-, ATP-, and PMA-induced NA release, and the phosphorylation of the 80-kDa protein induced by PMA. Mastoparan, an amphiphilic tetradecapeptide from wasp venom, stimulated NA release in the presence or absence of extracellular CaCl2. Neither wortmannin nor calphostin C inhibited the NA release induced by mastoparan. These findings suggest that wortmannin inhibits the PKC-dependent pathway, not [Ca2+]i mobilization, resulting in the inhibition of NA release from PC12 cells.
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PMID:Inhibition of protein kinase C-dependent noradrenaline release by wortmannin in PC12 cells. 899 Feb 73

Gene expression for tyrosine hydroxylase (TH), the rate-limiting enzyme in catecholamine biosynthesis, is regulated by reductions in oxygen tension (hypoxia). Hypoxia-induced regulation of the TH gene is due to the binding of specific transcription factors to specific sites on the 5' flanking region of the gene. The purpose of this study was to identify the second messenger system(s) responsible for regulation of the TH gene during hypoxia. Fura-2 fluorescence imaging of rat pheochromocytoma (PC12) cells, an O2-sensitive cell line, revealed that there is an increase in cytosolic calcium (Ca2+) associated with exposure to hypoxia. Based on the evidence that the transcription factors that bind to the TH promoter during hypoxia can also be induced by elevations in cytosolic Ca2+, the role of Ca2+ in the hypoxic regulation of the TH gene was explored. To assay the effect of hypoxia on TH gene expression, Northern blot analyses of total RNA were performed on PC12 cells exposed to hypoxia in the presence or absence of specific inhibitors. The addition of the L-type calcium channel blockers nifedipine or verapamil caused partial inhibition of the hypoxia-induced increase in TH mRNA. The increase in cytosolic Ca2+ during hypoxia was also only partially inhibited by addition of nifedipine. Importantly, chelation of extracellular Ca2+ completely inhibited the increase in TH mRNA by hypoxia. Pretreatment of PC12 cells with BAPTA/AM, an intracellular Ca2+ chelator, inhibited the hypoxic induction of TH gene expression in a dose-dependent manner. Addition of chelerythrine chloride (CHL), a protein kinase C inhibitor, to the media before exposure to hypoxia also resulted in an inhibition of TH induction by hypoxia. These results suggest that hypoxia regulates TH gene expression by a mechanism that is dependent on influx of calcium from the extracellular stores, partially but not exclusively through the L-type calcium channels. These results further suggest that a member of the PKC family is essential for this regulation.
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PMID:Regulation of tyrosine hydroxylase gene expression during hypoxia: role of Ca2+ and PKC. 902 34

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