EC:2.7.11.13 - FACTA Search

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Op18 is a highly conserved major cytosolic phosphoprotein which has been implicated in signal transduction in a wide variety of cell types. Freshly isolated peripheral blood lymphocytes (PBL) constitutively express low levels of mostly unphosphorylated Op18. Following mitogenic stimulation of PBL, Op18 synthesis is induced at a time when cells are entering S-phase. In this study we have characterized Op18 phosphorylation during progression of freshly isolated PBL through the cell cycle. Transition from G0 to G1 following activation with OKT3 was associated with an increase in a phosphorylated form designated Op18c. Progression of cells through G1 into S resulted in an increase in phosphorylated Op18 forms, designated Op18a and Op18b, which paralleled new Op18 synthesis. Transition of cells into G2 + M resulted in the appearance of the more acidic phosphorylated forms Op18d and Op18e. Calphostin C, a specific inhibitor of protein kinase C, dramatically decreased all forms of phosphorylated Op18 in OKT3 treated Jurkat cells. Our results suggest that Op18 phosphorylation is mediated in part by PKC activation as well as by other kinases yielding different phosphorylated forms at specific stages of the cell cycle.
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PMID:Cell cycle progression is associated with distinct patterns of phosphorylation of Op18. 137 16

Op18 is a highly conserved major cytosolic phosphoprotein that has been implicated in signal transduction in a wide variety of cell types. Freshly isolated peripheral blood lymphocytes (PBL) constitutively express low levels of mostly unphosphorylated Op18. After mitogenic stimulation of PBL, Op18 synthesis is induced at a time when cells are entering S-phase. In this study, we have examined the phosphorylation of Op18 in freshly isolated PBL after activation of the T cell receptor by OKT3. Quantitative analysis of Op18 phosphorylation was undertaken by metabolic labeling with 32Pi and PhosphorImager analysis of two-dimensional gels. After 10 or 15 min of activation by OKT3, one of the three major phosphorylated forms of Op18, designated Op18c, increased approximately 10-fold, which represented a most pronounced change among a large number of phosphoproteins analyzed. In time course experiments, increased Op18 phosphorylation to yield Op18c was observed as early as 2 min. Continued OKT3-induced activation for 20 to 72 h resulted in a further increase in phosphorylated Op18 forms, which paralleled new Op18 synthesis and occurred at a time when cells were entering S-phase, as determined by [3H]-thymidine incorporation. Inhibitors of lymphoid proliferation, cyclosporin A and RPM, had no effect on early (less than 15 min) phosphorylation. Addition of calphostin C, a specific inhibitor of protein kinase C, 1 min prior to stimulation of resting T cells with OKT3 completely inhibited further phosphorylation of Op18. Incubation of PBL with calphostin C for 75 min decreased constitutive levels of phosphorylated Op18. In contrast, inhibition of cyclic nucleotide-dependent protein kinases with HA1004 had no effect on Op18 phosphorylation. Activation of cAMP-dependent protein kinase with Forskolin or 8Br-cAMP did not increase Op18 phosphorylation. Our results suggest that Op18 phosphorylation is mediated by protein kinase C activation as an early event in T cell activation through the T cell receptor.
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PMID:Activation of resting peripheral blood lymphocytes through the T cell receptor induces rapid phosphorylation of Op18. 150 Jul 12

The role of protein phosphorylation in the formation of secretory vesicles from the trans-Golgi network (TGN) and in the regulation of this process by TGN-associated trimeric G-proteins was investigated, using a previously established and a novel cell-free system derived from the neuroendocrine cell line PC12. In the absence of exogenous activators of trimeric G-proteins, okadaic acid, an inhibitor of protein serine/threonine phosphatase types 1, 2A, and PPX, had no significant effect on secretory vesicle formation as reconstituted in a postnuclear supernatant. However, okadaic acid antagonized the inhibition of secretory vesicle formation which occurred upon activation of trimeric G-proteins by either aluminum fluoride or guanosine 5'-3-O-(thio)-triphosphate (GTP gamma S). Microcystin-LR, a protein phosphatase inhibitor structurally distinct from okadaic acid, also antagonized the trimeric G-protein-mediated inhibition of secretory vesicle formation but, in contrast to okadaic acid, alone was sufficient to stimulate this process. The antagonistic effect of the phosphatase inhibitors was abolished by a broad spectrum protein kinase inhibitor, staurosporine, which alone, however, did not affect vesicle formation. The effect of okadaic acid was promoted by activators of protein kinase C (phorbol myristate acetate) and protein kinase A (cyclic AMP). To investigate the subcellular localization of the phosphoprotein that is involved in the antagonistic effect of protein phosphatase inhibitors, a novel cell-free system was established which reconstitutes the formation of secretory vesicles from TGN membranes supplemented with cytosol. Using this cell-free system, the relevant phosphoprotein was found to reside in the cytosol. In conclusion, our results suggest that serine/threonine protein phosphorylation is not required for secretory vesicle formation from the TGN but modulates, via a cytosolic phosphoprotein, the regulation of this process by TGN-associated trimeric G-proteins.
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PMID:An elevation of cytosolic protein phosphorylation modulates trimeric G-protein regulation of secretory vesicle formation from the trans-Golgi network. 792 71

In this paper it has been shown that increase in intracellular cAMP by epinephrine or its analogue dibutyryl cAMP (Bt2cAMP) abolishes in a dose-dependent manner the protein kinase C (PKC)-mediated respiratory burst in polymorphonuclear leukocytes. The mechanism of inhibition has been shown to involve induction of cytosolic phosphoprotein phosphatase activity specific to cells receiving dual signals (PKC, PKA), as minimum respiratory burst was associated with cells with maximum phosphatase activity. Inclusion of specific PKA inhibitor completely restricted the development of dual signal-induced phosphatase activity in vitro, demonstrating the requirement of multisite phosphorylation of the phosphatase for the development of its activity. Purified phosphatase had a molecular weight of 78,000 and could exert its inhibitory effect on PKC-triggered respiratory burst in permeabilized cells, clearly showing that down-regulation of oxidase activity involved dephosphorylation by the phosphatase. Interaction of the purified phosphatase with eight-fold purified NADPH oxidase as revealed by fluorescence studies further confirmed the role of the phosphatase in the respiratory burst event. Taken together, we have been able to establish that cross-talk between protein kinase C and protein kinase A is essential to 'turn off' generation of reactive oxygen species.
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PMID:Cross-talk between protein kinase C and protein kinase A down-regulates the respiratory burst in polymorphonuclear leukocytes. 838 99

Granulocyte colony-stimulating factor (G-CSF)-induced alteration of phosphoprotein during differentiation of HL-60 cells was studied. From the two-dimensional gel electrophoresis analysis of phosphoproteins, a 45 kD phosphoprotein in the cytosolic fraction of DMSO-pretreated HL-60 cells was rapidly dephosphorylated by the addition of G-CSF. This 45 kD phosphoprotein migrated into four or five spots between 4.5 and 5.5 pI. The dephosphorylation of 45 kD protein was observed within at least 10 min and reached a maximum at 60 min. Phosphoamino acid analysis showed that only serine residue of 45 kD phosphoprotein was phosphorylated, suggesting that G-CSF induced an activation of serine phosphatase. Furthermore, Staurosporine and calphostin C inhibited the phosphorylation of 45 kD protein, suggesting that protein kinase C or its downstream kinase(s) is involved in the phosphorylation of 45 kD protein. These results indicate that G-CSF causes dephosphorylation of a 45 kD cytosolic phosphoprotein which may play a role in signal transduction of G-CSF.
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PMID:Granulocyte colony-stimulating factor-induced dephosphorylation of a 45 kD cytosolic protein in HL-60 cells differentiating into neutrophils. 972 10

p62 is a recently identified ubiquitin-binding, cytosolic phosphoprotein that interacts with several signal transduction molecules including the tyrosine kinase p56(lck) and the protein kinase C-zeta. p62 is therefore suggested to serve an important role in signal transduction in the cell, although the physiological function of p62 remains undefined. Here we demonstrate by transient transfection assays that p62 stimulates the transcription of reporter genes linked to the simian virus 40 (SV40) enhancer. A putative p62-responsive element was localized to the B domain of the distal 72-base pair repeat of the SV40 enhancer. p62 was unable to bind this element in vitro, nor was it able to activate transcription when directly tethered to a promoter, suggesting that p62 stimulates transcription via an indirect mechanism. Stimulation of transcription mediated by p62 was dependent on its amino-terminal region, which is also necessary for interaction with cell surface signaling molecules. These findings indicate that p62 may link extracellular signals directly to transcriptional responses, and identify the SV40 enhancer as a downstream target for signal transduction pathways in which p62 participates.
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PMID:The p56(lck)-interacting protein p62 stimulates transcription via the SV40 enhancer. 1037 30