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)

Previously we demonstrated that C3H10T1/2 murine fibroblasts overexpressing avian c-src exhibit elevated levels of cyclic AMP (cAMP) in response to beta-adrenergic agonists compared with that in control cells and that this enhanced response requires c-src kinase activity (W. A. Bushman, L. K. Wilson, D. K. Luttrell, J. S. Moyers, and S. J. Parsons, Proc. Natl. Acad. Sci. USA 87:7462-7466, 1990). However, it is not yet known which components of the beta-adrenergic receptor pathway, if any, interact with pp60c-src. It has recently been shown that immune complexes of pp60c-src phosphorylate recombinant G alpha proteins in vitro to stoichiometric levels, resulting in alterations of GTP binding and GTPase activity (W. P. Hausdorff, J. A. Pitcher, D. K. Luttrell, M. E. Linder, H. Kurose, S. J. Parsons, M. G. Caron, and R. J. Lefkowitz, Proc. Natl. Acad. Sci. USA 89:5720-5724, 1992), raising the possibility that the Gs alpha protein may be an in vivo target for the interaction with pp60c-src. To further characterize the involvement of pp60c-src in the beta-adrenergic signalling pathway, we have overexpressed, in 10T1/2 cells, pp60c-src containing mutations in several domains which are believed to be important for signalling processes. In this study we show that the sites of phosphorylation by protein kinase C (PKC) (Ser-12 and Ser-48) as well as the SH2 region of pp60c-src are required for the enhanced response of c-src overexpressors to beta-agonist stimulation. Mutation at the site of myristylation (Gly-2) results in a decrease in the enhanced response, while mutation at the site of phosphorylation by cAMP-dependent protein kinase (Ser-17) has no effect. Two-dimensional phosphotryptic analyses indicate that phosphorylation on Ser-12 and Ser-48 in unstimulated cells is associated with the ability of overexpressed pp60c-src to potentiate beta-adrenergic signalling. Cells overexpressing wild-type c-src also exhibit enhanced cAMP accumulation upon treatment with cholera toxin, an effect that is abated in cells overexpressing pp60c-src defective in the kinase or SH2 domains or altered at the sites of phosphorylation by PKC. These studies provide the first evidence for the physiological significance of the pp60c-src sites of PKC phosphorylation. In addition, they show that the SH2, Ser-12/48, and myristylation regions may be important for efficient interaction of pp60c-src with components of the beta-adrenergic pathway. Our data also support the possibility that the Gs alpha protein may be an in vivo target for alteration by pp60c-src.
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PMID:The sites of phosphorylation by protein kinase C and an intact SH2 domain are required for the enhanced response to beta-adrenergic agonists in cells overexpressing c-src. 768 Nov 47

Gq is the heterotrimeric guanine nucleotide-binding protein that activates the beta isoforms of phosphatidyl-inositol-specific phospholipase C (PI-PLC). The Gq alpha-subunit polypeptide (alpha qa) was N-terminally modified by addition of a 9-aa sequence, YPYDVPDYA. Placement of the 9-aa epitope tag at the N terminus allowed expression of functional alpha q polypeptides and selective identification of plasmid-expressed wild-type and mutant G-protein alpha subunits. Mutation of glutamine-209 to leucine in the N-terminally epitope-tagged alpha q (N(epi) alpha qQ209L) inhibited GTPase activity and persistently activated PI-PLC, resulting in high steady-state levels of inositol phosphates. The elevated levels of inositol phosphates resulting from N(epi) alpha qQ209L expression were similar to those obtained with carbachol activation of the M1 muscarinic acetylcholine receptor. The Gq-coupled M1 receptor, which stimulates PI-PLC activity, and phorbol esters, acting via protein kinase C, activate the cytoplasmic mitogen-activated protein kinase in COS cells. However, the constitutive activation of PI-PLC enzymatic activity resulting from expression of GTPase-deficient alpha q was unable to persistently activate this kinase. The results indicate that persistent PI-PLC activation is insufficient to sustain the stimulation of a cytoplasmic serine/threonine protein kinase regulated by Gq-coupled receptor signal-transduction pathways.
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PMID:Epitope-tagged Gq alpha subunits: expression of GTPase-deficient alpha subunits persistently stimulates phosphatidylinositol-specific phospholipase C but not mitogen-activated protein kinase activity regulated by the M1 muscarinic acetylcholine receptor. 768 19

A431 cells, a human epidermoid carcinoma, possess specific [3H]platelet-activating factor (PAF) and [3H]WEB 2086 binding sites indicating the presence of PAF receptors. PAF-stimulated PLC as determined by the increase in inositol phosphate levels. Pretreatment of A431 cells with genistein, a putative tyrosine kinase inhibitor, abolished the ability of PAF to activate PLC, whereas pretreatment with staurosporine, a protein kinase C inhibitor, potentiated the ability of PAF to activate PLC. Pretreatment of A431 cells with phorbol-12-myristate-13-acetate, a protein kinase C activator, blocked PAF-stimulated PLC. Overnight exposure of cells to pertussis toxin (PT) partially blocked the ability of PAF to stimulate PLC. Based on these observations the involvement of PT-sensitive and -insensitive guanine nucleotide-binding protein(s) (G-protein) as well as the role of tyrosine kinase in the activation of PLC by PAF was considered further. PT treatment of A431 cell membranes obliterated PAF-stimulated GTPase and indicated that PT-insensitive membrane-associated G-proteins were not involved in PAF actions. In alpha-toxin permeabilized cells, PT blocked GTP-gamma-S potentiation of PLC activation by PAF, thus suggesting that PT-insensitive G-proteins were not involved in PAF activation of PLC in A431 cells. PAF stimulated tyrosine kinase activity as observed with the increase in radioactivity associated with proteins immunoprecipitated with polyclonal antibodies to phosphotyrosine residues. This increase was blocked by PAF receptor antagonists, CV 6209 and TCV 309, and by pretreatment with genistein. PAF also activated the phosphorylation of pp60c-src and Src associated proteins in A431 cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of guanine nucleotide-binding protein and tyrosine kinase in platelet-activating factor activation of phospholipase C in A431 cells: proposal for dual mechanisms. 768

p120 GAP is a GTPase activating protein for p21 ras. It is a multidomain protein which exhibits sequence similarity with other GTPase-activating proteins, src, pleckstrin and a central portion of the protein kinase C conserved region 2 domain known as CaLB (Ca(2+)-dependent phospholipid-binding). The presence of this CaLB motif has led to the speculation that p120 GAP may be a member of a family of structurally related proteins containing a Ca(2+)-dependent membrane/lipid-binding domain. Here we have studied the in vitro Ca(2+)-dependent phospholipid-binding properties of the isolated proposed CaLB sequence in human GAP and deduce that a phospholipid-binding sequence is indeed located between amino acids 606 and 648. Binding of phosphatidylserine and phosphatidylinositol, but not phosphatidylcholine, within this sequence is Ca(2+)-dependent, with an estimated EC50 for Ca2+ of approx. 1 microM. Using deletion-mutation analysis we have further defined the minimal boundaries for this in vitro phospholipid-binding activity. p120 GAP amino acids 612-643 exhibit full phospholipid-binding activity, but further deletion of either amino acids 612-617 or amino acids 633-648 significantly decreased or abolished phospholipid binding. These studies establish that amino acids 612-643 of p120 GAP indeed constitute a functional CaLB domain and thereby imply a role for Ca2+ in the regulation of p120 GAP association with cellular (membrane) phospholipids.
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PMID:Mutation-deletion analysis of a Ca(2+)-dependent phospholipid binding (CaLB) domain within p120 GAP, a GTPase-activating protein for p21 ras. 773 87

Regulation of phospholipase D (PLD) activation by protein kinase C (PKC) was studied in membranes isolated from human promyelocytic leukemia HL60 cells. The activation of membrane-bound PLD by PKC partially purified from rat brain was most effectively induced with phorbol 12-myristate 13-acetate (PMA) and Ca2+ (1 microM) which caused translocation of PKC to membranes. Ro31-8425, a potent inhibitor of PKC, suppressed the catalytic activity of PKC in a concentration-dependent manner, with complete inhibition at 5 microM. However, the PKC-mediated PLD activation was not affected by Ro31-8425. It was thus suggested that membrane-bound PLD of HL60 cells was activated by PKC translocation but probably via a phosphorylation-independent mechanism. Furthermore, addition by guanosine 5'-3-O-(thio)trisphosphate (GTP gamma S) potentiated the PKC-mediated PLD activation and this potentiating effect was abolished by Rho GTPase dissociation inhibitor (RhoGDI). The suppressed PLD activation by RhoGDI was completely restored by addition of recombinant RhoA. These results indicate that the PKC-mediated PLD activation can be synergistically potentiated by RhoA in HL60 membranes.
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PMID:Activation of membrane-bound phospholipase D by protein kinase C in HL60 cells: synergistic action of a small GTP-binding protein RhoA. 777

Epidermal growth factor (EGF) stimulates adenylyl cyclase in the heart via activation of the stimulatory GTP-binding protein Gs. Therefore, employing peptides corresponding to regions in the cytosolic domain of the EGF receptor, we have investigated the ability of sequences within the EGF receptor to activate Gs. A 13-aa peptide (EGFR-13) corresponding to the juxtamembrane region in the cytosolic domain of the EGF receptor stimulated GTP binding and GTPase activity of Gs. This peptide did not stimulate GTP binding to Gi but increased the GTPase activity of this protein. Additionally, phosphorylation of the protein kinase C site (threonine residue) within EGFR-13 decreased the ability of the peptide to stimulate Gs and increase GTPase activity of Gi. Further, in functional assays of Gs employing S49 cyc- cell membranes, EGFR-13 increased the ability of Gs to stimulate adenylyl cyclase; phospho-EGFR-13 and a 14-aa peptide corresponding to a sequence in the cytosolic domain of the EGF receptor did not alter the functional activity of Gs. Hence, the juxtamembrane region of the EGF receptor can activate Gs and, by stimulating GTPase activity of Gi, inactivates this latter G protein. Phosphorylation of the threonine residue within this region attenuates the activity of the peptide as a modulator of G-protein function.
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PMID:A region in the cytosolic domain of the epidermal growth factor receptor antithetically regulates the stimulatory and inhibitory guanine nucleotide-binding regulatory proteins of adenylyl cyclase. 789 52

To investigate the G protein and protein kinase C (PKC) systems during the initial state of kappa-opioid tolerance, the low Km GTPase and PKC activities were measured following repeated treatment of rat with the kappa-agonist, U-50,488. In behavioral studies, antinociceptive tolerance to U-50,488 was developed following 7-day treatment with U-50,488. Under these conditions, repeated administration of U-50,488 significantly enhanced the basal low Km GTPase activity in the pons/medulla but not in the cortex and midbrain regions. On the other hand, repeated U-50,488 treatment had no effect on PKC activity in cytosol and membrane fractions under the calcium-chelating conditions. These results indicate that repeated administration of kappa-agonist, U-50,488, increases in the basal hydrolysis of GTP to GDP in rat pons/medulla but not PKC activity which was observed in the case of repeated administration with morphine in rats.
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PMID:Enhancement of the rate of GTP hydrolysis in rat brain by repeated kappa-opioid treatment. 789 76

Expression of the GTPase-deficient G alpha 16 polypeptide G alpha 16Q212L, a member of the Gq family of heterotrimeric G proteins, constitutively activated phospholipase C beta activity in Swiss 3T3 cells. Expression of G alpha 16Q212L appears to persistently stimulte a low level of protein kinase C activity which also increases protein kinase A activity in Swiss 3T3 cells. Growth of G alpha 16Q212L expressing cells was significantly inhibited relative to wild-type Swiss 3T3 cells. Bombesin-stimulated DNA synthesis was completely inhibited in G alpha 16Q212L expressing clones, whereas the growth responses to platelet-derived growth factor (PDGF) and serum were inhibited 50-80% relative to wild-type cells. In addition to the inhibition of cell growth, G alpha 16Q212L expression significantly inhibited the stimulation of protein kinase C, Raf-1, MEK, mitogen-activated protein kinase, phospholipase A2 activity, and Ca2+ mobilization in response to PDGF. In contrast, PDGF receptor activation of phospholipase C gamma, phosphatidylinositol 3-kinase, and Ras GTP loading was similar in wild-type and G alpha 16Q212L expressing clones. PDGF regulation of membrane ruffling and actin fiber assembly, responses mediated in part by phosphatidylinositol 3-kinase, were unaffected in G alpha 16Q212L expressing clones. The growth inhibitory action of G alpha 16Q212L expression in Swiss 3T3 cells is downstream of the initial SH2 domain-encoded signal transduction proteins regulated in response to PDGF receptor autophosphorylation. The findings demonstrate that constitutively activated G alpha 16Q212L persistently activates phospholipase C activity and effectively inhibits a subset of cytoplasmic signal transduction pathways involved in growth factor tyrosine kinase receptor stimulation of cell growth. G16/Gq-regulated signal transduction can acutely stimulate specific response pathways involved in mitogenesis; but persistent activation of G16/Gq-regulated effectors, including phospholipase C beta, inhibit tyrosine kinase-initiated mitogenesis. One role for G16/Gq response systems may be to modulate growth factor receptor signaling.
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PMID:Expression of GTPase-deficient G alpha 16 inhibits Swiss 3T3 cell growth. 802 Dec 43

We have identified, in Xenopus oocyte cytosol, a protein kinase named REKS (Ras-dependent extracellular signal-regulated kinase (ERK)/mitogen-activated protein kinase kinase (MEK) stimulator), which phosphorylates and activates recombinant ERK2 through recombinant MEK in a recombinant GTP gamma S (guanosine 5'-(3-O-thio)triphosphate)-Ras-dependent manner. We show here that this REKS activity is synergistically enhanced by a combination of mammalian recombinant GTP gamma S-KiRas and 14-3-3 protein purified from rat brain. 14-3-3 protein is known to activate tyrosine and tryptophan hydroxylases, to modulate the protein kinase C activity, to stimulate secretion, and to show phospholipase A2 activity per se. 14-3-3 protein did not affect the MEK activity. 14-3-3 protein neither interacted with Ki-Ras nor affected the neurofibromin activity to stimulate the GTPase activity of Ki-Ras under the conditions where the recombinant N-terminal fragment of c-Raf-1 inhibited it. These results suggest that 14-3-3 protein has an additional function in the regulation of the Ras-MEK-ERK cascade pathway through the activation of REKS.
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PMID:Synergistic activation by Ras and 14-3-3 protein of a mitogen-activated protein kinase kinase kinase named Ras-dependent extracellular signal-regulated kinase kinase stimulator. 808 86

T-cell antigen receptor triggering results in activation of protein kinase C and mobilization of calcium. These two signals are necessary and sufficient to activate the T-cell specific transcription factor NF-AT, which cooperates with other transcription factors activated by accessory signals to initiate expression of interleukin 2 and its receptor. The protein kinase C mediated pathway involves activation of ras proteins. In a Jurkat cell model of T-cell activation, treatment with antigen receptor agonists results in induction of expression of a reporter gene under the control of a NF-AT dependent promoter. Overexpression of the ras GTPase activating protein p120GAP in these cells caused a significant inhibition of T-cell antigen receptor mediated induction, suggesting a role for p120GAP in regulation of ras. The inhibition was overcome by expression of a valine-12 mutant ras which lacks GTPase activity.
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PMID:Inhibition of T-cell antigen receptor signaling by overexpression of p120GAP. 812 98

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