EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Site-specific analysis of tyrosine hydroxylase phosphorylation in rat pheochromocytoma led previously to the identification of a novel growth factor-sensitive serine/threonine protein kinase, designated proline-directed protein kinase (PDPK). In this article we describe further the activation, purification, subunit configuration, and biochemical characteristics of this cytoplasmic enzyme system. In human A431 epidermoid carcinoma cells PDPK activity was found to be stimulated by epidermal growth factor in a dose-dependent, time-dependent manner. The PDPK purified from the cytosol of mouse FM3A mammary carcinoma cells exhibited the same chromatographic behavior and biochemical properties as the tyrosine hydroxylase-associated enzyme purified originally from rat pheochromocytoma. The presence of p34cdc2 was ultimately detected in all active fractions of highly purified PDPK by Western blotting and immunoprecipitation; however, it was determined that this catalytic subunit is complexed with a 58-kDa regulatory subunit that is clearly distinct from that of the "growth-associated" M phase-specific histone H1 kinase (i.e. cyclin B). The 58 kDa regulatory subunit of PDPK was identified by direct immunoblotting as a mammalian A-type cyclin. Furthermore, the p58cyclin A subunit of PDPK was found to be phosphorylated on tyrosine residues in vivo and in vitro, the latter of which resulted in a significant increase in PDPK activity. Additional distinctions between this growth factor-sensitive PDPK (p34cdc2-p58cyclin A) and the M phase-specific histone H1 kinase (p34cdc2-p62cyclin B-p13suc1) are identified on the basis of chromatographic behavior, enzyme kinetics, and physicochemical properties. Based on these findings, it is proposed that PDPK represents a unique complex of the p34cdc2 protein kinase which is active in the cytoplasm of proliferative cells, is regulated differently from the M phase-specific histone H1 kinase by phosphorylation reactions, and is modulated selectively by growth factors.
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PMID:Characterization of the cytoplasmic proline-directed protein kinase in proliferative cells and tissues as a heterodimer comprised of p34cdc2 and p58cyclin A. 183 72

The effect of ethanol on receptor-mediated phospholipase C-linked signal transduction processes was investigated in isolated rat hepatocytes. Pretreatment of the cells with ethanol (6-300 mM) markedly inhibited a subsequent stimulation of phospholipase C by vasopressin, angiotensin II, or epidermal growth factor. By contrast, the effects of the alpha 1-adrenergic agonist phenylephrine and of glucagon were not affected by ethanol pretreatment. Ethanol inhibited the agonist-induced decrease in polyphosphoinositides, the formation of inositol phosphates, and the increase in cytosolic free Ca2+ levels, as detected with the intracellular Ca2+ indicator indo-1. The effects of ethanol were concentration dependent and were pronounced at low concentrations of agonists but were not significant at saturating levels. Pretreatment of the cells with the protein kinase C inhibitor H7 partly prevented the inhibition by ethanol of vasopressin-induced phospholipase C activation. By contrast, pretreatment of the cells with (Rp)-adenosine cyclic 3':5'-phosphorothioate [Rp)-cAMP-S), a competitive inhibitor of protein kinase A, potentiated the inhibitory effect of ethanol on the Ca2+ mobilization by vasopressin. (Rp)-cAMP-S similarly potentiated the inhibition of phospholipase C by the protein kinase C-activating phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA). The kinase A inhibitor also made the Ca2+ mobilization by phenylephrine sensitive to ethanol, indicating that the formation of cAMP in the cells played a role in suppressing the sensitivity to ethanol. Pretreatment of the cells with ethanol enhanced the inhibitory effects of TPA on the vasopressin-induced phospholipase C activation at all concentrations of the hormone; however, these synergistic effects were prevented when TPA was added prior to ethanol, a condition that prevents the activation of phospholipase C by ethanol. The data indicate that ethanol causes desensitization of the receptor-mediated phospholipase C secondary to the ethanol-induced activation of phospholipase C and activation of protein kinase C. Ethanol treatment also affects the sensitivity of the phospholipase C system to control by protein kinases A and C. The data indicate that ethanol can affect the control of intracellular signal transduction processes in liver cells under physiologically relevant conditions.
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PMID:Ethanol causes desensitization of receptor-mediated phospholipase C activation in isolated hepatocytes. 184 16

The cellular actions of nerve growth factor (NGF) and epidermal growth factor (EGF) may be mediated by changes in protein phosphorylation. The tyrosine phosphorylation of two predominant proteins of molecular mass 40 and 42 kDa is seen in PC-12 cells treated with NGF or EGF, correlating with activation of a previously identified serine/threonine protein kinase that phosphorylates microtubule-associated protein (MAP). Stimulation of phosphoprotein (pp) 40 and 42 phosphorylation and MAP kinase activity by NGF but not EGF is selectively attenuated by staurosporine and K-252A. Moreover, the time courses of pp40/42 phosphorylation and MAP kinase activation produced by NGF or EGF are identical. Chromatography of lysates from growth factor-treated cells on ion-exchange or hydrophobic-interaction HPLC resolves MAP kinase into two peaks, neither of which precisely coelutes with pp40 or pp42. One of these peaks (II) exhibits no detectable phosphotyrosine. The other peak (I) has some overlap with pp40. However, the activity residing in both peaks is almost completely inhibited after treatment with alkaline phosphatase, suggesting that, at least, serine/threonine phosphorylation is required for the activity of these enzymes. These data indicate that while tyrosine phosphorylation appears to be a critical early event in NGF action, the role of this modification in activation of MAP kinases remains unclear.
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PMID:Nerve growth factor stimulates protein tyrosine phosphorylation in PC-12 pheochromocytoma cells. 184 70

Transformation by activated pp60c-src has been correlated by genetic analysis with the tyrosine phosphorylation of a 120 kilodalton (kDa) protein, p120. We now demonstrate tyrosine phosphorylation of p120 following stimulation of cells by growth factors whose receptors have intrinsic tyrosine-specific protein kinase activity. Stimulation of quiescent NIH3T3 cells with platelet-derived growth factor (PDGF) resulted in the tyrosine phosphorylation of p120 that was maximal by 5 min and returned to background levels by 30 min. p120 was also phosphorylated on tyrosine after addition of colony-stimulating factor 1 (CSF-1) or epidermal growth factor (EGF) to NIH3T3 cells engineered to express high levels of their respective receptors. Two additional src substrates, p110 and p85, were analysed under identical assay conditions. PDGF, CSF-1, and EGF induced only a minimal increase in the tyrosine phosphorylation of p85 and no change in the phosphorylation of p110. Thus, the marked ligand-induced tyrosine phosphorylation of p120 was a property not shared by the other src substrates examined. Immunoblotting with antibodies to p120 and the ras GTPase activating protein, GAP, suggests that p120 and GAP are unrelated. In addition, the amino acid sequences of four cyanogen bromide peptides derived from p120 showed no homology to GAP or to sequences in either the PIR or Swiss-Prot databases. These data suggest that tyrosine phosphorylation of p120 may contribute to both signal transduction through growth factor receptors and pp60src induced transformation.
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PMID:PDGF, CSF-1, and EGF induce tyrosine phosphorylation of p120, a pp60src transformation-associated substrate. 185 49

A nervous system-specific mRNA that is rapidly induced in PC12 cells to a greater extent by nerve growth factor (NGF) than by epidermal growth factor treatment has been cloned. The polypeptide deduced from the nucleic acid sequence of the NGF33.1 cDNA clone contains regions of amino acid sequence identity with that predicted by the cDNA clone VGF, and further analysis suggests that both NGF33.1 and VGF cDNA clones very likely correspond to the same mRNA (VGF). In this report both the nucleic acid sequence that corresponds to VGF mRNA and the polypeptide predicted by the NGF33.1 cDNA clone are presented. Genomic Southern analysis and database comparison did not detect additional sequences with high homology to the VGF gene. Induction of VGF mRNA by depolarization and phorbol 12-myristate 13-acetate treatment was greater than by serum stimulation or protein kinase A pathway activation. These studies suggest that VGF mRNA is induced to the greatest extent by NGF treatment and that VGF is one of the most rapidly regulated neuronal mRNAs identified in PC12 cells.
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PMID:Nucleotide sequence and regulatory studies of VGF, a nervous system-specific mRNA that is rapidly and relatively selectively induced by nerve growth factor. 186 Nov 62

Synthetic peptides have been used to define the consensus amino acid sequence for substrate recognition by the meiosis-activated myelin basic protein (MBP) kinase (p44mpk), which was purified from maturing sea star oocytes. This protein kinase shares many properties with the mitogen-activated microtubule-associated protein-2 kinase (p42mapk) in vertebrates. Recently, Thr-97 in the tryptic fragment KNIVTPRTPPPSQGK of bovine MBP was identified as the major site of phosphorylation by p44mpk (Sanghera, J. S., Aebersold, R., Morrison, H. D., Bures, E. J., and Pelech, S. L. (1990) FEBS Lett. 273, 223-226). Synthetic peptides modeled after this sequence revealed that the presence of a proline residue C-terminal (+1 position) to the phosphorylatable threonine (or serine) residue was critical for recognition by p44mpk. Although not essential, a proline residue located at the -2 position enhanced the Vmax of peptide phosphorylation. Basic, acidic, and non-polar residues were equally tolerated at the -1 position. The presence of an amino acid residue at position -3 also increased peptide phosphorylation. Thus, the optimum consensus sequence for phosphorylation by p44mpk was defined as Pro-X-(Ser/Thr)-Pro, where X is a variable amino acid residue, but ideally not a Pro. Peptides that included this sequence were phosphorylated by p44mpk with Vmax values approaching 1 mumol.min-1.mg-1 and with apparent Km values of approximately 1 mM). Pseudosubstrate peptides in which the phosphorylatable residue was replaced by valine or alanine were weak inhibitors of p44mpk (apparent Ki values of approximately 3 mM). Over 40 distinct protein kinases contain Pro-X-(Ser/Thr)-Pro sequences including the human receptors for insulin and epidermal growth factor, and kinases encoded by the human proto-oncogenes abl, neu, and raf-1, and Schizosaccharomyces pombe cell cycle control genes ran-1 and wee-1. Multiple putative sites were also identified in rat microtubule-associated protein-2, human retinoblastoma protein, human tau protein, and Drosophila myb protein and RNA polymerase II.
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PMID:Definition of a consensus sequence for peptide substrate recognition by p44mpk, the meiosis-activated myelin basic protein kinase. 190 71

The efficiency of efflux of rapidly labeled poly(A)-containing mRNA from isolated rat liver nuclei was found to be modulated by insulin and epidermal growth factor (EGF) in a biphasic but opposite way. At physiological concentrations (10 pM insulin and 1 pM EGF), maximal stimulation of the transport rate by insulin (to 137%) and maximal inhibition by EGF (to 69%) were obtained; at higher concentrations (greater than 100 pM and greater than 10 pM, respectively), the amount of poly(A)-containing mRNA released into the postnuclear supernatant was nearly identical with the level found in untreated nuclei (= 100%). Using mRNA entrapped into closed nuclear envelope (NE) vesicles as a model system, it was found that the modulation of nuclear efflux of mRNA by the two growth factors occurs at the level of translocation through the nuclear pore. The NE nucleoside-triphosphatase (NTPase) activity, which is thought to mediate nucleocytoplasmic transport of at least some mRNAs, responded to insulin and EGF in the same manner as the mRNA transport rate. The increase in NTPase activity caused by insulin and the decrease in NTPase activity caused by EGF were found to be due to changes of the maximal catalytic rate; the Michaelis constant of the enzyme remained almost constant. Investigating the effect of the two growth factors on transport of specific mRNAs, poly(A)-containing actin mRNA was found to display the same alteration in efflux rate as rapidly labeled, total poly(A)-containing mRNA. In contrast, efflux of histone H4 mRNA, which lacks a 3'-poly(A) sequence, decreased in response to insulin and reached minimum levels at the same concentration at which maximum levels of actin mRNA transport rate were obtained. Studying the mechanism of action of insulin and EGF on NE mRNA translocation system, insulin was found to cause an enhancement of NE-associated phosphoprotein phosphatase activity, resulting in a dephosphorylation of the NE poly(A) binding site (= mRNA carrier) and, hence, in a decrease in its affinity to poly(A) [the poly(A) binding affinity of the poly(A)-recognizing mRNA carrier within the envelope is increased after phosphorylation]. EGF, on the other hand, stimulated the protein kinase, which phosphorylates the carrier, and, hence increased the NE poly(A) binding affinity. Because the stage of phosphorylation of the mRNA carrier (which is coupled with the NTPase within the intact NE structure) is inversely correlated with the activity of the NTPase, an enhancement of poly(A)-containing mRNA transport rate by insulin and an inhibition by EGF are observed.
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PMID:Differential effect of insulin and epidermal growth factor on the mRNA translocation system and transport of specific poly(A+) mRNA and poly(A-) mRNA in isolated nuclei. 197 Sep 36

Phorbol ester-induced translocation of the calcium/phospholipid-dependent protein kinase, protein kinase C (PKC), from soluble to particulate cell fractions was inhibited in primary cultures of hepatocytes isolated from rats chronically exposed to the liver tumor promoter phenobarbital (PB). Inhibition of translocation (34%) was significant after a 15-min treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA, 500 nM); an 85% inhibition was observed after 60 min. In contrast, the translocation responses to two non-phorbol ester activators of PKC, ATP (1 mM) and arginine-vasopressin (0.1 microM), were not significantly impaired. Assessment of total PKC specific activity revealed that translocation induced by TPA and the two nonphorbol activators was not associated with PKC degradation in hepatocytes from either control or PB-exposed rats. The defect in TPA-induced translocation was correlated with an impaired down-regulation of the hepatocyte surface receptor for epidermal growth factor in hepatocytes from PB-exposed rats. Chronic exposure to PB did not affect the total content or specific activity of PKC in whole liver, nor did it affect the distribution of PKC activity between soluble and particulate fractions in unstimulated liver or hepatocytes. However, both the diminished epidermal growth factor receptor response and the inhibition of TPA-induced PKC translocation were reversed by withdrawal of PB for 2 to 4 weeks. Hepatocytes isolated from female rats were found to contain a 3- to 4-fold greater PKC specific activity and content than hepatocytes from male rats. However, no sex-related differences were observed in PKC distribution or in the modulation of translocation by chronic PB exposure and withdrawal. Immunoblotting of partially purified liver extracts revealed that the defect in phorbol ester-induced translocation was not caused by altered expression of PKC isozymes. PKC isozymes II and III, but not I, were detected, and their amounts were unaffected by PB exposure, although higher levels were detected in female relative to male livers. These data demonstrate reversible inhibition of phorbol ester-induced PKC activation by the liver tumor promoter, PB, and suggest that PB alters a component of the PKC-signaling pathway other than the expression of PKC isozymes.
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PMID:Reversible and phorbol ester-specific defect of protein kinase C translocation in hepatocytes isolated from phenobarbital-treated rats. 198 78

Raf-1 serine- and threonine-specific protein kinase is transiently activated in cells expressing the epidermal growth factor (EGF) receptor upon treatment with EGF. The stimulated EGF receptor coimmunoprecipitates with Raf-1 kinase and mediates protein kinase C-independent phosphorylation of Raf-1 on serine residues. Hyperphosphorylated Raf-1 has lower mobility on sodium dodecyl sulfate gels and has sixfold-increased activity in immunocomplex kinase assay with histone H1 or Raf-1 sequence-derived peptide as a substrate. Raf-1 activation requires kinase-active EGF receptor; a point mutant lacking tyrosine kinase activity in inactive in Raf-1 coupling and association. It is noteworthy that tyrosine phosphorylation of c-Raf-1 induced by EGF was not detected in these cells. These observations suggest that Raf-1 kinase may act as an important downstream effector of EGF signal transduction.
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PMID:Epidermal growth factor (EGF) stimulates association and kinase activity of Raf-1 with the EGF receptor. 199 Feb 91

In previous work we reported that oxytocin activates phospholipase-C (PLC) and increases prostaglandin E2 (PGE2) release in amnion. Whether either of the consequences of activation of PLC by oxytocin, activation of protein kinase-C (PKC) or increases in intracellular calcium, directly results in the production of PGE2 is unknown. Phorbol esters (PMA) and epidermal growth factor (EGF) are also known to increase PGE2 release from amnion. In some tissues these agents are capable of activating the PLC postreceptor cascade system. This study was undertaken primarily to explore the mechanism of oxytocin-induced PGE2 production in amnion and secondarily to determine whether common aspects of PGE2 production by oxytocin, PMA, and EGF include activation of PLC or subsequent steps in this cascade followed by new mRNA/protein production. Involvement of PLC was assessed by inositol phosphate (IP1) turnover. IP1 turnover was increased by oxytocin (2.99 +/- 0.31-fold; P less than 0.01), but not by EGF or PMA. PMA inhibited oxytocin-provoked IP1 turnover (P less than 0.05). PKC involvement was initially evaluated with two PKC inhibitors, H7 and staurosporine. Each inhibited PGE2 production by oxytocin as well as that by PMA and EGF in a dose-dependent fashion. With H7, the IC50 for all agents was 5 microM; the IC50 for staurosporine was 2 nM for PMA and oxytocin and 5 nM for EGF. Agonist-induced PGE2 production was also assessed in cells in which PKC activity had been tachyphylaxed with a high concentration of PMA (400 ng/mL for 48 h). In such cells oxytocin and PMA no longer stimulated (P less than 0.001) PGE2 production, but EGF-stimulated PGE2 production was only slightly reduced. PKC involvement is, thus, implicated for oxytocin and PMA. Other enzymes that are inhibited by H7 and staurosporine are implicated in the production of PGE2 caused by EGF. Although tachyphylaxed cells produced no PGE2 with oxytocin, oxytocin increased intracellular calcium to levels higher than those seen in control cells (435 +/- 102 vs. 286 +/- 1.2) Actinomycin-D (P less than 0.001) and cycloheximide (P less than 0.05) inhibited PGE2 production caused by oxytocin, PMA, and EGF. PGE2 production by oxytocin in human amnion cells proceeds by activation of PKC, followed by new protein and mRNA production. Further, in cells without PKC, oxytocin-induced calcium transients do not increase PGE2. The ability of EGF to stimulate PGE2 in cells with no PKC activity also establishes that PKC activation is not a common intracellular step in the induction of PGE2 production by all agents.
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PMID:Protein kinase-C activation is required for oxytocin-induced prostaglandin production in human amnion cells. 202 8

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