Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Monocyte chemotactic protein-1 (MCP-1), a specific chemoattractant for monocytes, has been thought to play an important role in the recruitment and accumulation of monocytes within the glomerulus seen in glomerular diseases. This study examined the role of tumor necrosis factor (TNF)-alpha-mediated cellular signal transduction pathways on mesangial cell MCP-1 gene expression and monocyte migration. Incubation of mesangial cells with TNF-alpha stimulated MCP-1 mRNA expression in a dose- and time-dependent manner. Phorbol myristate acetate (PMA), a protein kinase C (PKC) activator, increased MCP-1 message by mesangial cells while depleting PKC decreased MCP-1 gene expression to control levels. Activation of PKC-depleted mesangial cells with PMA but not with TNF-alpha inhibited MCP-1 mRNA expression. Similarly, calphostin C, a PKC inhibitor, failed to inhibit TNF-alpha-induced MCP-1 expression. The incubation of mesangial cells with various protein tyrosine kinase inhibitors (PTK, e.g., herbimycin, tyrphostin, genistein) blocked TNF-alpha-induced MCP-1 mRNA message. Additional experiments examining the role of cAMP on MCP-1 expression indicated that the preincubation of mesangial cells with various cAMP generating substances (pertussis toxin, isoproterenol, dbcAMP) did not induce mesangial cell MCP-1 mRNA transcripts. However, the coincubation of mesangial cells with TNF-alpha and dbcAMP completely inhibited TNF-alpha-induced MCP-1 gene expression. Finally, TNF-alpha-activated mesangial cell media increased monocyte transmigration that could be blocked by neutralizing anti-MCP-1. These studies indicate that TNF-alpha facilitates monocyte transmigration into the glomerulus mediated by the increased expression of MCP-1 by mesangial cells. TNF-alpha-induced mesangial cell MCP-1 expression is regulated by signal transduction pathways involving PTK but not those dependent on PKC or cAMP.
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PMID:Role of tumor necrosis factor-alpha on mesangial cell MCP-1 expression and monocyte migration: mechanisms mediated by signal transduction. 879 1

AP-1 has been shown to behave as a redox-sensitive transcription factor that can be activated by both oxidant and antioxidant stimuli. However, the mechanisms involved in the activation of AP-1 by antioxidants are largely unknown. In this study we show that the structurally unrelated antioxidant agents pyrrolidine dithiocarbamate (PDTC), butylated hydroxyanisole, and Nacetylcysteine activated JNK (c-Jun NH2-terminal kinase) in Jurkat T cells. This activation differed substantially from that mediated by phorbol 12-myristate 13-acetate (PMA) and Ca2+ ionophore or produced by costimulation with antibodies against the T cell receptor-CD3 complex and to CD28. The activation of JNK by classical T cell stimuli was transient, whereas that mediated by PDTC and butylated hydroxyanisole (but not N-acetylcysteine) was sustained. The kinetics of JNK activation correlated with the expression of c-jun which was transient after stimulation with PMA plus ionophore and prolonged in response to PDTC, which also transiently induced c-fos. In addition, JNK activation by PMA plus ionophore was sensitive to inhibitors of signaling pathways involving Ca2+, protein kinase C, and tyrosine phosphorylation, which failed to inhibit the activation mediated by PDTC. Transfection of trans-dominant negative expression vectors of ras and raf, together with AP-1-dependent reporter constructs, as well as Western blot analysis using anti-ERK (extracellular signal-regulated kinase) antibodies, indicated that the Ras/Raf/ERK pathway did not appear to mediate the effect of the antioxidant. However, the combined treatment with PDTC and PMA, two agents that synergize on AP-1 activation, resulted in the persistent phosphorylation of ERK-2. In conclusion, our results identify JNK as a target of antioxidant agents which can be regulated differentially under oxidant and antioxidant conditions.
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PMID:JNK (c-Jun NH2-terminal kinase) is a target for antioxidants in T lymphocytes. 882 87

The features of three distinct protein phosphorylation cascades in mammalian cells are becoming clear. These signalling pathways link receptor-mediated events at the cell surface or intracellular perturbations such as DNA damage to changes in cytoskeletal structure, vesicle transport and altered transcription factor activity. The best known pathway, the Ras-->Raf-->MEK-->ERK cascade [where ERK is extracellular-signal-regulated kinase and MEK is mitogen-activated protein (MAP) kinase/ERK kinase], is typically stimulated strongly by mitogens and growth factors. The other two pathways, stimulated primarily by assorted cytokines, hormones and various forms of stress, predominantly utilize p21 proteins of the Rho family (Rho, Rac and CDC42), although Ras can also participate. Diagnostic of each pathway is the MAP kinase component, which is phosphorylated by a unique dual-specificity kinase on both tyrosine and threonine in one of three motifs (Thr-Glu-Tyr, Thr-Phe-Tyr or Thr-Gly-Tyr), depending upon the pathway. In addition to activating one or more protein phosphorylation cascades, the initiating stimulus may also mobilize a variety of other signalling molecules (e.g. protein kinase C isoforms, phospholipid kinases, G-protein alpha and beta gamma subunits, phospholipases, intracellular Ca2+). These various signals impact to a greater or lesser extent on multiple downstream effectors. Important concepts are that signal transmission often entails the targeted relocation of specific proteins in the cell, and the reversible formation of protein complexes by means of regulated protein phosphorylation. The signalling circuits may be completed by the phosphorylation of upstream effectors by downstream kinases, resulting in a modulation of the signal. Signalling is terminated and the components returned to the ground state largely by dephosphorylation. There is an indeterminant amount of cross-talk among the pathways, and many of the proteins in the pathways belong to families of closely related proteins. The potential for more than one signal to be conveyed down a pathway simultaneously (multiplex signalling) is discussed. The net effect of a given stimulus on the cell is the result of a complex intracellular integration of the intensity and duration of activation of the individual pathways. The specific outcome depends on the particular signalling molecules expressed by the target cells and on the dynamic balance among the pathways.
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PMID:Signal-transducing protein phosphorylation cascades mediated by Ras/Rho proteins in the mammalian cell: the potential for multiplex signalling. 883 13

1. Phosphorylation of caldesmon was assayed in canine colonic circular smooth muscle strips labelled with 32P and stimulated with 10 microM acetylcholine. Caldesmon was isolated by two-dimensional non-equilibrium pH gel electrophoresis. Stimulation with acetylcholine increased caldesmon phosphorylation significantly from a basal level of 0.6 +/- 0.07 to 1.1 +/- 0.15 mol P1 (mol caldesmon)-1 after 2 min. 2. MAP kinase activities were measured in SDS extracts of muscle by a gel reconstitution method using myelin basic protein. Myelin basic protein kinase activities were observed at 38, 44, 50 and 57 kDa by the gel reconstitution method. Endogenous caldesmon kinase activities were also identified by the gel reconstitution method at 38, 44 and 50 kDa. The 38 and 44 kDa kinases comigrated with proteins labelled by anti-ERK1 MAP kinase antibodies on Western blots. Both 38 and 44 kDa MBP kinase activities increased significantly during contractions induced by 10 microM acetylcholine, 0.1 microM neurokinin A and 70 mM potassium. 3. Phorbol dibutyrate (0.1 microM) potentiated activation of MAP kinases and contraction of depolarized muscles while producing a decrease in fura-2 fluorescence ratio. This suggests that protein kinase C activation is coupled to MAP kinase activity in colonic smooth muscle. 4. MAP kinases isolated form muscle homogenates by Mono Q chromatography were assayed using the specific MAP kinase substrate peptide APRTPGGRR. Stimulation of muscles for 2 min with 10 microM acetylcholine activated both ERK1 and ERK2 MAP kinase activities 2-fold. 5. To determine the effects of caldesmon phosphorylation by MAP kinase on the cross-bridge cycle, actin sliding velocity was measured with an in vitro motility assay. Unphosphorylated turkey gizzard caldesmon (3 microM) significantly reduced mean sliding velocity. Phosphorylation of caldesmon with sea star ERK1 MAP kinase reversed the inhibitory effect of caldesmon on sliding velocity. The results are consistent with a protein kinase cascade being activated by contractile agonists in gastrointestinal smooth muscle which activates ERK MAP kinases leading to phosphorylation of caldesmon. Phosphorylation of caldesmon in vivo may reverse inhibitory influences of caldesmon on cross-bridge cycling.
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PMID:Activation of MAP kinases and phosphorylation of caldesmon in canine colonic smooth muscle. 888 69

The purpose of this investigation was to pharmacologically probe the signaling pathways thought to be involved in protein kinase C (PKC)-stimulated superoxide anion (O2-) generation in all-trans retinoic acid-treated human promyelocytic HL-60 cell line (HL-60), targeting PKC, mitogen-activated protein kinase (MAPK), MAPK kinase (MEK), protein serine-threonine phosphatase(s) (PSP), protein tyrosine kinase(s) (PTK) and phosphatase(s) (PTP), secretory phospholipase A2, cyclooxygenase (CO) and 5-lipoxygenase with selected inhibitors. The following agents inhibited phorbol 12-myristate 13-acetate-stimulated O2- generation significantly in the all-trans retinoic acid-treated HL-60 cells (expressed as percentage of control, P < .05): 1) PKC inhibitors: staurosporine (100 nM, 3 +/- 1%); Ro 31-8220 (1 microM, 3 +/- 2%); sphingosine (100 microM, 15 +/- 7%); 2) PSP 1 and 2a inhibitors, okadaic acid (10 microM, 35 +/- 1%); calyculin A (10 microM, 73 +/- 1%); 3) MAPK inhibitor: SB-203580 (100 microM, 62 +/- 1%); 4) PTP inhibitors: phenylarsine oxide (1 microM, 12 +/- 9%); diamide (1 mM, 21 +/- 11%); and 5) secretory phospholipase A2 inhibitors: manoalide (1 microM, 24 +/- 10%); scalaradial (1 microM, 11 +/- 4%). Exogenously added arachidonic acid-stimulated O2- generation in a time- and dose-dependent manner. The following inhibitors enhanced or did not significantly affect phorbol 12-myristate 13-acetate-stimulated O2- generation (expressed as percentage of control): 1) PTK inhibitors: genistein (100 microM, 69 +/- 12%); CGP 53716 (100 microM, 67 +/- 10%); herbimycin A (10 microM, 67.4 +/- 1%); 2) PSP 2b inhibitors: cyclosporin A (30 microM, 71 +/- 5%); FK506 (30 microM, 88 +/- 7%); 3) CO inhibitor: indomethacin (100 microM, 111 +/- 12%); 4) 5-lipoxygenase inhibitor: WY 50,295 (100 microM, 140 +/- 23%); 5) MEK inhibitor: PD98059 (100 microM, 94 +/- 6.7%); and 6) the PTP inhibitor: orthovanadate (100 microM, 131 +/- 25%). Our pharmacological study suggests that, in neutrophil-like HL-60 cells, the signaling pathways leading to PMA-stimulated O2- generation appear to involve PKC, MAPK, phospholipase A2, arachidonic acid, PSP 1 and 2a and PTP. Furthermore, PTK, MEK, CO, 5-lipoxygenase and PSP 2b do not appear to participate in the modulation of PKC-stimulated O2- generation.
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PMID:Pharmacological targeting of signaling pathways in protein kinase C-stimulated superoxide generation in neutrophil-like HL-60 cells: effect of phorbol ester, arachidonic acid and inhibitors of kinase(s), phosphatase(s) and phospholipase A2. 893 Jan 66

Pertussis toxin-insensitive GTP-binding protein was observed to be involved in prostaglandin F2 alpha (PGF2 alpha)-induced phosphoinositide metabolism in Chinese hamster ovary (CHO) cells transfected with PGF2 alpha receptor cDNA (CHO-PGF2 alpha R cells) (Ito, S. et al. Biochem. Biophys. Res. Commun. 200: 756,1994). In the present study, we investigated PGF2 alpha-induced PLD activation in CHO-PGF2 alpha R cells. PLD activation was examined by measuring the production of [3H]phosphatidylbutanol ([3H]PBut), a specific product of the PLD-catalyzed transphosphatidylation reaction. PGF2 alpha-induced [3H]PBut formation was concentration-dependent with the maximal level obtained at 1 microM PGF2 alpha. The maximal [3H]PBut formation was observed at 2 min after addition of PGF2 alpha. Depletion of extracellular Ca2+ with EGTA suppressed PGF2 alpha-induced PLD activation by 50%. PKC inhibitors Ro31-8425 and calphostin C inhibited PGF2 alpha-induced [3H]PBut formation by 50%. PTK inhibitors genistein and herbimycin A failed to inhibit PGF2 alpha-induced PLD activation. A combination of maximal effective concentrations of PGF2 alpha (1 microM) and PMA (100 nM) enhanced PLD activation in an additive manner. Pretreatment of the cells with PMA for 2 h down-regulated PKC alpha and decreased PGF2 alpha-induced PLD activation. These results suggest that PLD activation by PGF2 alpha is mediated by both PKC-dependent and -independent pathways and that PKC alpha is involved in the former pathway.
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PMID:PLD activation in Chinese hamster ovary (CHO) cells transfected with PGF2 alpha receptor cDNA. 893 84

Rat-1 fibroblasts were used to study the role of the sustained activation of extracellular signal-regulated kinase 1 (ERK1) in lysophosphatidic acid (LPA)-stimulated mitogenic signalling. Mitogenic doses of LPA, like serum, stimulated biphasic, sustained, ERK activation that persisted towards the G1/S boundary. The EC50 for LPA-stimulated ERK activation after 10 min, the time of peak response, was 2 orders of magnitude to the left of that for the sustained response after 3 h or that for DNA synthesis after 22 h, with the result that non-mitogenic doses stimulated a maximal peak response but no second phase. To complement these studies, we examined the role of different signal pathways in regulating the sustained and acute phases of ERK activation using defined biochemical inhibitors and mimetics. Activation of protein kinase C and Ca2+ fluxes played a minor and transient role in regulation of ERK1 activity by LPA in Rat-1 cells. Sustained ERK1 activation stimulated by LPA was completely inhibited by pertussis toxin, whereas the early peak response was only partly affected; this is correlated with the specific inhibition of LPA-stimulated DNA synthesis by pertussis toxin. The selective tyrosine kinase inhibitor herbimycin A completely inhibited sustained ERK1 activation by LPA but, again, the early phase of the response was only partially inhibited. In addition, low doses of staurosporine inhibited ERK1 activation by LPA. The effects of herbimycin A and staurosporine were selective for the response to LPA but did not affect that to epidermal growth factor. The results suggest a strong correlation between sustained ERK1 activation and DNA synthesis in LPA-stimulated Rat-1 cells. Furthermore, the two discrete phases of ERK activation by LPA are regulated by a combination of at least two different signalling pathways; the sustained activation of ERK1 in Rat-1 cells proceeds via a G1- or Gzero-mediated pathway which may also involve a tyrosine kinase.
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PMID:Kinetic and biochemical correlation between sustained p44ERK1 (44 kDa extracellular signal-regulated kinase 1) activation and lysophosphatidic acid-stimulated DNA synthesis in Rat-1 cells. 894 93

The present study has examined the role of IL-2 and IL-4 in the regulation of different kinase pathways for the generation of alphaCD3-induced activated killer cells, CD3-AK. It has previously been shown that the IL-2 promoted CD3-AK cell response is mediated through a PKC (protein kinase C)-dependent pathway, which is susceptible to PKC inhibitors and resistant to inhibitors of PTK (protein tyrosine kinase), and that IL-4 synergized with IL-2 to induce CD3-AK cells. However, the IL-4-promoted CD3-AK cell response was PKC-independent as assessed by its resistance to PKC inhibitors. These findings suggest a dichotomy in the pathways leading to CD3-AK cell generation. To further determine whether IL-4 mediated a different kinase pathway to activate the T cells, we studied its effect on protein tyrosine phosphorylation. IL-4 up-regulated protein tyrosine phosphorylation in CD3-AK cells in a dose-dependent fashion, and resulted in increased levels of a number of phosphorylated proteins. Of particular note was the increase of tyrosine phosphorylated p56(lck) and p59(fyn) in CD3-AK cells. The changes in global protein tyrosine phosphorylation were correlated with the up-regulation by IL-4 of CD3-AK cell cytolytic activity, and the production of granzyme A. alphaIL-4 specifically blocked all the effects which were induced by IL-4. The PTK inhibitor genistein inhibited the IL-4-augmented cytolytic activity of CD3-AK cells as well as the IL-4-induced augmentation of protein tyrosine phosphorylation to the basal level of CD3-AK cells cultured in IL-2 alone. Consistent with a dichotomy in pathways for IL-2- and IL-4-mediated CD3-AK generation, genistein had no effect on the generation of CD3-AK cells cultured in IL-2 alone. Thus while PKC is primarily involved in the generation of IL-2-promoted CD3-AK cells, PTK appears to be required for the regulation of IL-4-promoted CD3-AK response.
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PMID:IL-2 and IL-4 mediate through two distinct kinase pathways for the activation of alphaCD3-induced activated killer cells. 895 13

Mechanisms of neutrophil activation in response to chemoattractants remain incompletely understood. We have recently reported a Ras-mediated c-Raf pathway leading to the activation of mitogen-activated protein (MAP) kinase in human neutrophils stimulated with the chemoattractant formyl-Met-Leu-Phe (FMLP). However, concern that Raf activation may not fully account for the early FMLP-mediated human neutrophil responses prompted us to investigate the activation of MAP kinase/ERK kinase (MEK) by MEK kinase (MEKK). In cell lysates we identified protein species at 180, 160, 110, 72, and 54 kDa with a monoclonal antibody to MEKK. Activation of MEKK was determined on immunoprecipitates from FMLP-stimulated neutrophils by in vitro kinase assay, which utilized both MEK1 and MEK2 as substrates. It was rapid, detectable at 30 s and reaching a plateau at 5 min, and it was inhibited in a dose-dependent fashion by a specific phosphatidylinositol 3-kinase inhibitor, wortmannin. Partial inhibition by pertussis toxin was observed. We were unable to show inhibition of the MEKK response by GF 109203X, a protein kinase C-specific inhibitor. These data indicate that in neutrophils activation of MEKK in addition to Raf may underlie stimulation of MAP kinase and other MAP kinase homologues by FMLP.
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PMID:Activation of MEKK by formyl-methionyl-leucyl-phenylalanine in human neutrophils. Mapping pathways for mitogen-activated protein kinase activation. 896 28

Stimulation of apoptosis induced by 1-(beta-D-arabinofuranosyl)cytosine (AraC) with protein kinase inhibitors (i.e. staurosporine, CGP 41251-a protein kinase C (PKC)-selective staurosporine derivative and protein tyrosine kinase (PKT) inhibitor genistein) was examined in two human multidrug-resistant promyelocytic leukemia (HL-60) cell lines with different cell membrane drug resistance-associated glycoproteins (i.e. HL-60/VCR:MDR1 gene coded Pgp/p170 and HL-60/ADR: MRP gene coded non-Pgp/p190). Staurosporine stimulated AraC-induced apoptosis in the parental drug-sensitive HL-60 cells and both examined multidrug resistant HL-60 sublines. The stimulation of AraC-induced apoptosis by PKC selective inhibitor CGP 412251 and PTK-inhibitor genistein was approximately equal to that of staurosporine in HL-60/ADR cell line. In both parental drug sensitive HL-60 cells and Pgp/p170 positive (MDR1) HL-60/VCR, staurosporine-stimulated AraC-induced apoptosis was higher than that stimulated by the PKC selective CGP 41251 inhibitor, or PTK-inhibitor genistein. These data suggest that the molecular pathway(s) for AraC-induced apoptosis can be activated and stimulated by PKC- and PTK-inhibitors in both examined drug-resistant HL-60 cell lines. Furthermore, these data suggest that although both PKC- and PTK-dependent mechanisms are involved in AraC-induced apoptosis, in the drug-sensitive HL-60 cells and multidrug-resistant HL-60/VCR (Pgp/p170) cells this process is mediated at least partially, also by PKC- and PTK-independent mechanisms, activated by staurosporine.
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PMID:Stimulation of 1-(beta-D-arabinofuranosyl)cytosine (AraC)-induced apoptosis in the multidrug resistant human promyelocytic leukemia cell lines with protein kinase inhibitors. 899 46


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