Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.5.1.18 (glutathione S-transferase)
 22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activation of ERK-1 and -2 by H(2)O(2) in a variety of cell types requires epidermal growth factor receptor (EGFR) phosphorylation. In this study, we investigated the activation of ERK by ONOO(-) in cultured rat lung myofibroblasts. Western blot analysis using anti-phospho-ERK antibodies along with an ERK kinase assay using the phosphorylated heat- and acid-stable protein (PHAS-1) substrate demonstrated that ERK activation peaked within 15 min after ONOO(-) treatment and was maximally activated with 100 micrometer ONOO(-). Activation of ERK by ONOO(-) and H(2)O(2) was blocked by the antioxidant N-acetyl-l-cysteine. Catalase blocked ERK activation by H(2)O(2), but not by ONOO(-), demonstrating that the effect of ONOO(-) was not due to the generation of H(2)O(2). Both H(2)O(2) and ONOO(-) induced phosphorylation of EGFR in Western blot experiments using an anti-phospho-EGFR antibody. However, the EGFR tyrosine kinase inhibitor AG1478 abolished ERK activation by H(2)O(2), but not by ONOO(-). Both H(2)O(2) and ONOO(-) activated Raf-1. However, the Raf inhibitor forskolin blocked ERK activation by H(2)O(2), but not by ONOO(-). The MEK inhibitor PD98059 inhibited ERK activation by both H(2)O(2) and ONOO(-). Moreover, ONOO(-) or H(2)O(2) caused a cytotoxic response of myofibroblasts that was prevented by preincubation with PD98059. In a cell-free kinase assay, ONOO(-) (but not H(2)O(2)) induced autophosphorylation and nitration of a glutathione S-transferase-MEK-1 fusion protein. Collectively, these data indicate that ONOO(-) activates EGFR and Raf-1, but these signaling intermediates are not required for ONOO(-)-induced ERK activation. However, MEK-1 activation is required for ONOO(-)-induced ERK activation in myofibroblasts. In contrast, H(2)O(2)-induced ERK activation is dependent on EGFR activation, which then leads to downstream Raf-1 and MEK-1 activation.
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PMID:Peroxynitrite targets the epidermal growth factor receptor, Raf-1, and MEK independently to activate MAPK. 1080 94

Using immobilized GST-Raf-1 as bait, we have isolated the intermediate filament protein vimentin as a Raf-1-associated protein. Vimentin coimmunoprecipitated and colocalized with Raf-1 in fibroblasts. Vimentin was not a Raf-1 substrate, but was phosphorylated by Raf-1-associated vimentin kinases. We provide evidence for at least two Raf-1-associated vimentin kinases and identified one as casein kinase 2. They are regulated by Raf-1, since the activation status of Raf-1 correlated with the phosphorylation of vimentin. Vimentin phosphorylation by Raf-1 preparations interfered with its polymerization in vitro. A subset of tryptic vimentin phosphopeptides induced by Raf-1 in vitro matched the vimentin phosphopeptides isolated from v-raf-transfected cells labeled with orthophosphoric acid, indicating that Raf-1 also induces vimentin phosphorylation in intact cells. In NIH 3T3 fibroblasts, the selective activation of an estrogen-regulated Raf-1 mutant induced a rearrangement and depolymerization of the reticular vimentin scaffold similar to the changes elicited by serum treatment. The rearrangement of the vimentin network occurred independently of the MEK/ERK pathway. These data identify a new branch point in Raf-1 signaling, which links Raf-1 to changes in the cytoskeletal architecture.
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PMID:The Raf-1 kinase associates with vimentin kinases and regulates the structure of vimentin filaments. 1102 85

Endothelial dysfunction is a major atherogenic proinflammatory event. LDL causes the activation and phenotypic changes of cultured vascular endothelial cells (ECs). We previously reported that LDL activates c-Jun and AP-1 in ECs. In this study, we demonstrated that p38-ATF-2 is activated by LDL in human ECs and that this activation is mediated by Ras. When ECs are incubated with LDL in pathophysiological concentrations, the p38-mediated ATF-2 phosphorylation and ATF-2 transactivation are increased in a time- and dose-dependent manner. To elucidate the upstream mechanism in LDL-activated p38 in ECs, we demonstrate that LDL increases Ras translocation from the cytoplasm to the cellular membrane, with concurrent increases in Ras binding activity to GST-Raf-1. Overexpression of RasN17, a dominant negative mutant of Ras, attenuates the LDL-induced increases in (1) phosphorylation of ATF-2, (2) phosphorylation of c-Jun, (3) AP-1 binding, and (4) AP-1-driven luciferase activity. To study the effect of p38 in the regulation of an LDL targeting gene, we show that a specific p38 inhibitor attenuates LDL-induced E-selectin at the mRNA level. Thus, LDL activates both p38 and JNK signaling pathways through Ras activation, and furthermore, these events may play an important role in LDL-induced endothelial activation.
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PMID:LDL-activated p38 in endothelial cells is mediated by Ras. 1145 45

Raf-1 serine/threonine protein kinase plays an important role in cell survival, proliferation, and migration; however, the specific targets of Raf-1 in diverse cellular processes are not clearly defined. Myosin phosphatase activity is critical to the regulation of cytoskeletal reorganization, cytokinesis, and cell motility. Here, we describe the association of Raf-1 with myosin phosphatase and phosphorylation of the regulatory myosin-binding subunit (MBS) of myosin phosphatase by Raf-1. Treatment of cells with phorbol 12-myristate 13-acetate has been shown to stimulate Raf-1 protein kinase. To determine the effect of enzymatic activation of Raf-1 on MBS phosphorylation, COS-1 cells were transiently transfected with FLAG-tagged full-length Raf-1. A significantly higher phosphorylation of purified glutathione S-transferase-tagged truncated MBS protein (amino acids 654-880) occurred in the presence of FLAG-Raf-1 immunoprecipitated from phorbol 12-myristate 13-acetate-treated cells compared with untreated cells ( approximately 3.0-fold). Using a sequential kinase-phosphatase assay and phosphorylated myosin light chain as substrate in the phosphatase reaction, we showed that Raf-1-associated protein phosphatase-specific activity was inhibited (relative phosphatase activity without and with adenosine 5'-O-(3-thiotriphosphate): 100 and approximately 30%, respectively). Previously, ionizing radiation has been shown to activate Raf-1 (Kasid, U., Suy, S., Dent, P., Ray, S., Whiteside, T. L., and Sturgill, T. W. (1996) Nature 382, 813-816). Exposure of cells to ionizing radiation resulted in the increased association of Raf-1 with MBS (3-6-fold versus unirradiated control) and inhibition of Raf-1-associated protein phosphatase-specific activity (relative phosphatase activity without and with ionizing radiation: 100 and approximately 54%, respectively). Our studies identify MBS as a new substrate of Raf-1 and implicate a role for Raf-1 in the regulation of pathways involving myosin phosphatase activity.
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PMID:Phosphorylation of the myosin-binding subunit of myosin phosphatase by Raf-1 and inhibition of phosphatase activity. 1171 7

Extracellular signal-regulated kinase (ERK) activation pathways have been well characterized in a number of cell types but very few data are available for platelets. The thrombin-induced signaling pathway leading to ERK2 activation in platelets is largely uncharacterized. In this study, we investigated the kinases involved in thrombin-induced ERK2 activation in conditions of maximal ERK2 activation. We found that thrombin-induced mitogen-activated protein kinase/ERK kinase (MEK)1/2 activation was necessary for ERK2 phosphorylation. We obtained strong evidence that conventional protein kinase Cs (PKCs) and calcium are involved in thrombin-induced ERK2 activation. First, ERK2 and MEK1/2 phosphorylation was totally inhibited by low concentrations (1 microM) of RO318425, a specific inhibitor of conventional PKCs. Second, Ca(2+), from either intracellular pools or the extracellular medium, was necessary for ERK2 activation and conventional PKC activation, excluding the involvement of a new class of calcium-insensitive PKCs. Third, LY294002 and wortmannin had no significant effect on ERK2 activation, even at concentrations that inhibit phosphatidylinositol (PI)3-kinase (5 microM to 25 microM and 50 nM, respectively). This suggests that PI3-kinase was not necessary for ERK2 activation and therefore, that PI3-kinase-dependent atypical PKCs were not involved. Surprisingly, in contrast to proliferative cells, we found that the serine/threonine kinases Raf-1 and B-Raf were not an intermediate kinase between conventional PKCs and MEK1/2. After immunoprecipitation of Raf-1 and B-Raf, the basal glutathione S-transferase-MEK1 phosphorylation observed in resting platelets was not upregulated by thrombin and was still observed in the absence of anti-Raf-1 or anti-B-Raf antibodies. In these conditions, the in vitro cascade kinase assay did not detect any MEK activity. Thus in platelets, thrombin-induced ERK2 activation is activated by conventional PKCs independently of Raf-1 and B-Raf activation.
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PMID:Platelet ERK2 activation by thrombin is dependent on calcium and conventional protein kinases C but not Raf-1 or B-Raf. 1243 96

Kinase Suppressor of Ras1 (KSR1) functions as a positive modulator of Ras-dependent signaling either upstream of or parallel to Raf-1, and pharmacologic inactivation of KSR1 may serve as a treatment for Rasdriven malignancies such as pancreatic cancer (Xing, H. R., Cordon-Cardo, C., Deng, X., Tong, W., Campodonico, L., Fuks, Z., and Kolesnick, R. (2003) Nat. Med. 9, 1266-1268). Although some studies demonstrated a requirement for KSR1 kinase activity for its action, others suggested KSR1 acts primarily as a scaffold facilitating assembly of the c-Raf-1/MEK module. We recently established a two-stage in vitro reconstitution assay to measure KSR1 kinase activity (Xing, H. R., Lozano, J., and Kolesnick, R. (2000) J. Biol. Chem. 275, 17276-17280). In this assay, KSR1, immunopurified to apparent homogeneity, never comes in contact with recombinant kinases other than c-Raf-1. In the first assay stage, activated KSR1 is incubated with recombinant c-Raf-1 and ATP. In the second stage, activated c-Raf-1 is separated from KSR1, and incubated with unactivated MEK1, unactivated MAPK, Elk-1, and ATP. Elk-1 phosphorylation serves as a specific readout for MAPK activation. However, because KSR1 constitutively associates with MEK1 and this interaction appears critical for KSR1 scaffolding function, it has been argued that the kinase activity detected is an artifact of KSR1-bound MEK1. To address these concerns, we depleted as much as 90% of KSR1-bound MEK1 by high salt washing without altering KSR1 kinase activity. Further, a complete inactivation of KSR1-bound MEK1 by pretreating with the MEK inhibitor PD 98059 prior to the first assay stage did not alter KSR1 kinase activity. In addition, the omission of exogenous recombinant GST-MEK1 from the reaction mixture during the second assay stage abolished Elk-1 phosphorylation confirming KSR1-bound MEK1 does not support MAPK activation in our in vitro assay. Moreover, a kinase-inactive mutant, FLAG-Ki-KSR1(D683A/D700A), which efficiently interacts with endogenous MEK1, lacks kinase activity. These results collectively support our contention that the kinase activity of KSR1 is an intrinsic property of this protein independent of KSR1-bound endogenous MEK.
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PMID:The kinase activity of kinase suppressor of Ras1 (KSR1) is independent of bound MEK. 2427 36

Thromboxane receptor (TP) signaling results in a broad range of cellular responses including kinase activation and subsequent nuclear signaling events involved in cell transformation, proliferation, and cell survival. Proteins that may participate in the early signaling following receptor activation remain to be identified. We found that 14-3-3zeta is a novel protein interacting with TP intracellular loop 3 (i3) by yeast two-hybrid system. This interaction was further confirmed by GST pull-down and co-immunoprecipitation methods. Site-directed mutagenesis studies indicated that Pro-236 of the TP-i3 was involved in the binding to the 14-3-3zeta. Co-immunoprecipitation studies in the same cell lysate by TP antibody showed that TP binds not only with the 14-3-3zeta but also with the Raf-1. Our data also demonstrated that TP receptor activation induced by agonist rapidly recruited 14-3-3zeta and Raf-1 to form a complex with the TP on the plasma membrane. The significance of assembling this protein complex was examined by TP agonist-induced extracellular-signal-regulated kinase (ERK) phosphorylation in intact cells. TP agonist, I-BOP, induced ERK phosphorylation in HEK 293 cells expressing wild type TPalpha but significantly lower in those expressing TPalpha-P236V mutant. Attenuation of the expression of 14-3-3zeta by 14-3-3zeta siRNA decreased I-BOP-induced ERK phosphorylation indicating the involvement of the 14-3-3zeta in the signal transduction process. These results suggest that 14-3-3zeta may serve as a scaffold protein to form a protein complex consisting of TP, 14-3-3zeta, and Raf-1, and that this protein complex may be involved in the activation of ERK pathway following TP receptor activation.
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PMID:14-3-3zeta interacts with human thromboxane receptors and is involved in the agonist-induced activation of the extracellular-signal-regulated kinase. 1641 28

Angiotensin II plays a role in both liver cell proliferation and liver injury but the effects of ethanol on angiotensin II signaling in liver are not clearly understood. We have investigated the role of Ras in ethanol modulation of p42/p44 mitogen-activated protein kinase (MAPK) stimulated by angiotensin II (Ang II) in primary cultures of rat hepatocytes. Hepatocytes were incubated with ethanol (100 mM) for 24 h, then stimulated with Ang II (100 nM). The level of p42/p44 MAPK phosphorylation was measured by Western blot analysis and Ras activation was assessed by specific binding of Ras-GTP (activated form) to a GST-RBD fusion protein containing Ras-binding domain (RBD) of Raf-1. Ethanol potentiated p42/p44 MAPK activation by Ang II, whereas ethanol alone did not significantly affect phosphorylation of p42/p44 MAPK. Ang II increased Ras activity by about 2 fold. Ethanol exposure increased Ang II stimulated Ras activity by an additional about 2 fold. Ethanol alone elicited a small increase in basal Ras activity. Pretreatment with manumycin A (10 microM), a Ras farnesylation inhibitor, partially blocked both Ang II-activated and ethanol-potentiated MAPK activities. These data provided the first evidence that ethanol potentiation of Ang II stimulated p42/p44 MAPK is mediated, in part, by Ras in hepatocytes.
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PMID:Role of Ras in ethanol modulation of angiotensin II activated p42/p44 MAP kinase in rat hepatocytes. 1695 Apr 9

The Ras/RAF/MEK/ERK pathway is an essential signaling cascade for various refractory cancers, such as those with mutant KRAS (mKRAS) and BRAF (mBRAF). However, there are unsolved ambiguities underlying mechanisms for this growth signaling thereby creating therapeutic complications. This study shows that a vital component of the pathway CRAF is directly impacted by an end product of the cascade, glutathione transferases (GST) P1 (GSTP1), driving a previously unrecognized autocrine cycle that sustains proliferation of mKRAS and mBRAF cancer cells, independent of oncogenic stimuli. The CRAF interaction with GSTP1 occurs at its N-terminal regulatory domain, CR1 motif, resulting in its stabilization, enhanced dimerization, and augmented catalytic activity. Consistent with the autocrine cycle scheme, silencing GSTP1 brought about significant suppression of proliferation of mKRAS and mBRAF cells in vitro and suppressed tumorigenesis of the xenografted mKRAS tumor in vivo. GSTP1 knockout mice showed significantly impaired carcinogenesis of mKRAS colon cancer. Consequently, hindering the autocrine loop by targeting CRAF/GSTP1 interactions should provide innovative therapeutic modalities for these cancers.
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PMID:A CRAF/glutathione-S-transferase P1 complex sustains autocrine growth of cancers with KRAS and BRAF mutations. 3271 31


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