EC:2.5.1.18 - FACTA Search

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Query: EC:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The addition of phorbol esters to U937 leukemic cells stimulates the phosphorylation of c-Jun on serines 63 and 73. To isolate the protein kinase which stimulates this phosphorylation, we have used heparin-Sepharose chromatography followed by affinity chromatography over glutathione-Sepharose beads bound with a fusion protein of glutathione S-transferase and amino acids 5-89 of c-Jun (GST-c-Jun). Using this procedure we purify a 67-kDa protein which is capable of phosphorylating GST-c-Jun as well as the complete c-Jun protein. By making mutations in serines 63 and 73 and then creating a fusion protein with GST (GST-c-Jun mut), we demonstrate that this protein kinase specifically phosphorylates these sites in the c-Jun amino terminus. Treatment of purified c-Jun amino-terminal protein kinase (cJAT-PK) with phosphatase 2A inhibits its ability to phosphorylate GST-c-Jun. This inactivated enzyme can be reactivated by phosphorylation with protein kinase C (PKC), although PKC is not capable of phosphorylating the GST-c-Jun substrate. Because v-Jun cannot be phosphorylated in vivo, we compared the ability of cJAT-PK to bind to GST-v-Jun or GST-c-Jun mut. The cJAT-PK bound 50-fold better to GST-c-Jun mut than GST-v-Jun suggesting that the delta domain which is missing in v-Jun plays a role in binding the cJAT-PK. These results suggest that there is a protein kinase cascade mediated by protein phosphatases and PKC which regulates c-Jun phosphorylation.
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PMID:Affinity-purified c-Jun amino-terminal protein kinase requires serine/threonine phosphorylation for activity. 132 19

The protein predicted by the sequence of the human pim-1 proto-oncogene shares extensive homology with known serine/threonine protein kinases, and yet the human Pim-1 enzyme has previously been reported to exhibit protein tyrosine kinase activity both in vitro and in vivo. Recently a new class of protein kinases has been identified which exhibits both protein-serine/threonine and protein-tyrosine kinase activities. We therefore investigated the possibility that the human Pim-1 kinase likewise possesses such bifunctional enzymatic phosphorylating activities. A full-length human pim-1 cDNA was subcloned into the bacterial vector pGEX-2T and the Pim-1 protein expressed as a fusion product with bacterial glutathione S-transferase (GST). The hybrid GST-Pim-1 fusion protein was affinity purified on a glutathione-Sepharose column prior to treatment with thrombin for cleavage of the Pim-1 protein from the transferase. Pim-1 was purified and the identity of recombinant protein confirmed by amino-terminal sequence analysis. Pim-1 was tested for kinase activity with a variety of proteins and peptides known to be substrates for either mammalian protein-serine/threonine or protein-tyrosine kinases and was found to phosphorylate serine/threonine residues exclusively in vitro. Both the Pim-1-GST fusion protein and the isolated Pim-1 protein exhibited only serine/threonine phosphorylating activity under all in vitro conditions tested. Pim-1 phosphorylated purified mammalian histone H1 with a Km of approximately 51 microM. Additionally, Pim-1 exhibited low levels of serine/threonine autophosphorylating activity. These observations place the human Pim-1 in a small select group of cytoplasmic transforming oncogenic kinases, including the protein kinase C, the Raf/Mil, and the Mos subfamilies, exhibiting serine/threonine phosphorylating activity.
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PMID:Recombinant human pim-1 protein exhibits serine/threonine kinase activity. 171 13

Different glucokinase isoforms are produced by tissue-specific alternative RNA splicing in the liver and pancreatic islet, the only tissues in which glucokinase activity has been detected. To determine whether differences in protein structure brought about by alternative RNA splicing have an effect on glucose phosphorylating activity, we expressed cDNAs encoding four different hepatic and islet glucokinase isoforms and determined the Km and Vmax of each. When the glucokinase B1 and L1 isoforms were expressed in eukaryotic cells, both high Km glucose phosphorylating activity and immunoreactive protein were detected. However, when the glucokinase B2 and L2 isoforms were expressed, both of which differ by deletion of 17 amino acids in a region between the putative glucose and ATP-binding domains, no high Km glucose phosphorylating activity and much less immunoreactive protein were detected. When the glucokinase B1 and B2 isoforms were expressed in Escherichia coli as fusion proteins with glutathione S-transferase, affinity-purified B1 fusion protein was able to phosphorylate glucose whereas the B2 fusion protein was not, thus indicating that the lack of glucose phosphorylating activity from both the B2 and L2 isoforms is due to lack of intrinsic activity in addition to accumulation of less protein. The Km values of the B1 and L1 isoforms, which differ from each other by 15 amino acids at the NH2 terminus, were similar, but the Vmax of the B1 isoform was 2.8-fold higher than that of the L1 isoform. Mutagenesis of the first two potential initiation codons in the glucokinase B1 cDNA from ATG to GTC (methionine to valine) indicated that the first ATG was crucial for activity and is, therefore, the likely translation initiation codon. Messenger RNAs encoding both the B2 and L2 isoforms of glucokinase were detected in islet and liver by polymerase chain reaction amplification of total cDNA, indicating that mRNAs utilizing this weak alternate splice acceptor site in the fourth exon are normally present in both the liver and islet but as minor components. A regulatory role for weak alternate splice acceptor and donor sites in the glucokinase gene was suggested by examining the expression of the gene in the pituitary and in AtT-20 cells. Interestingly, although glucokinase mRNAs of appropriate sizes were detected in both the AtT-20 cells and rat pituitaries, neither exhibited any detectable high Km glucose phosphorylating activity.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of alternate RNA splicing on glucokinase isoform activities in the pancreatic islet, liver, and pituitary. 201 11

Although the human immunodeficiency virus type 1 (HIV-1) nef gene still has no precisely defined function, in vivo studies have demonstrated that Nef is an important pathogenic determinant of HIV. In order to identify cellular proteins capable of binding to Nef, the HIV-1LAI nef gene product was expressed in the bacterial vector pGEX-2T as a glutathione S-transferase (GST)-Nef fusion protein. Deletion mutants corresponding to 86 and 35 N-terminal residues of the Nef protein were prepared. The GST-Nef constructs were used to identify cellular kinases capable of interacting with Nef. After incubation with a Jurkat cell lysate, the GST-Nef constructs immobilized on glutathione-agarose beads bound to cellular kinase(s) and were phosphorylated at three sites in vitro: one on threonine at position 15, one on serine between residues 1 and 35, and one on threonine between residues 36 and 86. The Nef-phosphorylating activity was inhibited by protein kinase C (PKC)-selective inhibitors. Cell fractionation showed that this Nef-binding kinase was mainly in the membrane-associated fraction. These results suggest that kinase(s) of the PKC family are specifically bound to and phosphorylate Nef in vitro. The interaction of Nef with cellular kinases and its phosphorylation may be important in mediating the effects of Nef in HIV-1 pathogenesis.
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PMID:In vitro binding and phosphorylation of human immunodeficiency virus type 1 Nef protein by serine/threonine protein kinase. 754 Jan 94

Mitogen-activated protein kinase kinase kinase (MEKK1) is a serine-threonine kinase that regulates sequential protein kinase pathways involving stress-activated protein kinases and mitogen-activated protein kinases. MEKK1 is activated in response to growth factor stimulation of cells and by expression of activated Ras. We demonstrate that the kinase domain of MEKK1 (MEKKCOOH) binds to GST-RasV12 in a GTP-dependent manner. Purified bacterially expressed MEKKCOOH binds to GST-RasV12(GTP gamma S) (GTP gamma S is guanosine 5'-3-O-(thio)triphosphate), demonstrating a direct interaction of the two proteins. A Ras effector domain peptide blocks the binding of MEKKCOOH to GST-RasV12(GTP gamma S). MEKKCOOH complexed with GST-RasV12(GTP gamma S) is capable of phosphorylating MEK1. These findings indicate that MEKK1 directly binds Ras.GTP. Thus, Ras interacts with protein kinases of both the Raf and MEKK families.
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PMID:Direct interaction between Ras and the kinase domain of mitogen-activated protein kinase kinase kinase (MEKK1). 774 23

c-Mil is the avian homologue of the mammalian serine/threonine kinase c-Raf-1. c-Mil/Raf is a mediator of signal transduction leading to gene expression via the c-Jun DNA-binding site, AP-1. Here we show that c-Mil immunopurified from MC29-virus-transformed quail fibroblasts phosphorylates c-Jun in vitro near its N terminus (Ser-63 and -73). Furthermore, the viral oncogene product Gag-Mil of the avian wild-type retrovirus MH2 phosphorylates c-Jun in vitro. A contribution by other known kinases phosphorylating c-Jun, such as the mitogen-activated protein kinases (MAPKs) and the c-Jun N-terminal kinases, was excluded by control reactions. c-Raf-1 and c-Jun directly interact in vitro as shown by various immobilized glutathione S-transferase-Raf fusion proteins which specify the cysteine-rich region of c-Mil/Raf as the major N-terminal binding site. An additional minor binding site is located in the C-terminal region. The biological relevance of these results is demonstrated by coimmunoprecipitation of c-Jun and c-Mil from 32P-labeled MC29- and MH2-transformed fibroblasts as well as normal quail embryo fibroblasts, whereby c-Jun was identified by tryptic phosphopeptide analysis. The complexed c-Jun exhibits a decreased electrophoretic mobility corresponding to a more highly phosphorylated state. Cell fractionation analyses indicate that the c-Mil/c-Jun complex is located in the cytoplasm. The data demonstrate that c-Jun can be a direct target of the protein kinase c-Mil/Raf, suggesting an alternative pathway, which leads to c-Jun phosphorylation independent of the MAPKs and MAPK-related proteins.
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PMID:Direct interaction and N-terminal phosphorylation of c-Jun by c-Mil/Raf. 787 94

Extracellular signal-regulated kinase (Erk) (mitogen-activated protein (MAP) kinase) is rapidly activated when neutrophils are stimulated. Several isoforms of MAP/Erk kinase (MEK), a kinase capable of phosphorylating and activating Erk, have been identified, but their distribution and differential roles in leukocytes are unknown. We studied the effect of chemotactic stimulation on MEK-1, using isoform-specific antibodies. MEK-1 was found to be phosphorylated on serine and threonine residues in unstimulated human neutrophils. Stimulation by the chemotactic peptide formyl-methionyl-leucyl-phenylalanine (fMLP) enhanced serine/threonine phosphorylation of MEK-1, while reducing its electrophoretic mobility. MEK-1 activity, measured as autophosphorylation or as phosphorylation of a glutathione S-transferase-Erk fusion protein, was undetectable in unstimulated cells but became evident after treatment with chemoattractant. Phosphorylation and activation of MEK-1 were rapid and transient, peaking after 1-2 min and returning to base line by 10 min. Experiments using electropermeabilized cells indicated that elevation of cytosolic Ca2+ is not required for activation of MEK-1 by fMLP. Moreover, MEK-1 was not stimulated by either platelet-activating factor or thapsigargin, which increase Ca2+ to levels comparable with those attained in chemoattractant-activated cells. In contrast, activation of MEK-1 was induced by phorbol esters, and the stimulatory effect of fMLP was blocked by an antagonist of protein kinase C. Stimulation of MEK-1 was also blocked by concentrations of erbstatin that prevent the fMLP-induced accumulation of tyrosine-phosphorylated proteins. The data suggest that MEK-1 is largely responsible for the activation of Erk in chemoattractant-stimulated neutrophils and that protein kinase C and/or tyrosine kinases mediate this effect, whereas elevated cytosolic Ca2+ is not essential.
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PMID:Chemotactic peptides induce phosphorylation and activation of MEK-1 in human neutrophils. 803 95

Addition of mitogenic growth factors to quiescent cells triggers complex signal transduction cascades that result in the reprogramming of gene expression and entry into the cell cycle. We have found that an oncogenic variant of the c-Raf-1 protein kinase stimulated the expression of promoters containing NF-kappa B binding sites. In situ immunofluorescence analysis revealed elevated nuclear levels of the p65 subunit of NF-kappa B in v-raf-transformed NIH 3T3 cells. Incubation of HeLa cell cytoplasmic extracts with a purified recombinant glutathione S-transferase-raf fusion protein in the presence of ATP released active NF-kappa B that could be detected by electrophoretic gel mobility shift assay. Coincubation of purified recombinant I kappa B and glutathione S-transferase-raf in the presence of ATP resulted in the phosphorylation of I kappa B. Coexpression of GAL4 (activation domain)-I kappa B and GAL4 (DNA-binding domain)-raf fusion proteins in yeast resulted in stimulation of a GAL4-responsive reporter gene, indicating that I kappa B and Raf interact physically in vivo. These results indicate that the Raf-1 kinase functions in signal transduction in part by activating the NF-kappa B transcription factor by phosphorylating I kappa B in the cytoplasmic I kappa B-NF-kappa B complex to release active NF-kappa B.
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PMID:Raf-1 protein kinase activates the NF-kappa B transcription factor by dissociating the cytoplasmic NF-kappa B-I kappa B complex. 841 86

In many cells, stimulation of mitogen-activated protein kinases by both receptor tyrosine kinases and receptors that couple to pertussis toxin-sensitive heterotrimeric G proteins proceed via convergent signaling pathways. Both signals are sensitive to inhibitors of tyrosine protein kinases and require Ras activation via phosphotyrosine-dependent recruitment of Ras guanine nucleotide exchange factors. Receptor tyrosine kinase stimulation mediates ligand-induced receptor autophosphorylation, which creates the initial binding sites for SH2 domain-containing docking proteins. However, the mechanism whereby G protein-coupled receptors mediate the phosphotyrosine-dependent assembly of a mitogenic signaling complex is poorly understood. We have studied the role of Src family nonreceptor tyrosine kinases in G protein-coupled receptor-mediated tyrosine phosphorylation in a transiently transfected COS-7 cell system. Stimulation of Gi-coupled lysophosphatidic acid and alpha2A adrenergic receptors or overexpression of Gbeta1gamma2 subunits leads to tyrosine phosphorylation of the Shc adapter protein, which then associates with tyrosine phosphoproteins of approximately 130 and 180 kDa, as well as Grb2. The 180-kDa Shc-associated tyrosine phosphoprotein band contains both epidermal growth factor (EGF) receptor and p185(neu). 3-5-fold increases in EGF receptor but not p185(neu) tyrosine phosphorylation occur following Gi-coupled receptor stimulation. Inhibition of endogenous Src family kinase activity by cellular expression of a dominant negative kinase-inactive mutant of c-Src inhibits Gbeta1gamma2 subunit-mediated and Gi-coupled receptor-mediated phosphorylation of both EGF receptor and Shc. Expression of Csk, which inactivates Src family kinases by phosphorylating the regulatory carboxyl-terminal tyrosine residue, has the same effect. The Gi-coupled receptor-mediated increase in EGF receptor phosphorylation does not reflect increased EGF receptor autophosphorylation, assayed using an autophosphorylation-specific EGF receptor monoclonal antibody. Lysophosphatidic acid stimulates binding of EGF receptor to a GST fusion protein containing the c-Src SH2 domain, and this too is blocked by Csk expression. These data suggest that Gbetagamma subunit-mediated activation of Src family nonreceptor tyrosine kinases can account for the Gi-coupled receptor-mediated tyrosine phosphorylation events that direct recruitment of the Shc and Grb2 adapter proteins to the membrane.
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PMID:Gbetagamma subunits mediate Src-dependent phosphorylation of the epidermal growth factor receptor. A scaffold for G protein-coupled receptor-mediated Ras activation. 902 Jan 93

The fission yeast gene cdc18(+) is required for entry into S phase and for coupling mitosis to the successful completion of S phase. Cdc18 is a highly unstable protein that is expressed only once per cell cycle at the G1/S boundary. Overexpression of Cdc18 causes a mitotic delay and reinitiation of DNA replication, suggesting that the inactivation of Cdc18 plays a role in preventing rereplication within a given cell cycle. In this paper, we present evidence that Cdc18 is associated with active cyclin-dependent kinase in vivo. We have expressed Cdc18 as a glutathione S-transferase fusion in fission yeast and demonstrated that the fusion protein is functional in vivo. We find that the Cdc18 fusion protein copurifies with a kinase activity capable of phosphorylating histone H1 and Cdc18. The activity was identified by a variety of methods as the cyclin-dependent kinase containing the product of the cdc2(+) gene. The amino terminus of Cdc18 is required for association with cyclin-dependent kinase, but the association does not require the consensus cyclin-dependent kinase phosphorylation sites in this region. Additionally, both G1/S and mitotic forms of cyclin-dependent kinase phosphorylate and interact with Cdc18. These interactions between Cdc18 and cyclin-dependent kinases suggest mechanisms by which cyclin-dependent kinases could activate the initiation of DNA replication and could prevent rereplication.
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PMID:Interaction of the S phase regulator cdc18 with cyclin-dependent kinase in fission yeast. 917 84

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