EC:2.7.11.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

We have investigated overlapping activation pathways for two families of stress genes that are expressed in cells exposed to hypoxia. The growth arrest and DNA damage (gadd) genes are induced by DNA damage and irradiation, and their expression is associated with growth arrest. The glucose-regulated proteins (GRPs) are induced by chemical agents that disrupt protein trafficking in the endoplasmic reticulum such as tunicamycin and A23187 and by hypoxia. Here, we demonstrate that the treatment of NIH-3T3 cells with chemical inducers of GRPs results in increased levels of gadd45 and gadd153 mRNA as well as GRP78 mRNA. In addition, hypoxia was also able to increase gadd45, gadd153, and GRP78 mRNA. Therefore the GRP and gadd genes can be activated by similar stimuli (e.g., hypoxia and chemical inducers). However, the mechanisms leading to increased levels of GRP78 and gadd gene mRNA are different and may involve distinct protein kinases. Increased expression of GRPs after treatment with chemical inducers is sensitive to cycloheximide and the protein kinase inhibitors genistein, 2-aminopurine, and H7, whereas the increase in gadd gene mRNA could be blocked by the protein kinase inhibitors H7 and 2-aminopurine but not by genistein or cycloheximide. GRP78 induction occurs by a pathway that requires protein synthesis and is sensitive to genistein, H7, and 2-aminopurine, whereas gadd gene induction is independent of protein synthesis and is inhibited by H7 and 2-aminopurine only.
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PMID:Gadd45 and Gadd153 messenger RNA levels are increased during hypoxia and after exposure of cells to agents which elevate the levels of the glucose-regulated proteins. 161 53

Glucose-stimulated phosphorylation of 64-kDa protein using a greater than 30 kDa fraction of human polymorphonuclear leukocytes in a dose-dependent fashion with 33 microM for maximum stimulation and 1.4 microM for ED50. None of the glucose derivatives and metabolites of glycolysis stimulated phosphorylation, but glucose-1-phosphate, glucose-6-phosphate, fructose-6-phosphate and fructose-1,6-diphosphate inhibited the glucose-stimulated phosphorylation, strongly suggesting phosphorylation by glucose-regulated protein kinase. Cyclic nucleotides and the protein kinase inhibitors H-7, H-8, W-7 and staurosporine did not affect phosphorylation.
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PMID:Glucose-stimulated phosphorylation of the 64-kDa protein of human polymorphonuclear leukocytes in a cell-free system. 216 8

The PRL gene is expressed at a high basal level in rat pituitary tumor GH3 cells, and this basal level enhancement of PRL gene expression is maintained through a Ca2+-calmodulin-dependent mechanism. We have now examined whether the enzyme, DNA topoisomerase II, which has been shown to be phosphorylated by a Ca2+-calmodulin-dependent protein kinase, plays a role in the Ca2+-calmodulin-dependent basal level enhancement of PRL gene expression. The topoisomerase II inhibitor, novobiocin, at concentrations in the range of 35-140 microM, effectively blocked the ability of Ca2+ to increase PRL mRNA levels. Examination of the effects of novobiocin on the levels of protein synthesis, glucose-regulated protein (GRP) 78 mRNA, histone 3 mRNA, and 18S ribosomal RNA indicated that the drug selectivity inhibited PRL gene expression. Two other topoisomerase II inhibitors, m-AMSA and VM26, also diminished the Ca2+-induced levels of PRL mRNA at concentrations (100-400 nM) that did not lower total mRNA levels. We then examined whether topoisomerase II interacted nonrandomly with DNA from the 5' transcribed and 5'-flanking region of the rat PRL gene by in vitro mapping of topoisomerase II DNA cleavage sites. In initial assays with a 10.5 kilobase (kb) PRL genomic DNA fragment containing 3.5 kb of 5'-transcribed DNA and 7 kb of 5'-flanking DNA, we detected 4 major cleavage sites in the following regions: site 1, +1500 to +1600; site 2, +1 to -100; site 3, -1200 to -1300; and site 4, -2900 to -3000.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evidence for a role of topoisomerase II in the Ca2+-dependent basal level expression of the rat prolactin gene. 284 May 67

The 94-kDa glucose-regulated protein (endoplasmin, grp94) is an abundant member of the 90-kDa molecular chaperone family in the endoplasmic reticulum. We have found earlier that the 50% homologous 90-kDa heat shock protein, hsp90, has ATP-binding site(s) and autophosphorylating activity (Csermely, P., and Kahn, C. R. (1991) J. Biol. Chem. 266, 4943-4950). In the present paper we demonstrate that highly purified grp94 is also able to autophosphorylate itself on serine and threonine residues. grp94 can be freed from the co-purifying casein kinase II by concanavalin A affinity chromatography, and its phosphorylation is unaffected by activators and inhibitors of numerous protein kinases known to associate with the homologous hsp90. The autophosphorylation persists in immunoprecipitates and in SDS-polyacrylamide gel-purified and renatured grp94. Autophosphorylation displays a monomolecular kinetics, is activated by micromolar calcium concentrations, has an extreme heat stability, and can utilize both ATP and GTP with relatively high km values of 243 +/- 14 microM and 116 +/- 23 microM, respectively. Sequence analysis of grp94 shows the presence of two ATP-binding sites. The major product of limited proteolysis of grp94 by chymotrypsin or papain is an N-terminal 85-kDa fragment that can bind to ATP-agarose but does not show autophosphorylation. Our data suggest that grp94 has an enzymatic function analogous in many respects to the similar activity of hsp70, hsp90, and grp78 (BiP). Autophosphorylation may participate in/regulate the complex formation of these proteins, so it may be involved in their chaperone function.
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PMID:Autophosphorylation of grp94 (endoplasmin). 789 Jul 76

Cardiac sarcoplasmic reticulum (SR) plays a dominant role in cellular Ca2+ homeostasis by storing and releasing Ca2+. SDS-polyacrylamide gel electrophoresis and Stains All staining reveals that at least six Ca(2+)-binding proteins are contained in cardiac SR vesicles, five of which have now been identified. These five SR proteins comprise a set of high capacity Ca(2+)-binding proteins, localized to the SR lumen, that exhibit properties expected for physiological Ca2+ stores. In this study, we have purified and isolated cDNA clones for the sixth major Stains All blue-staining protein of dog cardiac SR and identified it as GRP94 (glucose-regulated protein, M(r) = 94,000). Previously, this prominent Ca(2+)-binding component has only been described in non-muscle endoplasmic reticulum. Cardiac GRP94 co-sedimented with cardiac SR vesicles and all previously described SR markers and was completely contained within the SR lumen. GRP94, like several other SR Ca(2+)-binding proteins, was a substrate for casein kinase II and was phosphorylated at two or more sites located near the two ends of the molecule. A low level of endogenous casein kinase II activity was found in crude preparations of cardiac SR but did not co-purify with SR vesicles after calcium oxalate loading, suggesting that casein kinase II phosphorylation in vivo occurs at a site other than the SR.
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PMID:GRP94 resides within cardiac sarcoplasmic reticulum vesicles and is phosphorylated by casein kinase II. 811 36

The 94-kDa glucose-regulated protein (GRP94) is a glycoprotein in the endoplasmic reticulum (ER). It has been characterized as a Ca2+-binding protein and a molecular chaperone. In this report we show that highly purified GRP94 exhibits an active Mg2+-dependent serine kinase activity (termed 94-kinase). The 94-kinase can be recovered from ER membrane fractions and is able to phosphorylate both the constitutive and stress-induced forms of GRP94, correlating with their induction kinetics. The 94-kinase activity is distinct from casein kinase II. In contrast to the heat-stable, Ca2+-dependent autophosphorylation activity recently reported for GRP94, the labile 94-kinase activity is inhibited by Ca2+. We determined that the phosphopeptide map of in vitro phosphorylated GRP94 by the 94-kinase resembles that of the in vivo phosphorylated GRP94. Further, the 94-kinase activity can be specifically stimulated by GRP78, a coregulated protein in the ER known to interact with GRP94.
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PMID:Endoplasmic reticulum stress-inducible protein GRP94 is associated with an Mg2+-dependent serine kinase activity modulated by Ca2+ and GRP78/BiP. 900 40

We have demonstrated that treatment with 200 nM okadaic acid (OA) for 1 h followed by a 15-min heat shock (HS) at 45 degrees C (termed OA-->HS treatment) leads to a rapid transactivation of grp78, the gene for the 78-kDa glucose-regulated protein, in 9L rat brain tumor cells. The level of Grp78 mRNA rose 15-fold in 60 min after the combined treatment. Nuclear extracts from cells subjected to OA-->HS treatment, compared to those of treatment with OA or HS alone, exhibited an increased binding activity toward an oligonucleotide probe containing the cAMP-responsive element-like (CRE-like, TGACGTGA) regulatory element in electrophoretic mobility shift assays (EMSA). The binding resulted in the formation of two protein-EMSA probe complexes exhibiting different association and dissociation rates in kinetic studies. The protein factors in the upper band (complex I) and lower band (complex II) were identified as the activating transcription factor-2 (ATF-2) and the CRE binding factor 1 (CREB-1), respectively, by antibody interference assays. In addition, the identity of CREB-1 was confirmed by supershift analysis. The binding activity, as well as the transactivation of the grp78 gene, can be abolished by a 1-h treatment with the cAMP-dependent protein kinase (PKA) inhibitor but not with protein kinase C or Ca2+/calmodulin-dependent protein kinase II inhibitors. Accumulation of steady-state level of ATF-2 was observed and was also modulated by treatment with H-89, a PKA inhibitor. From these results, we conclude that the CRE-like element plays an important role in the rapid transactivation of the grp78 gene and that the PKA signaling pathway is involved. In addition, PKA-mediated transcriptional regulation of grp78 in OA-->HS treatment is through regulation of protein phosphorylation as well as de novo synthesis of ATF-2.
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PMID:Rapid induction of the Grp78 gene by cooperative actions of okadaic acid and heat-shock in 9L rat brain tumor cells--involvement of a cAMP responsive element-like promoter sequence and a protein kinase A signaling pathway. 931 Mar 69

We have determined the genomic sequence of a porcine protein kinase (PPK) gene, including 1,844 bp upstream of the transcription initiation site. The gene spans over 19 kb and consists of 18 exons and 17 introns. The 5' regulatory region contains a characteristic heat shock element in the first intron, a weak heat shock element 1,464 bp upstream of the transcription initiation site, an atypical TATA box, and further consensus sequences typical for eukaryotic promoters such as an SP-1 binding site. Southern blot analysis indicates that PPK exists as a single-copy gene in the porcine haploid genome. The PPK gene is transcribed in all investigated tissues as shown by Northern blotting and reverse transcriptase polymerase chain reaction. Comparison of the protein and cDNA sequences of PPK to other sequences in DNA and protein databases indicates significant homology to a class of heat shock proteins, the glucose-regulated proteins (GRP94). In addition, nucleotide sequences at the 5' terminus of the PPK gene show strong homology to the GRP94 family. Domains highly conserved with human tumor rejection antigen (GP96) or glucose-regulated protein (GRP94) genes are identified within the 5' terminus and the first intron of the PPK gene. These findings suggest that these proteins are either identical or represent a family of closely related proteins.
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PMID:Cloning and characterization of a porcine protein kinase gene and relationship to a class of heat shock proteins. 940 8

We have previously shown that treatment with okadaic acid (OA) followed by heat shock (HS) (termed OA --> HS treatment) leads to rapid transactivation of the 78-kDa glucose-regulated protein gene (grp78) in 9L rat brain tumor cells. A cAMP-responsive element-like (CRE-like, TGACGTGA) promoter sequence and a protein kinase A signaling pathway are involved in this induction, and activation of both CRE binding protein (CREB) and activating transcription factor-2 (ATF-2) is required in the above process. Herein, we report that transactivation of grp78, as well as phosphorylation/activation of ATF-2, can be completely annihilated by SB203580, a highly specific inhibitor of p38 mitogen-activated protein kinase (p38(MAPK)). Activation of p38(MAPK) by OA --> HS is also substantiated by its own phosphorylation as well as the phosphorylation and activation of MAPK activating protein kinase-2 in cells subjected to this treatment. The involvement of p38(MAPK) in the activation of ATF-2, which leads to the transactivation of rat grp78, is confirmed by electrophoretic mobility shift assay using a probe containing the CRE-like sequence as well as by transient transfection assays with a plasmid containing a 710-base pair stretch of the grp78 promoter. Together with our previous studies, these results led us to conclude that phosphorylation/activation of CREB upon OA --> HS treatment is mediated by cAMP-dependent protein kinase, whereas that of ATF-2 is mediated by p38(MAPK). The transcription factors may bind to each other to form heterodimers that in turn transactivate grp78 by binding to the CRE-like element. This suggests that distinct signaling pathways converge on CREB-ATF-2, where each subunit is individually activated by a specific class of protein kinases. This may allow modulation of grp78 transactivation by diverse external stimuli.
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PMID:Involvement of p38 mitogen-activated protein kinase signaling pathway in the rapid induction of the 78-kDa glucose-regulated protein in 9L rat brain tumor cells. 942 27

Overexpression of heat shock protein 70 kDa alters the susceptibility of tumor cells to chemotherapeutic agents. We conducted experiments to study the regulation of expression of heat shock proteins (HSPs) in heat shock-treated T47-D cells, a human breast cancer cell line that expresses estrogen receptors. Cells exposed to heat shock at 44 degreesC displayed increased expression of heat shock protein 72 kDa (HSP-72), glucose-regulated protein 78 kDa (GRP-78), and GRP-94 in a time-dependent manner, as shown by [35S]methionine incorporation and Western blotting experiments. The maximal rate of synthesis occurred between 2 and 4 h after heat shock. Removal of external Ca2+ inhibited the synthesis of the heat shock-induced GRP-78 but not of HSP-72 and GRP-94, whereas treatment of cells with BAPTA (a Ca2+ chelator) inhibited HSP-72 and GRP-78. Treatment with H89 (a protein kinase A inhibitor) blocked the heat shock-induced GRP-78 synthesis, whereas GF-109203X (a protein kinase C inhibitor) attenuated the heat shock-induced HSP-72 synthesis and completely blocked synthesis of GRP-78 but not of GRP-94. These results indicate that protein kinase C is involved in regulation of the heat shock-induced synthesis of HSP-72, whereas PKA and PKC are involved in the regulation of GRP-78 synthesis. Cells overexpressing HSP-72 and GRPs after heat shock displayed resistance against lethal temperature (47 degreesC for 50 min) -induced death, which was diminished after removal of external Ca2+ and treatment with GF-109203X. Heat shock increased intracellular free Ca2+ concentration ([Ca2+]i) in a temperature- and heating duration-dependent fashion, and the increase was inhibited in the absence of external [Ca2+]i and significantly reduced by pretreatment with H89 and GF-109203X. The results suggest that different pathways are involved in the induction of synthesis of HSP-72, GRP-78, and GRP-94 by heat shock. It is highly likely that only HSP-72 and GRP-78 are involved in the process of cytoprotection from the thermal injury.
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PMID:Cytoprotection and regulation of heat shock proteins induced by heat shock in human breast cancer T47-D cells: role of [Ca2+]i and protein kinases. 980 66

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