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: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cryptoporic acids D and E, isolated from the fungus Cryptoporus volvatus, are inhibitors of superoxide anion radical release. Cryptoporic acid E inhibited tumor promotion of okadaic acid in two-stage carcinogenesis experiments on mouse skin, initiated with 7,12-dimethylbenz[a]anthracene. Treatment with cryptoporic acid E using two different doses per application, 1 (1.2 mumol) and 5 mg (5.9 mumol), reduced the percentage of tumor-bearing mice from 73.3 to 53.3% and 20.0%, and the average number of tumors per mouse from 4.2 to 2.3 and 0.5 respectively in week 20 of tumor promotion. However, cryptoporic acid D slightly enhanced tumor promotion rather than inhibition of okadaic acid. Cryptoporic acid D was expected to have additional biochemical activities, such as activation of protein kinases. Cryptoporic acid D at concentrations of up to 100 microM activated protein kinase C and stimulated other protein kinase activity in vitro, whereas cryptoporic acid E did not. These two compounds provided differential effects on tumor promotion of okadaic acid on mouse skin.
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PMID:Differential effects of cryptoporic acids D and E, inhibitors of superoxide anion radical release, on tumor promotion of okadaic acid in mouse skin. 164 82

Alterations in the cAMP signal transduction pathway are associated with mouse lung neoplasia, cAMP effects are mediated by activating cAMP-dependent protein kinase isozymes, PKA I and PKA II. E9, a tumorigenic cell line, exhibited decreased PKA I levels compared to C10 cells, a nontumorigenic cell line of similar epithelial origin. Western immunoblots of PKA subunit proteins demonstrated low concentrations of both the catalytic (C) and regulatory (RI) PKA I subunits. Although RII (regulatory subunit of PKA II) concentrations were similar in both cell lines, RII from E9 cells was more highly phosphorylated than in C10 cells. RII phosphorylation status regulates cAMP activation of PKA II. Northern-blot analysis of mRNA content indicated diminished expression of both C and RI mRNA in E9 relative to C10 cells. Several endogenous PKA substrate proteins present in C10 cells were minimally phosphorylated by PKA in E9 cells. Forskolin, which raises cellular cAMP content, increased phosphorylation of a protein doublet in intact C10 cells, but not in E9 cells. Decreased PKA I expression and alterations in RII phosphorylation in lung neoplasia may contribute to anomalous regulation by cAMP, thereby diminishing cAMP-mediated growth inhibitory effects.
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PMID:Alterations in the cAMP signal transduction pathway in mouse lung tumorigenesis. 164 8

Tumor autocrine motility factor (AMF) has been detected in and purified from serum-free conditioned medium of human HT-1080 fibrosarcoma cells. Under nonreducing conditions, AMF migrates in sodium dodecyl sulfate-polyacrylamide gel electrophoresis as a single band of 55 kDa but under reducing conditions as a band of 64 kDa. Two-dimensional polyacrylamide gel electrophoresis of the purified AMF resolved two groups of polypeptides with isoelectric points of 6.1 and 6.2 (majors), 6.35 and 6.4 (minors). Purified AMF stimulated HT-1080 cell migration in a dose-dependent fashion. The motility stimulation of the fibrosarcoma cells with AMF is associated with the phosphorylation of the AMF receptor, a 78-kDa cell surface glycoprotein (gp78), suggesting protein kinase participation in migratory signal transduction. The gene encoding gp78 was cloned from an HT-1080 fibrosarcoma complementary DNA library. The deduced sequence encodes a polypeptide of 323 amino acids. The nucleotide and predicted amino acid sequence of the gp78 reveals significant homology with the human suppressor/oncogene p53 protein.
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PMID:Purification of human tumor cell autocrine motility factor and molecular cloning of its receptor. 164 92

A growth factor-stimulated protein kinase activity that phosphorylates the epidermal growth factor (EGF) receptor at Thr669 has been described (Countaway, J. L., Northwood, I. C., and Davis, R. J. (1989) J. Biol. Chem. 264, 10828-10835). Anion-exchange chromatography demonstrated that this protein kinase activity was accounted for by two enzymes. The first peak of activity eluted from the column corresponded to the microtubule-associated protein 2 (MAP2) kinase. However, the second peak of activity was found to be a distinct enzyme. We present here the purification of this enzyme from human tumor KB cells by sequential ion-exchange chromatography. The isolated protein kinase was identified as a 46-kDa protein by polyacrylamide gel electrophoresis and silver staining. Gel filtration chromatography demonstrated that the enzyme was functional in a monomeric state. A kinetic analysis of the purified enzyme was performed at 22 degrees C using a synthetic peptide substrate based on the primary sequence of the EGF receptor (KREL VEPLT669PSGEAPNQALLR). The Km(app) for ATP was 40 +/- 5 microM (mean +/- S.D., n = 3). GTP was not found to be a substrate for the purified enzyme. The Km(app) for the synthetic peptide substrate was 260 +/- 40 microM (mean +/- S.D., n = 3). The Vmax(app) for the isolated protein kinase was determined to be 400-900 nmol/mg/min. The purified enzyme was designated EGF receptor Thr669 (ERT) kinase. It is likely that the MAP2 and ERT kinases account for the phosphorylation of the EGF receptor at Thr669 observed in cultured cells. The marked stimulation of protein kinase activity caused by growth factors indicates that these enzymes may have an important function during signal transduction.
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PMID:Isolation and characterization of two growth factor-stimulated protein kinases that phosphorylate the epidermal growth factor receptor at threonine 669. 165 22

A growth factor-stimulated (MAP2-related) protein kinase, ERT, that phosphorylates the epidermal growth factor receptor at Thr669 has been purified from KB human tumor cells by Northwood and co-workers (Northwood, I. C., Gonzalez, F. A., Wartmann, M., Raden, D. L., and Davis, R. J. (1991) J. Biol. Chem. 266, 15266-15276). The ERT protein kinase has a restricted substrate specificity, and the structural determinants employed for substrate recognition by this enzyme have not been defined. As an approach toward understanding the specificity of substrate phosphorylation, we have used an in vitro assay to identify additional substrates for the ERT protein kinase. In this report we describe two novel substrates: (a) the human c-myc protein at Ser62 and (b) the rat c-jun protein at Ser246. Alignment of the primary sequences surrounding the phosphorylation sites located within the epidermal growth factor receptor (Thr669), Myc (Ser62), and Jun (Ser246) demonstrated a marked similarity. The observed consensus sequence was Pro-Leu-Ser/Thr-Pro. We propose that this sequence forms part of a substrate structure that is recognized by the ERT protein kinase.
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PMID:Pro-Leu-Ser/Thr-Pro is a consensus primary sequence for substrate protein phosphorylation. Characterization of the phosphorylation of c-myc and c-jun proteins by an epidermal growth factor receptor threonine 669 protein kinase. 165 23

Numerous studies have indicated that treatment of Leydig cells with gonadotropin results in increased levels of intracellular cAMP, binding of cAMP to and activation of protein kinase A, phosphorylation of proteins, synthesis of new proteins and eventually, stimulation of steroidogenesis. In addition, recent studies have indicated that protein phosphorylation is an indispensable event in the production of steroids in response to hormone stimulation in adrenal cells. Because of the important role of phosphorylation in steroidogenic regulation, we investigated the effects of human chorionic gonadotropin (hCG), dibutyryl cyclic AMP (dbcAMP), forskolin and the phorbol ester, phorbol-12-myristate 13-acetate (PMA) on protein phosphorylation in MA-10 mouse Leydig tumor cells. Cells were stimulated with different steroidogenic compounds in the presence of [32P]orthophosphoric acid for 2 h and phosphoproteins analyzed by two-dimensional polyacrylamide gel-electrophoresis (PAGE). Results demonstrated an increase in the phosphorylation of four proteins (22 kDa, pI 5.9; 24 kDa, pI 6.7 and 30 kDa, pI 6.3 and 6.5) in response to 34 ng/ml hCG, 1 mM dbcAMP and 100 microM forskolin. Conversely, treatment of cells with PMA increased the phosphorylation of only one of these proteins (30 kDa, pI 6.3). At least two of these proteins (30 kDa, pI 6.5 and 6.3) appear to be identical to proteins which we and others have shown to be synthesized in response to trophic hormone stimulation in adrenal, luteal and Leydig cells. In addition, they also appear to be identical to adrenal cell mitochondrial proteins demonstrated to be phosphorylated in response to ACTH. These data indicate that proteins similar to those phosphorylated in adrenal cells in response to ACTH are phosphorylated in hormone stimulated testicular Leydig cells and that these proteins may be involved in steroidogenic regulation.
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PMID:Effect of different steroidogenic stimuli on protein phosphorylation and steroidogenesis in MA-10 mouse Leydig tumor cells. 165 16

The specificity and biochemical basis of inactivation of calmodulin-dependent protein kinase II by alloxan was studied in dispersed rat brain cells and a partially purified kinase preparation from an insulin-secreting tumor-cell line, RINm5f. When mechanically dispersed rat brain cells were incubated with [32P]-phosphate to label endogenous ATP, depolarization with 44 mM KCl produced a significant (P = 0.03) increase in phosphorylation of endogenous synapsin (132 +/- 8% of basal). Pre-treatment of the brain cells with 1.5 mM alloxan reduced depolarization-sensitive synapsin phosphorylation (109 +/- 5%). Phosphopeptide mapping of depolarization-phosphorylated synapsin showed that alloxan pre-treatment reduced phosphorylation specifically at synapsin sites phosphorylated by calmodulin-dependent protein kinase II. The results demonstrate selective inactivation of calmodulin-dependent protein kinase II activity by alloxan in an intact cell system, which may be useful in the study of the Type II kinase in cells and tissues. Using a partially purified kinase preparation from RINm5f cells, alloxan (100 microM) inactivated 76 +/- 1% calmodulin-dependent protein kinase II activity in 5 min at 37 degrees C. Subsequent incubation with dithiothreitol restored most of the activity. 5,5'-Dithiobis (2-nitrobenzoic acid) (I50 = 2.5 microM) also inactivated the kinase. These results suggested that a sulfhydryl group was involved at the inactivation site. Iodoacetamide (1.0 mM) had no inhibitory effect; however, preincubation with iodoacetamide protected the kinase activity from subsequent inactivation by alloxan. Covalent binding of [14C]-alloxan to calmodulin-dependent protein kinase was demonstrated.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biochemical basis for the specificity of alloxan inactivation of calmodulin-dependent protein kinase II. 165 11

We obtained a Ca(2+)-independent but 12-O-tetradecanoyl phorbol ester (TPA).phospholipid-activated protein kinase from rat embryo fibroblast 3Y1 cells by succeeding steps of DEAE-cellulose, H-9 affinity, and hydroxylapatite chromatography. This kinase was separated chromatography. This kinase was separated from a conventional PKC (Type III), by H-9 affinity column chromatography. The major peak from H-9 affinity column was eluted at 0.4 M of arginine and on the following step of hydroxylapatite column chromatography, at the KPO4 concentration of 0.1 M. The enzyme could be stimulated by phospholipids and by the tumor promoter TPA, but did not respond to calcium. The Ca(2+)-independent, phospholipid-activated protein kinase activity was susceptible to the protein kinase C inhibitors H-7 and K252a, but showed a phospholipid dependency and substrate specificity distinct from the conventional types of PKC. This protein kinase did not react with monoclonal antibodies against Types I, II, and III PKC. The activity of this enzyme was specifically reduced by immunoprecipitation, depending on the concentration of the polyclonal antibody, PC-delta, which was raised against a peptide synthesized according to a sequence of rat brain nPKC delta. The enzyme had a Mr of 76,000 as estimated by Western blotting. These results provide evidence for a unique type of Ca(2+)-independent, phospholipid-activated kinase, as expressed in 3Y1 cells.
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PMID:Ca(2+)-independent, phospholipid-activated protein kinase in 3Y1 cells. 165 33

We have previously demonstrated that the exposure of mouse microvascular endothelium (MME) to tumor necrosis factor-alpha (TNF) led to the increased binding of mouse mastocytoma cells (P815) to endothelial monolayers (Bereta et al., in press). In the current study we examined the possible involvement of protein kinases in TNF signal transduction in the endothelial cells. PKA does not appear to play a role in the potentiation of binding by TNF. We found that the TNF-generated signal is inhibited by H-7 and sangivamycin, but not by staurosporine. TNF did not cause translocation of PKC to the cell membrane and its effect could not be completely mimicked by PMA nor by PMA in the presence of calcium-raising agents. Thus, we concluded that the "classical" PKC pathway is not completely responsible for TNF signalling in this system. We also found that staurosporine itself strongly enhanced adhesion of tumor cells to endothelium, utilizing a mechanism distinct from that of TNF. Although the data provide evidence for the role of kinases in the effect of TNF on binding of tumor cells to MME, this role appears to be a complex one.
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PMID:Studies on the role of protein kinases in the TNF-mediated enhancement of murine tumor cell-endothelial cell interactions. 165 14

While a cAMP-dependent protein kinase (protein kinase A) has been suggested to phosphorylate epidermal growth factor (EGF) receptor in vitro, both intrinsic and EGF- or potent phorbol tumor promoter-induced phosphorylation of EGF receptor were found to be depressed in human epidermoid carcinoma A431 cells by prior incubation of the cells with various protein kinase A activators (e.g. cholera toxin, forskolin, cAMP analogues, or a combination of prostaglandin E1 and 3-isobutyl-1-methylxanthine). Protein kinase A activators did not change significantly either the number of EGF receptors or their affinity for EGF. The tryptic phosphopeptide map of EGF receptors from cells treated with cholera toxin alone or cholera toxin followed by EGF revealed unique peptides whose serine phosphorylation was preferentially depressed. However, the catalytic subunit of protein kinase A phosphorylated no threonine and little serine in the EGF receptors in the plasma membranes of isolated A431 cells in vitro, while serine residues in an unidentified 170-kDa membrane protein(s) other than EGF receptor were heavily phosphorylated. Pretreatment of the cells with forskolin blocked 1,2-diacylglycerol induction by EGF; growth inhibition by nanomolar levels of EGF could be partially restored by the presence of forskolin. These results indicate that an increase in intracellular cAMP modulates the EGF receptor signal transduction system by reducing EGF-induced production of diacylglycerol without direct phosphorylation of EGF receptors by protein kinase A in A431 cells.
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PMID:cAMP-mediated modulation of signal transduction of epidermal growth factor (EGF) receptor systems in human epidermoid carcinoma A431 cells. Depression of EGF-dependent diacylglycerol production and EGF receptor phosphorylation. 169 23


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