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:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transcription of several interferon-inducible human genes is also induced by double-stranded RNA. The nature and the mechanism of action of signals generated by interferons and by double-stranded RNA which mediate the induction of these genes are under investigation. Here we report that 2-aminopurine, a known inhibitor of protein kinases, could selectively block this induction process. Induction of mRNAs 561 and 6-16 in HeLaM cells by double-stranded RNA was completely inhibited by 10 mM 2-aminopurine, whereas cellular protein and RNA syntheses as well as the induction of metallothionein mRNA by CdCl2 were unaffected by this inhibitor. In addition, 2-aminopurine blocked the induction of the same two mRNAs and of mRNAs 2-5(A) synthetase, 2A, and 1-8 by alpha interferon and of mRNAs 2A and 1-8 by gamma interferon in HeLaM cells. The observed inhibition was at the level of transcription, and for establishing efficient inhibition, the 2-aminopurine treatment had to begin at early stages of interferon treatment. In GM2767 cells, 2-aminopurine inhibited induction of mRNAs 561 and 6-16 by double-stranded RNA but not by alpha interferon. These results suggest that double-stranded RNA-induced signal 2 is distinct from the interferon-alpha-induced signal 2 (R. K. Tiwari, J. Kusari, and G. C. Sen, EMBO J. 6:3373-3378, 1987) and that 2-aminopurine can block the former but not the latter. Moreover, it appeared that 2-aminopurine could block the production of signal 1 by interferons. This was confirmed by experiments in which we separately tested the effects of 2-aminopurine on signal 1 and signal 2 production by interferons in HeLaM cells. Although no direct experimental evidence is available as yet, our results are consistent with the hypothesis that the functioning of a protein kinase activity may be necessary for transcriptional induction of genes by double-stranded RNA and for gene induction by interferons in those cells in which signal 1 production is needed.
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PMID:Gene induction by interferons and double-stranded RNA: selective inhibition by 2-aminopurine. 246 Jul 41

The possible role of the catalytic subunit of the cAMP-dependent protein kinase in mediating the regulation of prolactin gene transcription has been investigated through the use of a synthetic gene encoding the heat-stable inhibitor of the cAMP-dependent protein kinase. To assess the effects of protein kinase inhibitor expression on cAMP induction of prolactin gene transcription, a marker gene containing the rat prolactin promoter and adjacent 5'-flanking sequences linked to the bacterial chloramphenicol acetyltransferase gene was cotransfected with a protein kinase inhibitor-expression vector. The results demonstrate that the protein kinase inhibitor-expression vector reduced both basal and cAMP-stimulated expression of the cotransfected prolactin-chloramphenicol acetyltransferase gene. A mutant protein kinase inhibitor-expression vector, coding for an inactive inhibitor protein, did not inhibit basal or cAMP-stimulated prolactin gene transcription. Furthermore, the protein kinase inhibitor-expression vector did not inhibit zinc induction of the metallothionein promoter. Analysis of protein kinase activity in transfected cells demonstrated that the protein kinase inhibitor expression vector reduced cAMP-dependent protein kinase activity but did not reduce protein kinase C activity. Nuclease protection experiments confirmed that the effects of the inhibitor vector involved changes in correctly initiated transcripts produced from the prolactin promoter. Surprisingly, the protein kinase inhibitor-expression vector reduced the effects of several different agents including epidermal growth factor, thyrotropin-releasing hormone, phorbol esters, and estrogen on prolactin gene expression to the same extent as it altered cAMP effects.
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PMID:A protein kinase inhibitor gene reduces both basal and multihormone-stimulated prolactin gene transcription. 253 42

PTH activates multiple acute intracellular signals within responsive target cells, but the importance of cAMP vs. other second messenger signals in mediating different biological responses to PTH is not known. To address these questions, we developed a genetic approach to block activation of the cAMP-dependent protein kinase (PK-A) in PTH-responsive cell lines. Clonal rat osteosarcoma cells (UMR 106-01) were stably transfected with REV-I, a plasmid that directs synthesis of a mutant cAMP-resistant form of the type I regulatory subunit of PK-A. In the transfected bone cells, most of the catalytic subunits of PK-A were associated with the mutant regulatory subunit, and activation of PK-A by cAMP was correspondingly inhibited. We have characterized one such mutant (UMR 4-7) that expressed large amounts of mutant mRNA and exhibited inducible blockade of PK-A via the REV-1 metallothionein promoter. In the absence of metallothionein induction, these cells exhibited nearly normal PTH responsiveness, but after REV-1 induction by Zn2+, they were resistant to PTH-induced activation of PK-A and regulation of membrane phospholipid synthesis by both PTH and cAMP analogs. The mutant UMR 4-7 cell provides a model system in which the consequences of cAMP production by PTH or other agonists that activate adenylate cyclase in osteoblasts may be specifically inhibited by brief exposure to Zn2+. Such mutant cell lines will facilitate further investigation of the linkage between early signalling events and subsequent biological responses in the action of PTH and other agonists on target cells in bone.
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PMID:Inhibition of parathyroid hormone responsiveness in clonal osteoblastic cells expressing a mutant form of 3',5'-cyclic adenosine monophosphate-dependent protein kinase. 253 93

We have purified and characterized the 50 kd activator protein 2 (AP-2), another enhancer-binding protein interacting with the human metallothionein IIA (hMT-IIA) gene control region. Purified AP-2 activates transcription in vitro from a hybrid promoter containing hMT-IIA upstream sequences. AP-2 also recognizes control elements of the human growth hormone, c-myc, and H-2Kb genes, and the SV40 and bovine papilloma virus enhancers. Multiple synthetic copies of the hMT-IIA high-affinity AP-2 binding site can act as efficient, cell-type-specific enhancer elements; their activity increases after treatment of cells with phorbol ester or cAMP-elevating agents. In contrast, a synthetic enhancer recognized by factor AP-1 is activated only by phorbol ester. AP-2 appears to mediate transcriptional activation in response to two different signal-transduction pathways, one involving the phorbol-ester- and diacylglycerol-activated protein kinase C, the other involving cAMP-dependent protein kinase A.
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PMID:Transcription factor AP-2 mediates induction by two different signal-transduction pathways: protein kinase C and cAMP. 282 55

The yeast cell division cycle gene CDC6 was isolated by complementation of a temperature-sensitive cdc6 mutant with a genomic library. The amino acid sequence of the 48 kDalton CDC6 gene product, as deduced from DNA sequence data, includes the three consensus peptide motifs involved in guanine nucleotide binding and GTPase activity, a target site for cAMP-dependent protein kinase and a carboxy-terminal domain related to metallothionein sequences. A plasmid-encoded CDC6-beta-galactosidase hybrid protein was located at the plasma membrane by indirect immunofluorescence. Disruption experiments indicate that the CDC6 gene product is essential for mitotic growth.
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PMID:Cloning and characterization of the Saccharomyces cerevisiae CDC6 gene. 306 76

The protein kinase inhibitor 2-aminopurine (2AP) blocks the induction of the human beta-interferon gene by virus or poly(I)-poly(C) at the level of transcription. This inhibition is specific, since 2AP does not inhibit induction of either the hsp70 heat-shock gene by high temperature or the metallothionein gene by cadmium or dexamethasone. However, 2AP does block the induction of the c-fos and c-myc proto-oncogenes by serum growth factors or virus, suggesting that a protein kinase may be involved in the regulation of these genes, as well as of the beta-interferon gene. However, different factors must be required for the induction of these three genes, since they are not coordinately regulated by the same inducers in most of the cell lines examined.
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PMID:2-Aminopurine selectively inhibits the induction of beta-interferon, c-fos, and c-myc gene expression. 328 Dec 58

We have previously reported the cloning of cDNAs coding for two isoforms (termed C alpha and C beta) of the catalytic (C) subunit of cAMP-dependent protein kinase (Uhler, M., Chrivia, J., and McKnight, G. S. (1986) J. Biol. Chem. 261, 15360-15363). We have constructed cDNA expression vectors for the C alpha and C beta proteins using the mouse metallothionein promoter so that mRNA transcripts from the expression vectors are inducible with Zn. In stable transformants of NIH 3T3 and AtT-20 cells, the induction of both C alpha and C beta mRNA with Zn increases the cAMP-dependent as well as the cAMP-independent kinase activity. The C alpha and C beta proteins synthesized from these expression vectors can be detected by Western blot analysis and have slightly different molecular weights as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Interestingly, the levels of RI protein are also shown to increase in cells expressing high levels of the C alpha or C beta subunits although there is no change in RI mRNA. In contrast, the levels of RII protein are not significantly affected by increasing either C alpha or C beta expression in these cell lines. We conclude that cells can compensate for the increased levels of either C alpha or C beta subunits with a corresponding elevation of RI protein implying that both isoforms of C can interact with RI to form a holoenzyme. The relevance of these experimental results to the coordinate regulation of cAMP-dependent protein kinase subunits is discussed.
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PMID:Expression of cDNAs for two isoforms of the catalytic subunit of cAMP-dependent protein kinase. 366 30

We have investigated the ability of a constitutively active Gq-alpha mutant, Q209L-alpha q, to regulate target gene expression. Transient expression in GH3 pituitary cells of a rat proximal prolactin promoter-chloramphenicol acetyltransferase construct (-187)PRL-CAT, was stimulated by co-expression of Q209L alpha q, but not by wild-type alpha q. Q209L-alpha q stimulated expression of constructs driven by promoters for either rat prolactin or growth hormone, but not of a control construct driven by the thymidine kinase promoter. Thus, transcriptional effects of alpha q are specific both for the activated state of this G-alpha subunit and the promoter examined. Since both the prolactin and growth hormone promoters are activated by the pituitary cell-specific transcription factor Pit-1, we examined whether a Pit-1 binding site could direct a response to Q209L-alpha q. Two copies of prolactin promoter Pit-1 binding site 1P conferred upon a heterologous metallothionein promoter a response to Q209L-alpha q, implying an involvement of this site in the transcriptional action of Q209L-alpha q on the prolactin promoter. The phorbol ester activator of protein kinase C, 12-O-tetradecanoylphorbol-13-acetate, stimulated (-187)PRL-CAT activity, but opposed the action of Q209L-alpha q on activity of this PRL-CAT construct. Q209L-alpha q stimulation of (-187)PRL-CAT activity was inhibited by co-expression of a dominant negative Raf mutant, Raf-C4, but not by a point mutant of Raf-C4 with reduced inhibitory properties. These results imply that activated alpha q subunits can stimulate prolactin promoter activity via a pathway that involves a Pit-1 DNA binding site(s), is opposed by protein kinase C, and is mediated by a pathway in which Raf-1 kinase plays a role.
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PMID:Constitutively active Gq-alpha stimulates prolactin promoter activity via a pathway involving Raf activity. 748 29

We have been studying cAMP signaling in L6 myoblasts because of its potential role in regulating the differentiation of these cells into multinucleate myotubes. Previous studies have shown that treatment of L6 myoblasts with cAMP analogs causes an increase in cAMP phosphodiesterase activity. To assess the role of protein kinase A in this cAMP-mediated increase in cAMP phosphodiesterase activity, L6 myoblasts were transfected with a plasmid containing the cDNA for a mutant regulatory subunit of protein kinase A, which functions as a dominant negative inhibitor of this enzyme. The cDNA was under control of the metallothionein promoter in the construct. Induction of the mutant regulatory subunit with Zn2+ decreased cAMP-dependent protein kinase activity by 90%. Zn2+ treatment was also able to completely block the cAMP-mediated increase in phosphodiesterase activity, showing that this effect is mediated by protein kinase A. The activity of the cAMP-induced phosphodiesterase was inhibited by low concentrations of RO 20-1724, showing that it was a member of the type IV low Km cAMP phosphodiesterase family of enzymes. We used the polymerase chain reaction and consensus primers designed to amplify phosphodiesterase sequences to show that L6 myoblasts also contain mRNA for a type IV low Km cAMP phosphodiesterase designated PDE3.1. The levels of this mRNA were increased greatly by treatment with dibutyryl cAMP or forskolin in L6 myoblasts and also in differentiated L6 myotubes. Run-off transcription assays showed that this increase in PDE mRNA was regulated, at least in part, by an increase in the rate of transcription of the PDE3 gene. The induction of PDE3 message by cAMP was blocked when the L6 transfectants were treated with Zn2+ to induce protein kinase A inhibition. Therefore, some of the cAMP-mediated increase in phosphodiesterase activity seen in L6 myoblasts is due to a protein kinase A-mediated increase in PDE3 mRNA. This pathway may serve as a feedback mechanism to modulate the inhibitory effects of cAMP on myogenesis.
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PMID:Protein kinase A regulation of cAMP phosphodiesterase expression in rat skeletal myoblasts. 751 Jun 96

In order to evaluate the importance of cAMP and cAMP-dependent protein kinase (cAMPdPK) in the regulation of chloride efflux via the cystic fibrosis transmembrane conductance regulator (CFTR) chloride channel, Caco-2, human colonic carcinoma cells were transfected with an expression vector encoding a mutant form of regulatory subunit of cAMPdPK under control of the mouse metallothionein 1 promoter. Four stable transformants were isolated that expressed the mutant subunit in a Zn(2+)-inducible manner and exhibited Zn(2+)-inducible inhibition of cAMPdPK activity. The parental and transformed Caco-2 cells were examined for their abilities to regulate chloride efflux in response to various secretagogues using a radioactive iodide-efflux assay. In the transformants, induction of the protein kinase mutation with ZnSO4 markedly decreased chloride efflux in response to forskolin, the 8-(4-chlorophenylthio) analog of cAMP, vasoactive intestinal polypeptide, prostaglandin E2 and isoproterenol, whereas Zn(2+)-treated parental cells remained responsive to these secretagogues. Treatment with carbachol, calcium ionophores or phorbol ester did not acutely affect chloride efflux. Together, these studies indicate that cAMP and cAMPdPK are essential components of secretagogue-regulated chloride channel activity in the Caco-2 cell line. In whole cell patch clamp recordings, induction of the cAMPdPK mutation inhibited anionic conductances indicative of the CFTR chloride channel, whereas purified catalytic subunit of cAMPdPK, added intracellularly, reversed the inhibition. These latter results demonstrate that the CFTR chloride channels in the protein kinase-defective transformants are normal and that the protein kinase mutation specifically affects their regulation, presumably by direct phosphorylation.
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PMID:Effects of mutations in cAMP-dependent protein kinase on chloride efflux in Caco-2 human colonic carcinoma cells. 752 38


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