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)

The tegument proteins of human cytomegalovirus are introduced into cells as components of infectious virus. The tegument proteins may affect viral and cellular transcription prior to the synthesis of the immediate-early viral regulatory proteins. The phosphorylated tegument protein of 71 kDa (pp71) is reported to be encoded by the UL82 gene. The UL82 gene products transactivated promoters containing upstream ATF or AP-1 binding sites. In contrast, the phosphorylated tegument protein of 65 kDa (pp65), encoded by the UL83 gene, had no detectable effect on these promoters. Enhancement by UL82 of downstream transcription was directly proportional to the number of upstream ATF sites. Response to UL82 transactivation was abolished by mutation of the ATF site. Mutation in the carboxy-terminal region of UL82 also eliminated transactivation. Even though the major immediate-early promoter of human cytomegalovirus is a strong enhancer-containing promoter, UL82 further enhanced its transcription as much as 20-fold. The mechanism of UL82 enhancement of transcription from viral or cellular promoters is not known, but the enhancement may be mediated by triggering one of the protein kinase signaling pathways, increasing the affinity of ATF or AP-1 for the target sequence, or stabilizing the complex between the eucaryotic transcription factor and the target sequence.
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PMID:Human cytomegalovirus contains a tegument protein that enhances transcription from promoters with upstream ATF and AP-1 cis-acting elements. 131 13

The product of the c-jun proto-oncogene is the major component of the 12-O-tetradecanoyl phorbol 13-acetate (TPA)-inducible transcription factor AP-1. Jun binds to the TPA-responsive elements (TREs) present in a large number of TPA-inducible genes, thereby regulating their expression in response to activation of protein kinase C. Previously we have shown that Jun/AP-1 can also activate cAMP-responsive elements (CREs), indicating the existence of cross-talk in signal transduction at the transcriptional level. Here we show that Jun/AP-1 is activated by the cAMP-dependent protein kinase A (PKA). In transient transfection experiments, TRE activation by Jun is strongly enhanced by co-transfection of the catalytic subunit of PKA or forskolin treatment, although not in all cell types studied. Jun activity can be significantly inhibited by co-transfection of the regulatory subunit of PKA. Furthermore, we show a cell-specific increase in AP-1 binding in response to forskolin treatment. However, since direct phosphorylation of Jun by PKA does not occur, we suggest an indirect activation mechanism.
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PMID:Activation of Jun/AP-1 by protein kinase A. 133 36

The regulation of human corticotropin-releasing hormone (hCRH) gene promoter activity by inducers of cAMP was investigated by transient transfection with a construct containing the hCRH gene promoter fused to the chloramphenicol acetyltransferase gene. Expression of hCRH-chloramphenicol acetyltransferase was strongly enhanced by forskolin in the neuroblastoma SK-N-MC and choriocarcinoma JAR cell lines. Overexpression of the catalytic subunit of protein kinase A dispensed the need for forskolin, and cotransfection of cAMP-responsive element-binding protein cDNAs enhanced forskolin-dependent expression of the hCRH promoter. Progressive 5'-end deletions of the hCRH promoter delineated a cAMP- responsive region between -226 and -164 base pairs. This fragment contained the sequence TGACGTCA at -221 base pairs, consistent with the consensus motif for a CRE. A homologous oligonucleotide responded to cAMP when cloned in either orientation in front of the thymidine kinase promoter. However, the level of constitutive and inductive cAMP expression was dependent on the cell line and on intrinsic properties of the promoter. Mutation of the wild type CRH-CRE sequence into an AP-1 site (TGAGTCA) completely abolished stimulation by cAMP. In contrast, coexpression of the catalytic subunit of protein kinase A dispensed the need for stimulation with forskolin, which showed that the CRH-CRE oligonucleotide served as a functional equivalent of the native CRE element.
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PMID:Identification and characterization of a 3',5'-cyclic adenosine monophosphate-responsive element in the human corticotropin-releasing hormone gene promoter. 148 Jan 79

The recent finding that neurotransmitters and drugs that affect neurotransmission have important influences on gene expression suggests that drug-induced alterations in gene expression may underlie many long-term effects of addictive drugs, for example, dependence and drug-seeking behaviors. These long-term adaptive responses to opiate drugs have been particularly difficult to understand at a mechanistic level. Data presented here indicate that the gene encoding the opioid precursor proenkephalin is highly regulated by neural activity, second-messenger pathways, and PKA. These observations raise the possibility that drugs of abuse (e.g., opiates acting through opiate receptors) may act at the genetic level to modulate the expression of endogenous opiates and that these effects may underlie one component of the brain's long-term adaptive response to exogenous opiates. The transgenic animals described above can be used to investigate opiate drug-induced changes in proenkephalin gene expression, allowing rapid analysis of changes in proenkephalin gene expression in highly restricted populations of neurons in a fashion previously impossible. In addition, by analyzing the effects of specific enhancer mutations on tissue-specific and transsynaptic regulation of proenkephalin expression, transgenic models will permit mechanistic investigations within the intact nervous system that cannot otherwise be undertaken. Investigation of mechanisms underlying this process requires the analysis of intracellular signaling pathways, responsive DNA regulatory elements, and the transcription factors transducing synaptic signals into gene regulation. In the studies described herein, we demonstrate that AP-1 complexes consisting of different Jun proteins differentially regulate proenkephalin transcription at the CRE-2 element. c-Jun constitutively activates proenkephalin transcription, whereas JunD activates in a fashion completely dependent on the activation of second-messenger pathways and the cAMP-dependent PKA. JunB alone has no effect on proenkephalin gene expression, yet this molecule effectively blocks activation mediated by JunD and, hence, may act as a repressor. These data are consistent with a model (figure 4) in which preexisting JunD mediates the rapid cAMP-dependent activation of the proenkephalin enhancer, whereas IEGs such as JunB or c-Fos mediate the protein synthesis-dependent inactivation. Because c-Jun activates proenkephalin transcription constitutively, induction of c-Jun may lead to a further and prolonged activation of proenkephalin gene expression. Hence, the ratio of c-Jun to JunB induction may determine whether proenkephalin is repressed or further activated.
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PMID:Regulation of opioid gene expression: a model to understand neural plasticity. 149 20

c-Jun, a major component of the inducible transcription factor AP-1, is a phosphoprotein. In nonstimulated fibroblasts and epithelial cells, c-Jun is phosphorylated on a cluster of two to three sites abutting its DNA-binding domain. Phosphorylation of these sites inhibits DNA binding, and their dephosphorylation correlates with increased AP-1 activity. We show that two of these sites, Thr-231 and Ser-249, are phosphorylated by casein kinase II (CKII). Substitution of the third site, Ser-243, by Phe interferes with phosphorylation of the inhibitory sites in vivo and by purified CKII in vitro. Microinjection into living cells of synthetic peptides that are specific competitive substrates or inhibitors of CKII results in induction of AP-1 activity and c-Jun expression. Microinjection of CKII suppresses induction of AP-1 by either phorbol ester or an inhibitory peptide. These results suggest that one of the roles of CKII, a major nuclear protein kinase with no known functions, is to attenuate AP-1 activity through phosphorylation of c-Jun.
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PMID:Casein kinase II is a negative regulator of c-Jun DNA binding and AP-1 activity. 142 36

Microinjection of purified calcium phospholipid-dependent protein kinase (C-kinase) resulted in the rapid and transient induction of c-fos in quiescent rat embryo fibroblats. This C-kinase-induced expression of c-fos was prevented by in vivo competition using co-injection of oligonucleotides corresponding to the sequence of either the serum response element (SRE) or the fos AP-1 binding sequence (FAP) adjacent to SRE. This indicates that both these sequences must be involved in the binding/activation of protein factors required for the induction of c-fos by C-kinase. In contrast, the induction of c-fos by serum or by casein kinase II microinjection, which is also inhibited by injection of SRE oligonucleotides, is only delayed and then markedly prolonged by injecting TRE/FAP sequence, demonstrating that the FAP site plays a prominent role in vivo in the down-regulation of the endogenous c-fos gene expression.
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PMID:Role of fos-AP-1 binding sequence (FAP) in the induction of c-fos expression by purified C-kinase and in c-fos down-regulation following serum induction. 154 54

A facile method for isolating genes that encode interacting proteins has been developed with a polypeptide probe that contains an amino-terminal extension with recognition sites for a monoclonal antibody, a specific endopeptidase, and a site-specific protein kinase. This probe, containing the basic region-leucine zipper dimerization motif of c-Fos, was used to screen a complementary DNA library. A complementary DNA that encoded a member of the basic-helix-loop-helix-zipper (bHLH-Zip) family of proteins was isolated. The complementary DNA-encoded polypeptide FIP (Fos interacting protein) bound to oligonucleotide probes that contained DNA binding motifs for other HLH proteins. When cotransfected with c-Fos, FIP stimulated transcription of an AP-1-responsive promoter.
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PMID:Interaction cloning: identification of a helix-loop-helix zipper protein that interacts with c-Fos. 158 69

We have established mutant SaOS-2 cell lines that express a cyclic AMP (cAMP)-resistant phenotype to investigate the regulation and functional importance of orthophosphoric-monoester phosphohydrolase alkaline optimum (ALPase) in the action of parathyroid hormone (PTH). Cells were stably transfected with a plasmid that directs the synthesis of a mutant form of the type I regulatory subunit of protein kinase A (PKA) under the control of the metallothionein promotor. There was no significant difference between parental SaOS-2 cells and the mutant lines in the affinity or number of receptors for 125I-Nle8,18Tyr34bPTH1-34NH2, either in the absence or presence of Zn2+. When cAMP-dependent gene transcription was examined using transient transfection with a somatostatin promoter-chloramphenicol acetyl transferase (CAT) reporter plasmid, CAT activity stimulated by human PTH and dibutyryl cAMP (DBcAMP) was inhibited by greater than 90% in the presence of Zn2+ in the mutant cell lines. In contrast, activation by a phorbol ester of a pentameric collagenase promoter/CAT construct containing five tandem copies of the AP-1 response element (5x-TRE-CAT) was unaffected in Zn(2+)-treated mutant cells. The inhibitory actions of PTH and DBcAMP on ALPase release were blunted by up to 80-90% in the mutant cell lines in the presence of Zn2+; there were no significant differences in the magnitude of inhibitory effects between these agonists. We conclude that the inhibitory action of PTH on ALPase release in SaOS-2 cells is mediated via activation of PKA. These cAMP-resistant cell lines will be especially useful in elucidating signal transduction mechanism(s) for PTH in human osteoblastic cells.
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PMID:Protein kinase A-dependent inhibition of alkaline phosphatase release by SaOS-2 human osteoblastic cells: studies in new mutant cell lines that express a cyclic AMP-resistant phenotype. 166 91

The events in interleukin-6 (IL-6) signal transduction leading to primary response gene activation were analyzed in murine B-cell hybridoma and plasmacytoma cells which require IL-6 for growth. IL-6 stimulation of IL-6-deprived cells resulted in the rapid and transient tyrosine phosphorylation of a 160-kDa cellular protein (p160). This was followed by the highly selective induction of two primary response genes, junB/AP-1 transcription factor and TIS11. junB and TIS11 inductions were unaffected by cycloheximide, suggesting that posttranslational modifications accounted for their activation. Activation of junB and TIS11 transcription required rapid tyrosine kinase activity as well as a different protein kinase activity sensitive to the potent kinase inhibitor, H7, and activated following p160 tyrosine phosphorylation. This H7-sensitive kinase appears to be distinct from any well-characterized protein kinase-second messenger system. On the basis of these findings, we propose that IL-6-induced signal transduction proceeds through a novel protein kinase cascade which activates junB and TIS11 gene transcription.
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PMID:Interleukin-6 signals activating junB and TIS11 gene transcription in a B-cell hybridoma. 170 5

We have examined the regulation of the AP-1 transcription complex in the IL-1-responsive murine T cell thymoma cell line EL-4 6.1 C10. Our results demonstrate that AP-1-mediated gene expression in T cells may be regulated by several signaling pathways and factors, including IL-1, protein kinase C, protein kinase A (PKA), and one or more serine/threonine-specific protein phosphatases. The activation of protein kinase C results in an increase in nuclear AP-1 DNA binding activity, as well as enhanced gene expression. IL-1 and agents that elevate intracellular cAMP levels do not, by themselves, induce AP-1 activation, but they synergize with phorbol esters. IL-1 and forskolin may enhance AP-1 function by different mechanisms, because forskolin enhanced gene expression without producing an increase in nuclear AP-1 DNA binding, whereas IL-1 increased AP-1-binding activity and gene expression. These observations, in conjunction with the lack of a demonstrable effect of IL-1 on cAMP production in EL-4 cells, are consistent with the view that IL-1 enhances AP-1 activation by a pathway that does not directly involve cAMP and PKA. However, the induction of AP-1 activity by IL-1 and phorbol esters is dependent upon the presence of PKA, as evidenced by the loss of AP-1 inducibility in cells transfected with a cDNA encoding protein kinase inhibitor, a specific inhibitor of PKA. The effect of protein kinase inhibitor on AP-1 activation in response to IL-1 and tetradecanoyl-phorbol-13-acetate was reversed in the presence of the serine/threonine protein phosphatase inhibitor okadaic acid. Thus, the level of AP-1 activity in T cells may be determined by the balance between the activities of several serine/threonine protein kinases and phosphatases.
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PMID:Activation of AP-1 by IL-1 and phorbol esters in T cells. Role of protein kinase A and protein phosphatases. 171 7

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