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 TGACGTCA (CRE) motif required for function by a number of cellular (somatostatin, enkephalin, alpha-human chorionic gonadotropin) and viral (Ad5 E1A-inducible, HTLV-1 TAX-inducible) genes is the site of interaction of multiple sequence-specific complexes. A protocol has been developed for the fractionation and purification of these activities. We report here the purification from HeLa nuclear extracts of a novel 120-kDa polypeptide which by Southwestern blots, gel retardation, and UV cross-linking assays displays CRE-specific binding. The CRE-affinity purified 120-kDa protein displays properties distinct from those of the 43-kDa CREB/ATF polypeptide. The 120-kDa protein is readily phosphorylated in vitro by protein kinase C but not by protein kinase A, suggesting that this molecule may mediate cellular signals distinct from the cAMP-responsive pathway. In vitro transcription-complementation assays utilizing the purified 120-kDa protein failed to transactivate the cAMP-responsive somatostatin promoter suggesting that the mode of action of this 120-kDa polypeptide may require an activation step distinct from the cAMP-signaling pathway.
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PMID:Identification and purification of a novel 120-kDa protein that recognizes the cAMP-responsive element. 213 55

We have examined the binding of factors in rat liver nuclear extracts to the phosphoenolpyruvate carboxykinase (PEPCK) gene cyclic AMP (cAMP) response element (CRE) and other CREs and have isolated a rat liver CRE-binding protein (CREBP) cDNA. In addition, we have examined the influence of altering the phosphorylation state of nuclear factors on both CRE binding and in vitro transcription. Specific binding to the PEPCK CRE was measured in a mobility shift assay. CRE sequences of the PEPCK, somatostatin, and glycoprotein hormone alpha subunit genes competed equally for binding of rat liver nuclear factors to the PEPCK CRE, whereas mutant PEPCK CRE sequences did not compete for binding. Oligonucleotides complementary to rat pheochromocytoma CREBP (Gonzalez et al., Nature [London] 337:749-752, 1989) were used to prime rat liver and brain cDNA in the polymerase chain reaction. The predominant CREBP molecule obtained was identical to the rat pheochromocytoma CREBP except for a 14-amino-acid deletion in the N-terminal half that was also present in a human placental cDNA (Hoeffler et al., Science 242:1430-1433, 1988). The regulation of transcription by cAMP was examined by coincubation of rat liver nuclear extract with the purified catalytic subunit of cAMP-dependent protein kinase (protein kinase A). Although binding to the CRE was unaffected, in vitro transcription directed by the PEPCK promoter was stimulated by catalytic subunit, and this effect was blocked by protein kinase inhibitor peptide. In contrast, when nuclear extract was coincubated with phosphatase, there was substantial inhibition of in vitro transcription directed by the PEPCK promoter, but there was no effect on binding to the CRE. The major effects of catalytic subunit were exerted through the CRE, but residual stimulation was evident in promoter fragments containing only the TATA element. These data suggest that factors are bound to the CRE at constitutively high levels and that their capacity for transcriptional activation is regulated by phosphorylation.
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PMID:Cyclic AMP-dependent protein kinase regulates transcription of the phosphoenolpyruvate carboxykinase gene but not binding of nuclear factors to the cyclic AMP regulatory element. 214 84

The transcription regulation of many hormone genes is modulated by intracellular second messengers such as cAMP. The cAMP response element binding protein, CREB, binds to the 8 base pair CRE enhancer, TGACGTCA, that is found in the 5'-flank of certain genes including those for somatostatin and the alpha-subunit of human chorionic gonadotropin. The recent characterization of CREB and CREB-related cDNA clones, combined with Southwesterns and Northern blot analyses, reveals a family of transcription factors that dimerize via a leucine zipper motif and bind to the CRE through positively charged basic regions. The CREB cDNA encoding a 327 residue protein is transcriptionally activated via phosphorylation by protein kinases, including the cAMP-dependent protein kinase-A.
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PMID:Characterization of a cAMP-regulated enhancer-binding protein. 214 88

Purified rat peritoneal mast cells were incubated overnight with or without hydrocortisone (3 X 10(-6) M) and then stimulated with anti-IgE, somatostatin or a phorbol ester-ionophore combination, i.e., 12-O-tetradecanoyl-phorbol-13-acetate and A23187. The release of both histamine and [1-14C]arachidonic acid and its metabolites was determined. Hydrocortisone treatment markedly inhibited both anti-IgE and TPA-A23187 stimulated release, but not release stimulated by somatostatin. These results suggest that anti-inflammatory steroids may alter histamine release through an action involving the activation of the phosphatidylserine-calcium dependent protein kinase or its substrates.
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PMID:Hydrocortisone inhibits phorbol ester stimulated release of histamine and arachidonic acid from rat mast cells. 241 Dec 63

Corticotropin (ACTH)-releasing factor, vasoactive intestinal peptide, and catecholamines--hormones that stimulate ACTH secretion and cAMP generation--increased cytosolic calcium in AtT-20 cells. The increase in intracellular calcium is presumably a consequence of the stimulated cAMP synthesis, since forskolin, an activator of the catalytic unit of adenylate cyclase, and the cAMP analog 8-bromoadenosine 3',5'-cyclic monophosphate (8Br-cAMP) also increased the cytosolic levels of this ion. Pretreatment with somatostatin, a neuropeptide that inhibits stimulation of the adenylate cyclase system and the secretion of ACTH blocked the increase of cytosolic calcium. The effect of 8Br-cAMP, which bypasses the cyclase, was not inhibited by somatostatin pretreatment. The source of the increased calcium appears to be mainly extracellular. This is indicated by the inability of the secretagogues to increase cytosolic calcium in a medium deprived of this ion or in the presence of blockers of voltage-gated calcium channels. The involvement of calcium channels in the calcium rise evoked by the secretagogues was supported by experiments using the whole-cell patch-clamp technique. In these experiments 8Br-cAMP increased voltage-dependent calcium currents. These results suggest the following chain of events in the receptor-mediated elevation of cytosolic calcium and the concomitant release of ACTH from AtT-20 cells: hormone-receptor binding----cAMP synthesis----protein kinase activation----calcium channel activation----increase in cytosolic calcium----many steps----ACTH release. Phorbol myristate acetate, a compound which does not stimulate cAMP generation but enhances the release of ACTH in AtT-20 cells, decreased the cytosolic calcium level.
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PMID:Hormone secretagogues increase cytosolic calcium by increasing cAMP in corticotropin-secreting cells. 241 78

The mechanisms by which somatostatin (SRIF) inhibits CRF-induced ACTH secretion from AtT20 cells were characterized by comparing the effects of SRIF on cAMP production, adenylate cyclase activity, and activation of cAMP-dependent protein kinase isoenzymes with its effects on ACTH release. In isolated membranes, CRF (100 nM) stimulated adenylate cyclase activity 4- to 5-fold. SRIF inhibited CRF-stimulated adenylate cyclase in a concentration-dependent manner. However, maximal inhibition was 50%. SRIF did not inhibit basal adenylate cyclase or forskolin-stimulated cyclase in the absence of guanine nucleotides and had only small effects on forskolin-stimulated cyclase when assayed in the presence of guanine nucleotides. CRF (100 nM) induced small rises (2-fold) in intracellular cAMP levels which produced maximal ACTH release. SRIF inhibited basal and CRF-stimulated ACTH release in a concentration-dependent manner, and there was a good correlation between inhibition of ACTH release and inhibition of the activation of cAMP-dependent protein kinases in these cells. Thus, the effect of SRIF on CRF-induced ACTH release appeared to result from its effect on inhibition of adenylate cyclase. In the presence of 3-methylisobutylxanthine (MIX), CRF increased cAMP levels 20-fold and activated a greater proportion of cAMP-dependent protein kinase, but did not stimulate ACTH release more than CRF alone. Under these conditions, SRIF (100 nM) inhibited cAMP accumulation by 90%. ACTH release was also inhibited, but higher concentrations of SRIF were required to block ACTH release compared to cells incubated in the absence of MIX. Sufficient cAMP levels were achieved so that activation of cAMP-dependent protein kinases was only partially blocked. There was still sufficient cAMP to activate cAMP-dependent protein kinase to an extent equal to that seen with CRF without MIX. Similar effects of SRIF on cAMP accumulation and protein kinase activation were seen when cells were stimulated with forskolin. Our results demonstrate that SRIF inhibits ACTH release from AtT20 cells by inhibiting hormone-sensitive adenylate cyclase and thereby prevents the activation of cAMP-dependent protein kinases. However, under conditions where cAMP-dependent protein kinases are still sufficiently active to induce ACTH secretion, high concentrations of SRIF can inhibit ACTH release by a mechanism independent of cAMP-dependent protein kinase.
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PMID:Somatostatin inhibits corticotropin-releasing factor-stimulated adrenocorticotropin release, adenylate cyclase, and activation of adenosine 3',5'-monophosphate-dependent protein kinase isoenzymes in AtT20 cells. 242 87

The effects of agonists at mu and delta opioid receptors were compared by measuring membrane currents under voltage clamp from neurons of the rat nucleus locus coeruleus and guinea pig submucous plexus. In each tissue, the appropriate selective agonist (Tyr-D-Ala-Gly-MePhe-Gly-ol for mu receptors in locus coeruleus or Tyr-D-Pen-Gly-Phe-D-Pen for delta receptors in submucous plexus) increased the conductance of an inwardly rectifying potassium conductance and strongly hyperpolarized the membrane. The properties of the potassium conductance affected by the two opioids could not be distinguished. Experiments with intracellular application of guanosine 5'-[gamma-thio]triphosphate indicated that a guanine nucleotide-binding regulatory protein was involved in the coupling between opioid receptor and potassium channel, but there was no evidence for activation of either cAMP-dependent protein kinase or protein kinase C. It is noted that a number of vertebrate neurotransmitter receptors are coupled to potassium channels. The potassium conductance associated with these channels has properties similar to the conductance activated by mu and delta opioids; this family includes the following receptors: acetylcholine M2, norepinephrine alpha 2, dopamine D2, 5-hydroxytryptamine 5-HT1, adenosine A1, gamma-aminobutyric acid GABAB, and somatostatin. It is suggested that this conductance is a conserved neuronal effector coupled to one of the receptor types that mediates the effects of each of several major transmitters. The mu and delta opioid receptors appear to be unusual in that both utilize this same effector mechanism.
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PMID:Mu and delta receptors belong to a family of receptors that are coupled to potassium channels. 244 52

A clonal cell line (44-2C) which synthesizes and secretes somatostatin, neurotensin, calcitonin (CT), and CT gene-related peptide and transiently expresses c-fos was used to characterize the mechanism of action of basic fibroblast growth factor (bFGF). bFGF had two modes of action: 1) short term incubation of 44-2C cells with bFGF increased the cellular content of neurotensin, somatostatin, and CT; and 2) bFGF enhanced the response of the cells to rat hypothalamic GRF-mediated cAMP efflux. The long term action of bFGF was manifested by the permissive effect of the molecule. bFGF had a sustained effect on RNA synthesis, and pretreatment with bFGF for 24 h altered the time course of response of the cells to rat GRF. In this cell line the cellular action of bFGF was not mediated via protein kinase-C action. bFGF was not mitogenic in 44-2C cells. bFGF stimulated uridine incorporation without affecting thymidine incorporation. Results obtained with actinomycin-D and alpha-amanitin suggest that the above effects of bFGF can be correlated with increased RNA stability produced by bFGF.
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PMID:Fibroblast growth factor stabilizes ribonucleic acid and regulates differentiated functions in a multipeptide-secreting neuroendocrine cell line. 244 40

Phenotypically distinct islet tumor cell lines may recapitulate certain of the developmental pathways of normal islet cell differentiation by expressing a combinatorial set of positively and negatively acting DNA-binding proteins to allow for the programmed expression of genes encoding polypeptide hormones. The structure of one of these DNA-binding proteins, a cyclic AMP-responsive protein (CREB) that binds specific DNA regulatory elements in the somatostatin gene, has been deduced from the sequence of a cloned cDNA. The CREB protein contains a DNA-binding domain separate from a cAMP-dependent protein kinase A activation domain. Further characterizations of the genes encoding the DNA-binding proteins should help to elucidate the cellular processes involved in islet cell differentiation and the genesis of tumors.
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PMID:Factors that determine cell-specific gene expression in pancreatic endocrine tumor cells. 255 19

Many different types of cells exhibit a supersensitivity of adenylate cyclase after chronic treatment with inhibitory drugs; this phenomenon is manifested by enhanced cAMP accumulation upon removal of the inhibitory drug. Acute treatment of wild-type S49 cells with the somatostatin analog SMS 201-995 (SMS) results in inhibition of cAMP accumulation. We have found that chronic SMS treatment of S49 cells results in enhanced isoproterenol- and forskolin-stimulated cAMP accumulation after removal of the SMS. The forskolin-stimulated cAMP synthetic rate was about 57% higher in SMS-pretreated cells (14.22 +/- 1.02 pmol of cAMP/10(6) cells/min) than in untreated control cells (9.08 +/- 0.84 pmol of cAMP/10(6) cells/min). The time course of forskolin-stimulated intracellular cAMP accumulation is complex, with desensitization of cAMP synthesis and marked egress of cAMP from the cells. We have modeled the forskolin-stimulated cAMP time course to a simple function incorporating the initial synthetic rate and rate constants for desensitization and elimination (degradation plus egress). The mathematical modeling suggests that the difference in forskolin-stimulated cAMP time courses between control and SMS-pretreated cells can be explained on the basis of a difference in initial synthetic rates. We tested the hypothesis that the SMS-induced change in forskolin-stimulated cAMP accumulation is triggered by the decrement in the concentration of intracellular cAMP caused by SMS. We studied two independently isolated mutants of S49 cells that are devoid of cAMP-dependent protein kinase activity (kin-). Although SMS acutely inhibits cAMP accumulation in both kin- mutants, neither mutant exhibited an enhanced forskolin-stimulated cAMP synthetic rate after chronic SMS treatment. These results suggest that cAMP-dependent protein kinase is important in the induction of adenylate cyclase supersensitivity in wild-type S49 cells. The mechanistic signal for induction of supersensitivity may be the decreased cAMP accumulation that occurs in response to stimulation of inhibitory receptors, although other hypothetical mechanisms may be invoked.
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PMID:Chronic somatostatin treatment induces enhanced forskolin-stimulated cAMP accumulation in wild-type S49 mouse lymphoma cells but not in protein kinase-deficient mutants. 256 3

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