EC:2.7.11.1 - FACTA Search

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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 following evidence suggests that inhibition of hepatoma cell (HTC) growth by cyclic nucleotides is an adenosine-like effect that is greatly modified by the type and treatment of serum used in the culture medium and is probably not mediated by cyclic AMP-dependent protein kinase: 1) Heating serum reduces its phosphodiesterase content, thereby slowing metabolism of cyclic AMP and reducing the inhibition of HTC cell growth by cyclic AMP; 2) Using medium that contains phosphodiesterase but lacks adenosine deaminase causes adenosine to accumulate from cyclic AMP and increases the toxicity of cyclic AMP; 3) Uridine or cytidine reverses the growth inhibition caused by adenosine, 5'-AMP or cyclic AMP; 4) adenosine, 5'-AMP and N6-(delta 2-isopentenyl) adenosine are more toxic for HTC cells than is cyclic AMP, and N6,O2-dibutyryl cyclic AMP is not toxic; and 5) N6,O2'-dibutyryl cyclic AMP inhibits growth of Reuber H35 cells, but uridine prevents this inhibition of growth. We conclude that most, if not all, of the inhibitory effects of cyclic AMP and N6,O2'-dibutyryl cyclic AMP on HTc and Reuber H35 hepatoma cell growth are due to the generation of toxic metabolites.
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PMID:Inhibition of hepatoma cell growth by analogs of adenosine and cyclic AMP and the influence of enzymes in mammalian sera. 612 49

The following article provides evidence that cellular calcium controls the activity of glycogen synthase in all three major glycogen storage tissues; muscle, fat, and liver. Depletion of cellular calcium resulted in a moderate increase of glycogen synthase %I activities in intact mouse diaphragms, in isolated rat adipocytes, and in rat hepatocytes. The increase in %I activity of glycogen synthase was more pronounced when the uridine di-phosphoglucose concentration in the glycogen synthase assay was lowered from 4.4 mM to 0.2 mM. Calcium depletion resulted in an approximately two-fold decrease in the Ka values for glucose-6-phosphate in all three tissues. The activities of glycogen synthase also correlated well with the content of cell-associated calcium in rat hepatocytes. The glucose-6-phosphate independent activities of glycogen synthase in extracts of calcium-replete and calcium-depleted tissue approached the same value following the exposure to crude phosphoprotein phosphatase. The activities of glycogen phosphorylase decreased in calcium-depleted tissues and cells. Insulin stimulated the activity of glycogen synthase in muscle and fat in the absence of added sugar and in the absence of extracellular calcium. It is concluded that glycogen synthase is under the control of calcium in the three main glycogen storage tissues. The actions of calcium are probably mediated through the actions of calcium-sensitive protein kinase(s).
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PMID:Calcium control of glycogen synthase activities in mouse diaphragms, rat adipocytes and rat hepatocytes. 642 46

The effects of nucleotides on phosphoenolpyruvate-dependent protein kinase in rat skeletal muscle were examined. Various ribonucleotide triphosphates were tested and the protein kinase reaction was maximally activated by cytidine 5'-triphosphate followed by uridine 5'-triphosphate and guanosine 5'-triphosphate. No activation by adenosine 5'-triphosphate was observed. Cytidine 5'-diphosphate also activated the reaction but to a significantly lesser extent. Cytidine 5'-monophosphate and cyclic cytidine 3',5'-monophosphate showed no effect whereas cytidine was slightly inhibitory.
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PMID:Activation of phosphoenolpyruvate-dependent protein kinase by cytidine 5'-triphosphate in rat skeletal muscle. 669 9

During the life cycle of Blastocladiella emersonii, dramatic shifts occur in the sensitivity of the first hexosamine biosynthetic pathway-specific enzyme [amidotransferase; 2-amino-2-deoxy-D-glucose-6-phosphate ketol-isomerase (amino-transferring), EC 5.3.1.19] to end product inhibition. These shifts are developmentally correlated with changes in the utilization of the end product (uridine-5'-diphospho-N-acetylglucosamine) for chitin synthesis [Selitrennikoff, C. P., Dalley, N. E. & Sonneborn, D. R. (1980) Proc. Natl. Acad. Sci. USA 77, 5998-6002]. Alterations in amidotransferase sensitivity to end product inhibition can be mimicked by in vitro protein dephosphorylation-phosphorylation reactions, as follows: (i) Zoospore end product-inhibitable amidotransferase activity can be converted to a noninhibitable form by an endogenous (zoospore) protein phosphatase (phosphoprotein phosphohydrolase EC 3.1.3.16) reaction; this noninhibitable form can be converted back to an inhibitable form either by an endogenous cAMP-independent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37) reaction or with an added cAMP-dependent protein kinase. (ii) Noninhibitable amidotransferase activity from growing cells can also be converted to the inhibitable form with added protein kinase.
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PMID:Developmentally regulated interconversions between end product-inhibitable and noninhibitable forms of a first pathway-specific enzyme activity can be mimicked in vitro by protein dephosphorylation-phosphorylation reactions. 695 19

We have identified and studied a posttranscriptional mechanism of lactate dehydrogenase A (LDH) subunit gene expression at the level of mRNA stability. Using the well differentiated rat C6 glioma cell line as a model system, the effects of activators of the protein kinase A and C pathways on the half-life of LDH A mRNA were measured by two independent methods: 1) by the RNA synthesis inhibitor-chase method using actinomycin D, and 2) by analysis of decay of LDH A [3H]mRNA in [3H]uridine-labeled cells. By each method, the half-life of relatively short-lived LDH A mRNA was increased 5- to 7-fold in 8- (4-chloro-phenylthio) cAMP or forskolin-treated and about 3-fold in 12-0-tetradecanoylphorbol-13- acetate (TPA) or dioctanoylglycerol-treated cells. Forskolin acted synergistically with TPA to prolong LDH A mRNA half-life from 55 min to more than 20 h. The relatively rapid basal decay rate of LDH A mRNA was also considerably slowed in the presence of the protein phosphatase inhibitor okadaic acid, suggesting a functional role for protein phosphorylation in the stabilization process. In glioma cells stably transformed with a protein kinase A catalytic subunit expression vector, overexpression of the catalytic subunit stabilized LDH mRNA to the degree seen in forskolin-treated cells. In cells transfected with a protein kinase A inhibitor-expression vector, cAMP-mediated stabilization of LDH A mRNA half-life was prevented. Furthermore, both staurosporin and 3- [1-(3-dimethylaminopropyl)-indol-3-yl]-3-(indol- 3-yl)- maleimide, inhibitors of protein kinase C, prevented the TPA-induced stabilization of LDH A mRNA. We conclude from the experimental data that the protein kinase A and C signal pathways play an active functional role in regulating LDH A mRNA stability and act cooperatively to achieve LDH A mRNA stability regulation.
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PMID:Lactate dehydrogenase A subunit messenger RNA stability is synergistically regulated via the protein kinase A and C signal transduction pathways. 747 96

The cystic fibrosis transmembrane conductance regulator (CFTR) is a Cl- channel activated by protein kinase A and regulated by ATP in a complex manner. We have applied patch-clamp techniques to C127i mouse mammary carcinoma cells transfected with human CFTR to assess the role of external ATP in the modulation of CFTR function. Extracellular ATP was sufficient to activate non-rectifying, Cl(-)-selective whole-cell currents in CFTR-transfected, but not mock-transfected cells. The ATP-mediated activation of CFTR was independent of protein kinase A since channel activation by ATP was preserved in cells that were (a) depleted of intracellular ATP, (b) incubated with the cAMP antagonist Rp-cAMPS, or (c) exposed to the protein kinase A inhibitor, 5-24 amide. In each of these conditions, 8-Br-cAMP was no longer capable of activating CFTR. The possibility that the extracellular ATP activation of Cl- currents in CFTR-expressing C127i cells was mediated by a P2-type purinergic receptor was supported by studies in which the effect of external ATP on the Cl- currents was mimicked by the ATP analogs, ATP gamma S and beta,gamma-methylene ATP, but not the uridine nucleotide, UTP. Single-channel analysis of ATP-activated Cl -currents under both cell-attached and excised, inside-out patch-clamp configurations indicated that this channel is only present in CFTR-transfected cells and indistinguishable from CFTR. External ATP also activated ATP currents in CFTR-transfected cells, a novel function of CFTR. These findings are consistent with the presence of a purinergic receptor signal transduction mechanism in C127i cells whose activation by external ATP is linked to the activation of CFTR in a cAMP-independent manner. The data provide additional support for the use of ATP and its analogs as alternative therapies in cystic fibrosis.
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PMID:External ATP and its analogs activate the cystic fibrosis transmembrane conductance regulator by a cyclic AMP-independent mechanism. 751 60

In an exploration of the molecular basis of cyclic AMP-induced stabilization of Na+/glucose cotransporter mRNA (SGLT1 isoform) accompanying cell differentiation in the pig kidney cell line LLC-PK1, we have identified a 48-kDa cytoplasmic protein factor, designated SG-URBP, which specifically binds a 120-nucleotide sequence within the 3'-untranslated region of the SGLT1 message. A 46-nucleotide uridine-rich element within this region appears necessary for specific binding, and the presence of the 3'-untranslated region is necessary for message stabilization by cyclic AMP. The binding activity of SG-URBP is up-regulated after cyclic AMP elevation and protein kinase A activation, whereas protein dephosphorylation either in vivo or in vitro is associated with loss of binding activity. The increase in SG-URBP binding activity correlates with an increase in the half-life of the SGLT1 message, suggesting a cause and effect relationship.
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PMID:Regulation of Na(+)-coupled glucose transport in LLC-PK1 cells. Message stabilization induced by cyclic AMP elevation is accompanied by binding of a M(r) = 48,000 protein to a uridine-rich domain in the 3'-untranslated region. 759 96

Adrenergic regulation of RNA synthesis by in vivo stimulated parotid glands and dispersed parotid lobules was studied by a combination of in vivo and in vitro methods. Following a single intraperitoneal injection of isoproterenol, [3H]uridine incorporation into RNA was increased by 50% after the first hour. Amylase mRNA content was also elevated within 1 hr and was 2-3-fold higher than control values at 4 hr. An increase in the rate of total protein synthesis was detectable after 2 hr, and maximal rates were achieved 6 hr after isoproterenol administration. In dispersed parotid lobules, both isoproterenol and epinephrine stimulated [3H]uridine incorporation and at optimal concentrations increased incorporation by almost 200%. Phenylephrine (10 microM) caused a slight increase of about 20% whereas methoxamine (10 microM) had no effect. Stimulation by epinephrine was reversed by propranolol, but not by either phentolamine or prazosin. The increase in RNA synthesis induced by isoproterenol or epinephrine was dose dependent and half-maximal stimulation required 5.0 x 10(-8) M isoproterenol and 7.9 x 10(-7) M epinephrine. Dibutyryl cyclic AMP also stimulated [3H]uridine incorporation, whereas 8-bromo cyclic GMP, A23187 and phorbol myristate acetate had no effect. The importance of protein phosphorylation in mediating the observed stimulation was evaluated using protein kinase and phosphatase inhibitors. N-[2-(Methylamino)ethyl]-5-isoquinolinesulphonamide, an inhibitor of cyclic nucleotide-dependent protein kinases, substantially diminished the isoproterenol-induced stimulation. Okadaic acid treatment of lobules increased [3H]uridine incorporation. Furthermore, okadaic acid synergistically potentiated the stimulatory effect of a suboptimal concentration of isoproterenol. The results demonstrate that activation of the beta-adrenergic receptor induces the synthesis of certain RNA species in the parotid gland and that protein phosphorylation by a cyclic AMP-dependent protein kinase is a key event in the signal transduction pathway.
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PMID:Adrenergic regulation of RNA synthesis in the rat parotid gland. 768 14

A rational approach to the design of antiherpetic nucleoside analogues is based in part on the broad specificity of virus-coded thymidine kinases. Herpes virus thymidine kinase 'activates' many 5-substituted 2'-deoxyuridines, analogues of thymidine (e.g., idoxuridine, trifluridine, edoxudine, brivudine), 5-substituted arabinofuranosyluracil derivatives (e.g., 5-Et-Ara-U, BV-Ara-U, Cl-Ara-U), acyclonucleosides of guanine (e.g., aciclovir, ganciclovir, penciclovir), and purine nucleosides with the pentafuranosyl ring replaced by a cyclobutane ring (e.g., cyclobut-G, cyclobut-A). Activation involves selective, and frequently regiospecific, phosphorylation of these analogues to the 5'-monophosphates. These are further phosphorylated by cellular enzymes to the 5'-triphosphates, which are usually competitive inhibitors of the viral-coded DNA polymerases. Some analogues are also incorporated into viral, and to a lesser extent cellular, DNA. A recent, unusual, exception is human cytomegalovirus, which does not code for a thymidine kinase, but for a protein with the sequence characteristics of protein kinase and which phosphorylates ganciclovir to its 5'-monophosphate. The interaction of the analogues with cellular catabolic enzymes such as uridine and thymidine nucleoside phosphorylases is also discussed, as is the relationship between physicochemical properties (configuration, conformation, electronic and hydrophobic parameters) and antiviral activities, with particular reference to those drugs that are licensed, or under consideration, for clinical use.
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PMID:Structure-activity relationships and conformational features of antiherpetic pyrimidine and purine nucleoside analogues. A review. 803 38

Heterogeneous nuclear ribonucleoprotein (hnRNP) complexes, the structures that contain heterogeneous nuclear RNA and its associated proteins, constitute one of the most abundant components of the eukaryotic nucleus. hnRNPs appear to play important roles in the processing, and possibly also in the transport, of mRNA. hnRNP C proteins (C1, M(r) of 41,000; C2, M(r) of 43,000 [by sodium dodecyl sulfate-polyacrylamide gel electrophoresis]) are among the most abundant pre-mRNA-binding proteins, and they bind tenaciously to sequences relevant to pre-mRNA processing, including the polypyrimidine stretch of introns (when it is uridine rich). C proteins are found in the nucleus during the interphase, but during mitosis they disperse throughout the cell. They have been shown previously to be phosphorylated in vivo, and they can be phosphorylated in vitro by a casein kinase type II. We have identified and partially purified at least two additional C protein kinases. One of these, termed Cs kinase, caused a distinct mobility shift of C proteins on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. These phosphorylated C proteins, the Cs proteins, were the prevalent forms of C proteins during mitosis, and Cs kinase activity was also increased in extracts prepared from mitotic cells. Thus, hnRNP C proteins undergo cell cycle-dependent phosphorylation by a cell cycle-regulated protein kinase. Cs kinase activity appears to be distinct from the well-characterized mitosis-specific histone H1 kinase activity. Several additional hnRNP proteins are also phosphorylated during mitosis and are thus also potential substrates for Cs kinase. These novel phosphorylations may be important in regulating the assembly and disassembly of hnRNP complexes and in the function or cellular localization of RNA-binding proteins.
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PMID:Cell cycle-regulated phosphorylation of the pre-mRNA-binding (heterogeneous nuclear ribonucleoprotein) C proteins. 839 12

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