Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.11 (AMPK)
 12,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A thermostable inhibition of ATP-protein phosphotransferase (EC 2.7.1.37) (protein kinase) which is present in crude tissue extracts has been resolved by gel chromatography (Sephadex G-100) into two molecular forms. These two forms will be referred to as type I and type II inhibitor. The type I inhibitor (Mr approximately or equal to 24,000) is specific for cAMP-dependent protein kinase and corresponds to the inhibitor described earlier (Walsh, D. A., Ashby, C. D., Gonzalez, C., Calkins, D., Fisher, E. H., and Krebs, E. G. (1971) J. Biol. Chem. 246, 1977-1985). The type II inhibitor (Mr approximately or equal to 15,000) competes for the enzyme with various substrate proteins (histone, alpha-casein, and Leu-Arg-Arg-Ala-Ser-Leu-Gly (kemptide). The type II inhibitor blocks protein phosphorylation catalyzed by several types of protein kinases (cAMP- and cGMP-dependent or cyclic nucleotide-independent protein kinases). The type II inhibitor from rat brain has been purified 1500-fold; this protein is thermostable, has acidic characteristics, and does not require Ca2+ ions for its activity. Different ratios and concentrations of type I and type II inhibitors of protein kinase are found in rat skeletal muscle, pancreas, cerebellum and corpus striatum, and in lobster tail muscle.
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PMID:Endogenous protein kinase inhibitors. Purification, characterization, and distribution in different tissues. 19 48

Synthetic polypeptides were employed as substrates in kinetic analyses of the reaction mechanism for the catalytic subunit of a cyclic AMP-dependent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37) from calf thymus. This enzyme preparation was shown to catalyze the transfer of phosphate from ATP to histone H1 from calf thymus, as well as to two synthetic polypeptides, Arg-Lys-Ala-Ser-Gly-Pro (H1-6) and Arg-Arg-Lys-Ala-Ser-Gly-Pro (H1-7), corresponding to the amino acid sequence about serine-38 in calf H1. A related, basic heptapeptide corresponding to a sequence from pig liver pyruvate kinase, Leu-Arg-Arg-Ala-Ser-Leu-Gly (K), was also a substrate. The stoichiometry of peptide phosphorylation was established in each case as the transfer of 1 mol of phosphate from the gamma position of MgATP to the serine hydroxyl of 1 mol of the peptide. Steady-state, initial-velocity, kinetic parameters were determined for each substrate, using various concentrations of ATP. Under the conditions used, all synthetic peptides reacted with greater maximum velocities than whole histone H1. Nevertheless, the K(m) for H1, 54 muM, was lower than the K(m) values of the synthetic substrates. The most efficient substrate was peptide K, which had a V(max) of 50.6 mumol/min per mg of kinase and a K(m) of 63 muM. In the absence of peptide substrate no ATPase activity was detectable at a sensitivity of 0.05% of the rate of peptide phosphorylation, suggesting that ATP is not cleaved to form an unstable phosphoenzyme complex. The data are consistent with a sequential reaction mechanism involving a ternary complex between enzyme, polypeptide substrate, and ATP.
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PMID:Studies on the mechanism of phosphorylation of synthetic polypeptides by a calf thymus cyclic AMP-dependent protein kinase. 20 Sep 11

A model synthetic peptide substrate of the cyclic AMP-dependent protein kinase (ATP:protein phosphotransferase; EC 2.7.1.37), Leu-Arg-Arg-Ala-Ser-Leu-Gly, closely resembling the local phosphorylation site sequence in porcine hepatic pyruvate kinase, was shown to be phosphorylated in vivo after microinjection into Xenopus oocytes. This result demonstrates that the microinjection technique, utilizing a synthetic peptide substrate, or possibly a synthetic substrate analog inhibitor [Kemp, B. E., Benjamini, E. & Krebs, E. G. (1976) Proc. Natl. Acad. Sci. USA 73, 1038--1042], can be used to study protein phosphorylation-dephosphorylation reactions in living oocytes. This follows, since it is clear that the injected peptide was accessible to the cellular compartment containing the protein kinase.
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PMID:In vivo phosphorylation of a synthetic peptide substrate of cyclic AMP-dependent protein kinase. 20 33

A series of synthetic peptide analogs of the cardiac troponin inhibitory subunit (TN-1) phosphorylation site sequence, Arg12-Pro-Ala-Pro-Ala-Val-Arg18-Arg19-Ser20-Asp21-Arg22-Ala, have been tested as substrates for the catalytic subunit of the cyclic AMP-dependent protein kinase (EC 2.7.1.37, ATP:protein phosphotransferase). As substrates, these peptides were generally inferior to the pyruvate kinase analog peptide Leu-Arg-Arg-Ala-Ser-Leu-Gly or its COOH-terminal amide analog. Replacing Arg-19 with alanine had only a minor effect on the kinetics of phosphorylation of the TN-1 peptide analog. In contrast, replacement of Arg-22 and Arg-18 with alanine resulted in marked enhancement and reduction of the Vmax, respectively. The results of this study have demonstrated that synthetic peptide analogs of the local phosphorylation site sequences of natural substrates may differ widely in their capacity to act as substrates for this protein kinase. In the case of the TN-1 peptide analogs, the contribution of the 4 arginine residues can be distinguished in terms of their influence on the kinetics of phosphorylation.
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PMID:Phosphorylation of synthetic peptide analogs of rabbit cardiac troponin inhibitory subunit by the cyclic AMP-dependent protein kinase. 21 49

Bovine lung cGMP-binding cGMP-specific phosphodiesterase (cG-BPDE) is a potent and relatively specific substrate for cGMP-dependent protein kinase (cGK) as compared to cAMP-dependent protein kinase (cAK) (Thomas, M. K., Francis, S. H., and Corbin, J. D. (1990) J. Biol. Chem. 265, 14971-14978). A synthetic peptide, RKISASEFDRPLR (BPDEtide), was synthesized corresponding to the sequence surrounding the phosphorylation site in cG-BPDE. BPDEtide retained the cGK/cAK kinase specificity demonstrated by native cG-BPDE: the apparent Km of BPDEtide for cGK was 5-fold lower than that for cAK (Km = 68 and 320 microM, respectively). Vmax values were 11 mumol/min/mg for cGK and 3.2 mumol/min/mg for cAK. The peptide was not phosphorylated to a measurable extent by protein kinase C or by calcium/calmodulin-dependent protein kinase II. Thus, the primary amino acid sequence of the peptide substrate was sufficient to confer kinase specificity. Studies in crude tissue extracts indicated that BPDEtide was the most selective peptide substrate documented for measuring cGK activity. Peptide analogs of BPDEtide were synthesized to determine the contribution of specific residues to cGK or cAK substrate specificity. Substitution of a Lys for the amino-terminal Arg did not reduce cGK/cAK specificity; neither did the exchange of an Ala for the non-phosphorylated Ser nor the removal of the 3 carboxyl-terminal residues. A truncated BPDEtide (RKISASE) served equally well as substrate (Km approximately 90 microM) for both kinases. However, restoration of the Phe, to yield RKISASEF, reproduced the original cGK/cAK specificity for BPDEtide (Km = 120 and 480 microM, respectively), primarily by decreasing the affinity of cAK. Addition of a carboxyl-terminal Phe to the peptide RKRSRAE (derived from the sequence of the cGK phosphorylation site in histone H2B) or to the peptide LRRASLG (derived from the sequence of the cAK phosphorylation site in pyruvate kinase) also improved the cGK/cAK specificity by decreasing the affinity of cAK. These data suggested that the Phe in each substrate tested is a negative determinant for cAK.
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PMID:A phenylalanine in peptide substrates provides for selectivity between cGMP- and cAMP-dependent protein kinases. 131 60

Gamma-aminobutyric acid Type A (GABAA) receptors are the major sites of synaptic inhibition in the central nervous system. These receptors are thought to be pentameric complexes of homologous transmembrane glycoproteins. Molecular cloning has revealed a multiplicity of different GABAA receptor subunits divided into five classes, alpha, beta, gamma, delta, and rho, based on sequence homology. Within the proposed major intracellular domain of these subunits, there are numerous potential consensus sites for protein phosphorylation by a variety of protein kinases. We have used purified fusion proteins of the major intracellular domain of GABAA receptor subunits produced in Escherichia coli to examine the phosphorylation of these subunits by cAMP-dependent protein kinase (PKA) and protein kinase C (PKC). The purified fusion protein of the intracellular domain of the beta 1 subunit was an excellent substrate for both PKA and PKC. PKA and PKC phosphorylated the beta 1 subunit fusion protein on serine residues on a single tryptic phosphopeptide. Site-directed mutagenesis of serine 409 in the intracellular domain of the beta 1 subunit to an alanine residue eliminated the phosphorylation of the beta 1 subunit fusion protein by both protein kinases. The purified fusion proteins of the major intracellular domain of the gamma 2S and gamma 2L subunits of the GABAA receptor were rapidly and stoichiometrically phosphorylated by PKC but not by PKA. The phosphorylation of the gamma 2S subunit occurred on serine residues on a single tryptic phosphopeptide. Site-directed mutagenesis of serine 327 of the gamma 2S subunit fusion protein to an alanine residue eliminated the phosphorylation of the gamma 2S fusion protein by PKC. The gamma 2L subunit is an alternatively spliced form of the gamma 2S subunit that differs by the insertion of 8 amino acids (LLRMFSFK) within the major intracellular domain of the gamma 2S subunit. The PKC phosphorylation of the gamma 2L subunit occurred on serine residues on two tryptic phosphopeptides. Site-specific mutagenesis of serine 343 within the 8-amino acid insert to an alanine residue eliminated the PKC phosphorylation of the novel site in the gamma 2L subunit. No phosphorylation of a purified fusion protein of the major intracellular loop of the alpha 1 subunit was observed with either PKA or PKC. These results identify the specific amino acid residues within GABAA receptor subunits that are phosphorylated by PKA and PKC and suggest that protein phosphorylation of these sites may be important in regulating GABAA receptor function.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Identification of the cAMP-dependent protein kinase and protein kinase C phosphorylation sites within the major intracellular domains of the beta 1, gamma 2S, and gamma 2L subunits of the gamma-aminobutyric acid type A receptor. 132 Nov 50

Considerable structural similarities are present in a region of approximately 270 amino acids in most known cyclic nucleotide phosphodiesterase (PDE) sequences, opening the possibility that this region encodes the catalytic domain of the enzyme. To test this hypothesis, the structure of a high affinity cAMP PDE (cAMP-PDE) was analyzed by deletion mutations and site-directed mutagenesis. A ratPDE3 cDNA was mutated using a strategy based on fragment amplification by polymerase chain reaction. The effect of the introduced mutations was determined by expressing wild type and mutated proteins in prokaryotic and eukaryotic cells. The level of expression of the PDE protein was monitored by immunoblot analysis using two specific cAMP-PDE polyclonal antibodies and by measuring the PDE activity. After removal of a 99-amino acid region at the carboxyl terminus flanking the conserved domain, the protein retains its catalytic activity even though its Km and velocity were changed. Internal deletions at the amino terminus of this PDE showed that the enzyme activity was increased when a 97-amino acid fragment (from Tyr49 to Lys145) was removed. Further deletions within the amino terminus produced inactive proteins. Within the domain that appears essential for catalysis, 1 threonine and 2 serine residues are conserved in all PDEs. Substitutions of the invariant threonine (Thr349) present in the most conserved region with alanine, proline, or serine yielded proteins of the correct size and a level of expression comparable to the wild type PDE. However, in both expression systems used, proteins were completely devoid of the ability to hydrolyze cyclic nucleotides, except when the threonine was substituted with a serine. Conversely, mutations of 2 other conserved serine residues (Ser305 and Ser398) present in the catalytic domain either had no effect or produced changes only in Km and Vmax, but did not abolish catalytic activity. In addition, 2 histidine residues (His278 and His311) present in proximity to Thr349 appeared to be essential for the structure of the catalytic domain, since any substitution performed in these residues yielded an inactive enzyme. Mutations of a serine residue (Ser295) in the region homologous to the cAMP binding site of the regulatory subunit of the cAMP-dependent protein kinase demonstrated that this region does not have the same function in the two proteins. These data provide direct evidence that a 37-kDa domain, which in part corresponds to the region of conservation in all PDEs, contains the catalytic domain, and that threonine and histidine residues are probably involved in catalysis and/or are essential for the conformation of an active enzyme.
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PMID:Characterization of the structure of a low Km, rolipram-sensitive cAMP phosphodiesterase. Mapping of the catalytic domain. 132 38

There are at least three isozymes (C alpha, C beta, and C gamma) of the mammalian catalytic (C) subunit of cAMP-dependent protein kinase (PKA) (Beebe, S., Oyen, O., Sandberg, M., Froysa, A., Hansson, V., and Jahnsen, T. (1990) Mol. Endocrinol. 4, 465-475). To compare the C gamma and C alpha isozymes, the respective cDNAs were expressed in permanently transformed Kin-8 PKA-deficient Y1 adrenal cells using the mouse metallothionein promoter. The recombinant C subunits were characterized as immunoreactive, zinc-inducible, cAMP-dependent kinase activities. In contrast to C alpha, histone was a better substrate than Leu-Arg-Arg-Ala-Ser-Leu-Gly (Kemptide) for C gamma. Furthermore, C gamma histone kinase activity was not inhibited by the protein kinase inhibitor peptide (5-24 amide), which has been widely used as a PKA-specific inhibitor. The major C gamma peak (type I) eluted from DEAE-Sepharose at a higher NaCl concentration (120 mM) than the C alpha type I eluted (70 mM). C gamma and C alpha type II eluted between 220 and 240 mM NaCl. C gamma required higher concentrations of cAMP than C alpha did for dissociation from the mutant type I holoenzyme. These differences provided a basis for the separation of the mutant RI-associated isozymes on DEAE-Sepharose. Both C alpha (41-42 kDa) and C gamma (39-40 kDa) were identified by a C subunit antibody after sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblot analysis. Zinc induced the PKA-mediated rounding phenotype in C gamma and C alpha clones, thereby restoring the cells to the parent Y1 adrenal cell phenotype. Collectively, these data indicate that C gamma is an active PKA C subunit but suggest that C gamma and C alpha have different protein and peptide recognition determinants.
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PMID:The C gamma subunit is a unique isozyme of the cAMP-dependent protein kinase. 133 96

cAMP- and cGMP-dependent protein kinases are homologous proteins and are predicted to exhibit very similar three-dimensional structures. Their cyclic nucleotide binding domains share a high degree of amino acid sequence identity. cAMP- and cGMP-dependent protein kinases are activated relatively specifically by cAMP and cGMP, respectively; and a single alanine-threonine difference between cAMP- and cGMP-binding domains partially accounts for this specificity. Thus, it would be expected that cAMP and cGMP mediate separate physiological effects. However, owing in part to the lack of absolute specificity of either enzyme and to the relatively high level of cAMP or cGMP in certain tissues, it is also possible that either cyclic nucleotide could cross-activate the other kinase. Increases in either cAMP or cGMP cause pig coronary artery relaxation. However, only cGMP-dependent protein kinase specific cyclic nucleotide analogues are very effective in causing relaxation, and cAMP elevation in arteries treated with isoproterenol or forskolin activates cGMP-dependent protein kinase, in addition to cAMP-dependent protein kinase. Conversely, increases in either cAMP or cGMP cause Cl- secretion in T-84 colon carcinoma cells, and the cGMP level in T-84 cells can be elevated sufficiently by bacterial enterotoxin to activate cAMP-dependent protein kinase. These results imply specific regulation of cAMP- and cGMP-dependent protein kinases by the respective cyclic nucleotides, but either cyclic nucleotide is able to cross-activate the other kinase in certain tissues.
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PMID:Cross-activation: overriding cAMP/cGMP selectivities of protein kinases in tissues. 133 68

The mechanism by which cAMP-dependent protein kinase-catalyzed phosphorylation modulates the activities of 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase was examined after site-specific mutation of the cAMP-dependent phosphorylation site (Ser32) to aspartic acid or alanine. The mutant and wild-type enzymes were overexpressed in Escherichia coli in a rich medium to levels as high as 30 mg/liter and were then purified to homogeneity. The kinetic properties of the Ser32-Ala mutant were identical with the dephosphorylated wild-type bifunctional enzyme. Mutation of Ser32 to aspartic acid mimicked several effects of cAMP-dependent phosphorylation: there was an increase in the Km for fructose 6-phosphate for 6-phosphofructo-2-kinase and an increase in the maximal velocity of fructose-2,6-bisphosphatase. Fructose-2,6-bisphosphatase activity of the Ser32-Asp mutant was 75% that of the phosphorylated wild-type enzyme, the mutant's kinase reaction had an identical dependence on fructose 6-phosphate, while its maximum velocity was only 60% that of the phosphorylated wild-type enzyme over a wide pH range. Furthermore, catalytic subunit-catalyzed in vitro phosphorylation of the Ser32-Ala mutant on Ser33 increased the Km for fructose 6-phosphate by 4-fold for the 6-phosphofructo-2-kinase. The results support the hypothesis that Ser32 is an important residue in the regulation of the activities of the bifunctional enzyme and that phosphorylation of Ser32 can be functionally substituted by aspartic acid. The results suggest a role for negative charge in the effect of phosphorylation.
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PMID:Rat liver 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase. Properties of phospho- and dephospho- forms and of two mutants in which Ser32 has been changed by site-directed mutagenesis. 133 50


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