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 number of different protein and peptide substrates were used to identify and characterize stimulated kinase activities in Xenopus oocyte extracts prepared during the major burst in protein phosphorylation that precedes meiotic cell division. While total cAMP-dependent protein kinase activity in the cytosol was not stimulated, this kinase was the major kinase phosphorylating a number of the substrates and consequently had to be inhibited to prevent its masking cAMP-independent protein kinase activities. Sizable stimulations of kinase activities were then observed in extracts from progesterone-treated oocytes as compared to controls when the following substrates were utilized: Leu-Arg-Arg-Ala-Ser-Leu-Gly (Kemptide) (8-fold); the synthetic peptide, Arg-Arg-Leu-Ser-Ser-Leu-Arg-Ala, the sequence of which is based on that of a phosphorylation site in ribosomal protein S6 (8-fold); ribosomal protein S6 (8-fold); histone H1 (5-fold); skeletal muscle glycogen synthase (3-fold); and myelin basic protein (30-fold). When these substrates were used to assay extracts fractionated on DEAE-Sephacel, at least three distinct peaks of stimulated kinase activity were detected, eluting at 0.12, 0.17, and 0.21 M NaCl. These peaks were tentatively designated M-phase Activated Kinases(s), MAK-H, MAK-S, and MAK-M, respectively. Using histone H1 as a selective probe for MAK-H and S6 peptide or Kemptide as probes for MAK-S, the kinase activities comprising these peaks were found to cycle with the meiotic cell cycle.
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PMID:Activation of multiple protein kinases during the burst in protein phosphorylation that precedes the first meiotic cell division in Xenopus oocytes. 244 2

Regulatory properties of a partially purified Ca2+ -channel preparation from isolated rabbit skeletal muscle triads were examined in proteoliposomes. These properties included (i) inhibition by phenylalkylamine antagonists, such as verapamil, (ii) inhibition by the GTP-binding protein Go in the presence of guanosine 5'-[gamma-thio]triphosphate, and (iii) regulation of phenylalkylamine inhibition as a result of phosphorylation by a polypeptide-dependent protein kinase (PK-P). By selective reconstitution of protein fractions obtained by wheat germ lectin and ion-exchange chromatography, a separation of Ca2+-channel activity (fraction C) from regulatory component(s) (fraction R) responsible for verapamil sensitivity was achieved. Reconstitution of fraction C alone yielded vesicles that exhibited channel-mediated 45Ca2+ uptake that could be directly inhibited by coreconstitution of Go in the presence of guanosine 5'-[gamma-thio]triphosphate. However, the 45Ca2+ uptake obtained with fraction C was not inhibited by verapamil. Coreconstitution of fractions C and R yielded vesicles in which the sensitivity of 45Ca2+ uptake to verapamil was restored. The verapamil sensitivity of this preparation could be inhibited by PK-P. Fraction C, obtained by wheat germ agglutinin-Sepharose chromatography followed by DEAE-Sephacel chromatography, included a 180-kDa protein that was phosphorylated by cAMP-dependent protein kinase (PK-A) but not by PK-P and a 145-kDa protein (180 kDa under nonreducing conditions) that was not phosphorylated by either kinase. Fraction R contained proteins that did not adsorb to wheat germ lectin and included 165-kDa and 55-kDa proteins that were phosphorylated by PK-P but not by PK-A. These results suggest a complex model for Ca2+-channel regulation in skeletal muscle involving a number of distinct, separable protein components.
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PMID:Functional reconstitution of skeletal muscle Ca2+ channels: separation of regulatory and channel components. 245 79

The mitochondrial sulfurtransferase, rhodanese, has been analyzed for phosphate content. Significant amounts of protein-bound phosphate (30-40%) were measured in the six rhodanese preparations examined. Chromatographic experiments followed by phosphate analyses done on two of the preparations indicated that rhodanese A and rhodanese B, two enzyme forms that were previously resolved on DEAE-Sephadex by Blumenthal and Heinrikson (Blumenthal, K., and Heinrikson, R. L. (1971) J. Biol. Chem. 240, 2430-2437), correspond to dephospho- and phosphorhodanese, respectively. The phosphorylation of rhodanese by [gamma-32P]ATP is catalyzed by cAMP-dependent protein kinase. The stoichiometry of 32P incorporation based on the amount of dephosphorhodanese in the enzyme preparation approaches 1.0. The phosphorylation site is accessible in rhodanese that is free of substrate sulfur but not in the covalent enzyme-sulfur intermediate which is formed as an obligatory step during the course of catalysis. Because the cellular localization of cAMP-dependent protein kinase makes it unlikely as the physiologic modulator of rhodanese activity, liver extracts have been tested for a rhodanese kinase that does not require cAMP. Rhodanese kinase activity which is independent of cAMP is observed in extract fractions resolved by Affi-Gel Blue chromatography and freed from endogenous rhodanese by chromatography on Sephadex G-100. These results together with previous findings from this and other laboratories have led to a working model of a bicyclic cascade system that can modulate the rate of mitochondrial respiration. The essence of the model is a transduction and amplification of cellular signals into the altered covalent phosphorylation of rhodanese. Rhodanese, in turn, serves as a converter enzyme which directly alters the rate of the respiratory chain and, thus, ATP production by the reversible sulfuration of key iron-sulfur centers. The model, when expanded to include signal pathways initiated by hormones or neurotransmitters, represents a mechanism by which mitochondria can recognize and meet changing energy demands.
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PMID:Bovine mitochondrial rhodanese is a phosphoprotein. 249 22

A 43-kDa DNA binding protein which recognizes the TGACGTCA element of the rat somatostatin promoter has been purified from rat brain. Purification of the protein involved initial separation of three sequence-specific binding activities, b1-b3, from each other using DEAE-Sepharose chromatography. The protein corresponding to the b2 complex was further purified to apparent homogeneity by two cycles of sequence-specific DNA affinity chromatography, yielding a single species with an apparent mass of 43,000 daltons on a silver-stained polyacrylamide gel. Sequence-specific DNA binding of this purified protein was demonstrated by Southwestern blotting, renaturation, and DNase I footprinting studies. The 43-kDa protein was phosphorylated on serine residue(s) by the catalytic subunit of cAMP-dependent protein kinase, as shown by phosphoamino acid analysis. Furthermore, the purified protein specifically stimulated transcription from the rat somatostatin promoter in an in vitro transcription system. These results indicate that this 43-kDa protein is a transcription factor required for somatostatin gene expression.
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PMID:Purification and characterization of a 43-kDa transcription factor required for rat somatostatin gene expression. 256 50

A method is suggested for obtaining a catalytic subunit of cAMP-dependent protein kinase from the cattle myocardium. The specific activity of protein kinase is 0.5 mumol 32P per 1 mg of the enzyme. The method is based on the difference of protein kinase in the subunit and choloenzyme charges, it embraces the stages of homogenization, ultracentrifugation and biospecific elution on anion exchanger of DEAE-Sepharose-CL-6B using 10(-4) M cAMP in the stationary variant.
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PMID:[Preparation of catalytic subunits of cAMP-dependent protein kinase from cattle myocardium]. 258 46

We examined the extranuclear effects of thyroid hormones on human platelets. Pretreatment with DL-thyroxine or DL-triiodothyronine inhibited collagen-induced aggregation, in a dose-dependent manner, but other derivatives of thyroid hormone had no significant effects. In contrast to collagen, 12-O-tetradecanoylphorbol-13-acetate-induced aggregation was not affected by thyroid hormones at the same concentration range. Thyroxine also inhibited the release of [14C] serotonin from collagen-stimulated platelets, with a marked reduction in the phosphorylation of 20,000-dalton protein. Thyroxine and triiodothyronine had inhibitory effects on myosin light chain kinase purified from human platelets and inhibited more markedly the myosin light chain kinase than protein kinase C (Ca2+/phospholipid-dependent enzyme) and cAMP-dependent protein kinase. In addition, L-thyroxine behaved as a competitive inhibitor of myosin light chain kinase toward calmodulin, and the Ki value was calculated to be 2.6 microM. To determine whether or not thyroxine directly binds myosin light chain kinase, we prepared an affinity column, using L-thyroxine as the ligand. Myosin light chain kinase was selectively bound to the column while calmodulin passed through. We also designed a procedure for the purification of myosin light chain kinase from human platelets, using L-thyroxine-affinity chromatography. A markedly increased purification was thus achieved, and DEAE-cellulose and L-thyroxine-affinity chromatography were made feasible. These results suggest that thyroxine can serve as a pharmacological tool for elucidating the biological significance of myosin light chain kinase-mediated reactions and is a pertinent ligand which can be used to purify myosin light chain kinase from platelets as a substitute for calmodulin.
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PMID:Thyroid hormones inhibit platelet function and myosin light chain kinase. 272 89

Using DEAE-Toyopearl column chromatography, a preparation of pigeon skeletal muscle phosphorylase kinase was obtained in a state approaching homogeneity. The molecular mass of the native enzyme (1320 kDa) and the subunit formula (alpha beta gamma delta)4 are similar to those of rabbit and chicken counterparts. Both red and white pigeon skeletal muscle isozymes contain the alpha'-subunit instead of alpha. Gradient SDS-PAGE electrophoresis revealed small but well-reproducible differences in the molecular masses of rabbit, chicken and pigeon muscle beta- and gamma-subunits. The activity ratio at pH 6.8/8.2 is 0.06-0.15 for different preparations of phosphorylase kinase b. The activity of pigeon muscle phosphorylase kinase b is Ca2+-dependent. The [Ca2+]0.5 value at pH 7.0 is 20 microM, which exceeds that for the chicken muscle enzyme by two orders of magnitude. In the presence of Ca2+, pigeon phosphorylase kinase b is activated 4-fold by saturating concentrations of calmodulin and troponin C. Pigeon muscle phosphorylase b is activated 3-5-fold during autophosphorylation or phosphorylation by the catalytic subunit of cAMP-dependent protein kinase.
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PMID:[Purification, quaternary structure and regulatory properties of phosphorylase kinase from pigeon skeletal muscle]. 275 64

By a new procedure, the holoenzyme of bovine heart type II cAMP-dependent protein kinase was purified to homogeneity as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). A high performance liquid chromatography-DEAE purification step resolved two distinct peaks of protein kinase activity, which were designated Peak 1 and Peak 2 based on their order of elution. The two peaks exhibited similar Stokes radii and sedimentation coefficients. They had similar ratios of regulatory to catalytic subunits both by densitometric scanning of SDS-PAGE bands and by the ratios of equilibrium [3H]cAMP binding to maximal kinase activity. These results suggested that the holoenzyme of each peak contained two regulatory subunits and two catalytic subunits, although a subpopulation of holoenzyme lacking one catalytic subunit also appeared to be present in Peak 2. Assays of cAMP indicated that the Peak 1 holoenzyme was cAMP-free, but half of the Peak 2 holoenzyme cAMP binding sites contained cAMP. Determination of [3H]cAMP dissociation rates showed that the cAMP was equally distributed in binding Site 1 and Site 2 of Peak 2. Although SDS-PAGE analysis ruled out conversions by proteolysis or autophosphorylation-dephosphorylation, Peak 1 could be partially converted to Peak 2 by the addition of subsaturating amounts of cAMP. Interconvertibility of the two holoenzyme peaks strongly suggested that the difference between the two peaks was caused by the presence of cAMP in Peak 2. Peak 2 holoenzyme, as compared to Peak 1, had enhanced binding in nonequilibrium [3H]cIMP and [3H]cAMP binding assays, as was expected due to the presence of cAMP and to the known positive cooperativity in binding of cyclic nucleotides to the kinase. The positive cooperativity in kinase activation, as indicated by the Hill coefficient, was greater for Peak 2 than Peak 1, but the cAMP concentration required for half-maximal activation (Ka) of each of the two peaks was very similar. In conclusion, Peak 2 is an inactive ternary complex of cAMP, regulatory subunit, and catalytic subunit, and Peak 1 is a cAMP-free holoenzyme. The cAMP-bound form may represent a major cellular form of the enzyme which is primed for activation.
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PMID:Purification and characterization of an inactive form of cAMP-dependent protein kinase containing bound cAMP. 282 99

Eighteen site-selective cAMP analogs modified at either the C-8 position or the C-6 position were tested for their growth regulatory effects on the Harvey murine sarcoma virus-transformed NIH/3T3 clone 13-3B-4 cells grown in a serum-free defined medium. All 18 analogs, when tested individually, exhibited an appreciable growth inhibitory effect at micromolar concentrations. The most potent growth inhibitory analogs contained a thio moiety at the C-8 position. In general, C-6 analogs required 5-10-fold greater concentrations than C-8 analogs to produce the same degree of growth inhibition. The growth inhibition induced by these analogs was accompanied by a change in cell morphology; cells treated with the analogs exhibited the morphology characteristic of untransformed fibroblasts, while untreated cells retained a transformed phenotype. The regulatory subunit of cAMP-dependent protein kinase, the cAMP receptor protein, has two different intrachain cAMP binding sites, and cAMP analogs modified at the C-8 position (C-8 analogs) are generally selective for Site 1, while analogs modified at the C-6 position (C-6 analogs) are generally selective for Site 2. Thus, C-8 and C-6 analogs were tested in combination to enhance the growth regulatory effect. Both growth inhibition and morphological change were enhanced synergistically by a combination of the C-6 and C-8 analogs. Two C-6 analogs or two C-8 analogs added together did not cause synergism. For both growth inhibition and phenotypic change, C-8 thio analogs acted far more synergistically than C-8 amino analogs when cells were treated in combination with C-6 analogs, suggesting a response of the RII rather than the RI cAMP receptor protein. DEAE-cellulose chromatography revealed that the growth inhibition, in fact, correlates with an increase of the RII cAMP receptor protein and a decrease of the RI receptor protein. The growth inhibitory effect of the site-selective analogs was not due to the cytotoxic effect of adenosine metabolites as shown by the different behavior of 8-Cl-cAMP compared with 8-Cl-adenosine in 1) cell cycle effects and 2) release from growth inhibition. It is concluded that the observed growth inhibition and phenotypic reversion of 13-3B-4 cells is most likely mediated through the cellular effector, the RII cAMP receptor protein.
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PMID:Reverse transformation of Harvey murine sarcoma virus-transformed NIH/3T3 cells by site-selective cyclic AMP analogs. 282 44

Two different phosphofructokinase-phosphorylating protein kinases were separated from extracts of Ascaris suum muscle by chromatography on DEAE-Fractogel. They were tentatively designated phosphofructokinase kinase I and phosphofructokinase kinase II. Phosphofructokinase kinase I eluted from the chromatography column at an ionic strength of 0.07 and contained about 25% of the phosphofructokinase-phosphorylating activity assayed in crude extracts. The protein kinase activity was not stimulated by the addition of either cAMP or cGMP. It was inhibited by the heat-stable protein kinase inhibitory protein from rabbit muscle (Walsh inhibitor), by the regulatory subunit of cAMP-dependent protein kinase from beef heart, and by the cAMP-binding protein from Ascaris muscle. These properties suggest that phosphofructokinase kinase I is homologous to the catalytic subunit of cAMP-dependent protein kinases from mammals. This assumption is supported by the estimation of the Mr of 40,000 for the purified phosphofructokinase kinase I under denaturing conditions and by the fact that the presence of cAMP eliminated the inhibition by the cAMP binding proteins. The isoelectric point of the enzyme was 8.7. Phosphofructokinase kinase II was eluted from the DEAE-Fractogel column at an ionic strength of 0.16 and contained approximately 75% of the phosphofructokinase kinase activity measured in the extracts. The molecular and kinetic properties were significantly different from those of phosphofructokinase kinase I. The enzyme was not inhibited by the heat-stable inhibitor protein nor by cAMP-binding proteins. The Mr of the native enzyme was estimated as 220,000 by molecular sieve chromatography. The isoelectric point of the enzyme was pH 5.45.
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PMID:Identification of two different phosphofructokinase-phosphorylating protein kinases from Ascaris suum muscle. 282 70


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