Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

To identify and investigate the cAMP binding sites of human red cell membranes a photoaffinity analog of cAMP, 8-azidoadenosine 3',5'-cyclic monophosphate (8-N3cAMP), has been synthesized. This analog activates cAMP-dependent protein kinase(s) in the red cell membrane. It exhibits tight, but reversible binding to the membranes which is competitive with cAMP. Photolysis of [32P]-8-N3cAMP with red cell membranes results in covalent incorporation of radioactive label onto two specific membrane proteins. This incorporation requires activating light and is reduced to background levels with addition of low levels of cAMP. Prephotolysis of 8-N3cAMP completely abolished its ability to photolabel membrane proteins. Both the reversible and photocatalyzed binding of 8-N3cAMP show saturation kinetics. The molecular weights of the two primarily labeled proteins are approximately 49,000 and 55,000. The differential effects of cAMP, ATP, and adenosine on the photocatalyzed incorporation of [32P]-8-N3cAMP onto these two proteins suggest that they have biochemically different properties. The potential usefulness of this compound for investigating various molecular aspects of cAMP action is discussed.
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PMID:Photoaffinity labeling of adenosine 3',5'-cyclic monophosphate binding sites of human red cell membranes. 16 87

Partially purified rabbit skeletal muscle phosphorylase phosphatase (EC 3.1.3.17; phosphoprotein phosphohydrolase) was inactivated when it was incubated with exogenous cyclic AMP-dependent protein kinase (EC 2.7.1.37; ATP:protein phosphotransferase), cyclic AMP, and ATP-Mg. Subsequent separation of the phosphatase by acrylamide gel electrophoresis or sucrose density centrifugation resulted in reactivation of the enzyme. The phosphatase decreased in molecular weight from approximately 70,000 to 52,000, and a phosphorylated inhibitor with molecular weight of 26,000 was found. Reactivation of phosphatase also occurred when it was incubated with MnCl2 or trypsin. The inhibitor was effective at less than 10(-8) M and was relatively heat stable. Its activity was destroyed by tryptic digestion and by dephosphorylation by a Mn-stimulated phosphatase. These observations support the possibility that phosphorylase phosphatase activity is controlled by cyclic AMP-dependent protein kinase and a Mn-stimulated phosphatase by a reaction involving phosphorylation and dephosphorylation of a protein phosphatase inhibitor.
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PMID:Inactivation of rabbit muscle phosphorylase phosphatase by cyclic AMP-dependent kinas. 17 49

Experiments with cold exposure confirmed previous studies indicating that the endogenous protein acitvator of phosphodiesterase (PDEA) isolated by Cheung participates in the in vivo regulation of 3':5'-cyclic adenosine monophosphate (cAMP) in adrenal medulla. This activator of cAMP phosphodiesterase (PDE) (3':5'-cyclic-AMP 5'-nucleotidohydrolase, EC 3.1.4.17) is present in the particulate as well as the soluble fractions of rat brain. It was found that a purified cAMP-dependent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37), in the presence of ATP and cAMP, stimulates 3-fold the release of PDEA from the particulate fraction of rat brain and adrenal medulla. The substrate for this phosphorylation could be either a membrane protein that binds PDEA or PDEA itself. In vivo evidence, however, obtained by injecting rats intraventricularly with [gamma-32P]ATP, indicates that the PDEA does not contain radioactive phosphate in its structure. Also, PDEA could not be phosphorylated by protein kinase in vitro. The following mechanism is postulated: when the intracellular content of cAMP increases it activates a protein kinase which phosphorylates a PDEA-binding membrane protein and releases PDEA. In turn this binds to activator-deficient high Km PDE and decreases its Km to facilitate the hydrolysis of the increased concentration of cAMP.
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PMID:Regulation of transsynaptically elicited increase of 3':5'-cyclic AMP by endogenous phosphodiesterase activator. 17 3

The protein kinase activities of a transplantable, insulin-producing hamster islet cell tumor were characterized using gel filtration, sucrose density gradient centrifugation and acrylamide gel electrophoresis. The post-microsomal supernatant fluid contains 70-80% of the protein kinase activity present in crude homogenates. A cAMP-dependent protein kinase, PK I (Mr 170,000), represents 25% of the soluble protein kinase activity assayed with protamine as substrate. It dissociates in the presence of cAMP into a cAMP-binding protein, R2 (Mr 90,000) and a catalytic subunit C (Mr 33,000). The dissociation induced by cAMP seems to be facilitated by the addition of Mg2+ and ATP. The regulatory subunit, R2, changes its gel filtration pattern in the presence of 0.5 M NaCl suggesting dissociation into a smaller subunit, R1 (Mr 44,000). By analogy with purified beef heart protein kinase (Erlichman et al., 1973) and skeletal muscle protein kinase, PK I. The presence in crude homogenates of a free cAMP-binding protein indistinguishable from the R2 derived by dissociation of PK I, suggests that PK I is partially dissociated in vivo. A cAMP-independent (casein) kinase (Mr 210,000) elutes with PK I on columns of Sepharose 6B. Another cAMP-independent protein kinase, PK II (Mr 88,000), is the predominatn form of soluble protein kinase accounting for approximately 75% of the soluble protein kinase activity detected using protaimine as substrate. This cAMP-independent protein kinase changes its gel filtration pattern in the presence of 0.5 M NaCl giving rise to a form which appears to have the same Mr (33,000) as the catalytic subunit of PK I. Studies comparing the catalytic subunit C of PK I with PK II and its salt-induced smaller molecular form demonstrate facile association of C with the cAMP-binding protein of purified bovine heart protein kinase to yield a hybrid holoenzyme, whereas PK II and its smaller form fail to recombine in this fashion. The 33,000 dalton forms derived from PK I (by cAMP) and PK II (by salt) also show different substrate specificities. It would appear, therefore, that pK II is a cAMP-independent protein kinase unrelated to PK I.
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PMID:Characterization of the protein kinases in a transplantable islet cell tumor of the Syrian hamster. 17 65

Properties and partial purification of the bovine adrenal cholesterol esterase from the 100000 X g supernatant fraction were investigated. Variations of the enzyme activity with time-dependent (enzymatic) and time-dependent (non enzymatic) effects have been demonstrated. Mg2 has been proved to inhibit the enzyme activity by a non-enzymatic effect in 50mM Tris/HCl buffer, pH 7.4. A time-dependent inactivation of the cholesterol esterase has been observed in the same buffer. The enzyme could be protected from this enzymatic inactivation by its substrate, cholesterol oleate. cAMP, ATP and Mg2 cuase a time-dependent stimulation of the enzyme in 50mM Tris/HCl buffer, pH 7.4. This result suggests that corticotropin activates the soluble cholesterol esterase from bovine adrenals via cAMP-dependent protein kinase. This view is strengthened by the incorporation of 32P radioactivity from [gamma-32P] ATP into the protein fraction of the 100,000 X g supernatant. The protein-bound 32P radioactivity could be co-purified with the enzyme activity during the partial purification of the soluble cholesterol esterase.
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PMID:In vitro activation of a soluble cholesterol esterase from bovine adrenals by a cAMP-dependent protein kinase. 18 77

Membranes of rat caudate nucleus contain a dopamine-dependent adenylate cyclase [ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1] and a Ca++ binding protein that activates phosphodiesterase (3':5'-cyclic-AMP 5'-nucleotidohydrolase, EC 3.1.4.17). This activator can be released from the membranes by a phosphorylation with a 3':5' cAMP-dependent protein kinase (ATP-protein phosphotransferase, EC 2.7.1.37). Under the conditions of membrane phosphorylation and activator release, dopamine fails to activate striatal adenylate cyclase. The basal activity of this enzyme is not decreased by the release of the protein activator but the activation by NaF is reduced. Adenylate cyclase is not phosphorylated when the dopamine activation is blocked after the release of the activator, but other membrane proteins are phosphorylated. It is postulated that the endogenous protein stored in striatal membranes can regulate the intracellular concentration of cAMP by an activation of adenylate cyclase while stored in striatal membrane, and by an activation of phosphodiesterase when released into the cytosol after membrane phosphorylation.
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PMID:Regulation of dopamine stimulation of striatal adenylate cyclase by an endogenous Ca++ -binding protein. 18 77

Incubation of purified cyclic guanosine 3':5'-monophospate-dependent protein kinase with [gamma-32P]ATP and Mg2+ led to formation of one 32P-labeled protein, Mr = 75,000, which corresponded to the single protein band detected after polyacrylamide gel electrophoresis in sodium dodecyl sulfate. When electrophoresis was performed without detergent, the labeled protein coincided with the position of cGMP-dependent protein kinase activity. Phosphorylation was enhanced severalfold by either histone or cAMP and was inhibited by the addition of cGMP. Low concentrations of cGMP blocked the stimulatory effects of cAMP or histone (or both). Since neither cAMP-dependent protein kinase nor cGMP-dependent phosphoprotein phosphatase activities were detected in the purified enzyme, we concluded that the cGMP-dependent protein kinase is a substrate for its own phosphotransferase activity and that other protein substrates (histone) and cyclic nucleotides modulate the process of self-phosphorylation.
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PMID:Self-phosphorylation of cyclic guanosine 3':5'-monophosphate-dependent protein kinase from bovine lung. Effect of cyclic adenosine 3':5'-monophosphate, cyclic guanosine 3':5'-monophosphate and histone. 19 21

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

cAMP-and cGMP-dependent protein kinases have been purified. Each enzyme demonstrates high specificity and affinity for the cyclic nucleotide with binding of two moles of nucleotide per holoenzyme and each enzyme is an ATP: phosphotransferase. The holoenzymes have similar molecular weights and demonstrate similar molecular asymmetry. A structural model relating the two enzymes is proposed. cGMP-dependent protein kinase is proposed to be a dimer composed of two identical protomers in isologous association with the chains arranged in anti-parallel fashion. cAMP-dependent protein kinase is proposed to have a similar structure with a dyad axis of symmetry but with a discontinuity in each chain. These structures account for the differing mechanisms of cyclic nucleotide activation of the two enzymes.
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PMID:A hypothesis concerning the structure of cAMP-and cGMP-dependent protein kinases. 19 41

The properties of purified mammalian adenosine 3':5'-cyclic monophosphate (cAMP)- and guanosine 3':5'-cyclic monophosphate (cGMP)-dependent protein kinases were compared. Several physical characteristics of the two enzymes were similar, including size, shape, affinity for cyclic nucleotide binding, and K(m) for ATP. In addition, the amino acid composition of the two proteins indicated a close composition homology (70-90%). Both cyclic nucleotide-dependent protein kinases catalyzed phosphorylation of rat liver pyruvate kinase (EC 2.7.1.40) and fructose 1,6-diphosphatase (EC 3.1.3.11), rabbit skeletal muscle glycogen synthase (EC 2.4.1.11) and phosphorylase b kinase (EC 2.7.1.38), and calf thymus histone H(2)b. The phosphorylation of several synthetic peptides and of trypsin-sensitive and trypsin-insensitive sites in glycogen synthase suggested similar recognition sites on the protein substrates for the two kinases. The cAMP-dependent protein kinase was the better catalyst with each protein or peptides substrate. The results suggest that the two enzymes evolved from a common ancestral protein.
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PMID:Adenosine 3':5'-cyclic monophosphate- and guanosine 3':5'-cyclic monophosphate-dependent protein kinases: possible homologous proteins. 19 77


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