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:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to investigate the sequence of events triggered by cyclic AMP and cyclic GMP in exocrine pancreatic cells, the identification of the various protein kinases possibly present in this tissue is of major interest. Further analysis of the two cyclic AMP-dependent protein kinases previously reported [11] suggests that KI is a degraded form of KII. It is therefore likely that a single holoenzyme is present in exocrine cells. In addition no protein kinase, specifically stimulated by cyclic GMP, has been detected in any fraction obtained in the course of purification of the cyclic AMP-dependent protein kinase. A faster and more efficient method than the one previously described [11] allows the purification (5000 times) of the protein kinase catalytic subunit. Analysis of the subunit by sodium dodecyl sulphate polyacrylamide gel electrophoresis indicates a molecular weight of 40 000 +/- 1 000. The enzyme phosphorylates specifically histone H2B (Vm = 236 min(-1), Km = 1.15 10(-5) M) and to a lesser extent H2A, H5 and H1 (Vm = 55--77 min(-1), Km 5--25 10(-5) M). Histones H3 and H4 are not phosphorylated. The effect of the heat stable inhibitor, extracted from rat pancreas, on the phosphorylation of H2B has been investigated. The inhibition is of the non competitive type with respect to ATP. The inhibition at various histone concentrations cannot be described by the Michaelis-Menten equation.
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PMID:Characterization of the cyclic AMP-dependent protein kinase from rat pancreas, further purification of the catalytic subunit, substrate specificity, effect of the pancreatic heat stable inhibitor. 21 37

Sarcolemmal and sarcoplasmic reticulum membrane vesicle fractions were isolated from cardiac microsomes. Separation of sarcolemmal and sarcoplasmic reticulum membrane markers was documented by a combination of correlative assay and centrifugation techniques. To facilitate the separation, the crude microsomes were incubated in the presence of ATP, Ca2+, and oxalate to increase the density of the sarcoplasmic reticulum vesicles. After sucrose gradient centrifugation, the densest subfraction (sarcoplasmic reticulum) contained the highest (K+,Ca2+)-ATPase activity and virtually no (Na2+,K+)-ATPase activity, even when latent (Na+,K+)-ATPase activity was unmasked. In addition, the sarcoplasmic reticulum fraction contained no significant sialic acid, beta receptor binding activity, or adenylate cyclase activity. Sarcolemmal membrane fractions were of low buoyant density. Preparations most enriched in sarcolemmal vesicles contained the highest level of all the other parameters and only about 10% of the (K+,Ca2+)-ATPase activity of the sarcoplasmic reticulum fraction. The results suggest that (Na+,K+)-ATPase, sialic acid, beta-adrenergic receptors, and adenylate cyclase can be entirely accounted for by the sarcolemmal content of cardiac microsomes. Gel electrophoresis of the sarcolemmal and sarcoplasmic reticulum membrane fractions showed distinct bands. Membrane proteins exclusive to each of the fractions were also demonstrated by phosphorylation. Cyclic AMP stimulated phosphorylation by [gamma-32P]ATP of two proteins of apparent Mr = 20,000 and 7,000 that were concentrated in sarcoplasmic reticulum, but the stimulation was markedly dependent on the presence of added soluble cyclic AMP-dependent protein kinase. Cyclic AMP also stimulated phosphorylation of membrane proteins in sarcolemma, but this phosphorylation was mediated by an endogenous protein kinase activity. The apparent molecular weights of these phosphorylated proteins were 165,000, 90,000, 56,000, 24,000, and 11,000. The results suggest that sarcolemma may contain an integral enzyme complex, not present in sarcoplasmic reticulum, that contains beta-adrenergic receptors, adenylate cyclase, cyclic AMP-dependent protein kinase, and several substrates of the protein kinase.
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PMID:Separation of vesicles of cardiac sarcolemma from vesicles of cardiac sarcoplasmic reticulum. Comparative biochemical analysis of component activities. 21 77

We describe the purification to apparent homogeneity of a protein kinase (designated AUT-PK 85) from adrenocortical carcinoma 494, as evidenced by sodium dodecyl sulfate/polyacrylamide gel electrophoresis. The enzyme binds cyclic AMP (cAMP) and autophosphorylates but does not use histone, casein, or polysomes as substrates in the presence or absence of cAMP. Stoichiometry of phosphate incorporation was 0.71 mol/mol of enzyme. The enzyme was found to have a molecular weight of 85,000 based on gel filtration. The protein was composed of polypeptides having the same molecular weight 42,000, and thus it appears to consist of two subunits of equal size. The enzyme bound two cAMP molecules, indicating that each subunit binds one molecule of cAMP. The homogeneous enzyme did not inhibit the protein kinase activity of the free catalytic subunit of normal adrenal cAMP-dependent protein kinase under conditions such that recombination with the free regulatory subunit occurred. cAMP bound specifically to the enzyme with an apparent dissociation constant (cfKd) of 1.2 X 10(-8) M. Scatchard plot data indicated one type of binding sites for cAMP. The enzyme did not bind adenosine. This novel autophosphorylating, cAMP-binding, protein kinase may be a characteristic of certain adrenal neoplasms.
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PMID:Novel protein kinase, AUT-PK 85, isolated from adrenocortical carcinoma: purification and characterization. 21 6

The photoaffinity label 8-azido[32P]adenosine 3':5'-monophosphate (8-azido-cyclic [32P]AMP) was used to analyze both the cAMP-binding component of the purified cAMP-dependent protein kinase, and the cAMP-binding proteins present in crude tissue extracts of bovine cardiac muscle. 8-Azido-cyclic [32P]AMP reacted specifically and in stoichiometric amounts with the cAMP-binding proteins of bovine cardiac muscle. Upon phosphorylation, the purified cAMP-binding protein from bovine cardiac muscle changed its electrophoretic mobility on sodium dodecyl sulfate-polyacrylamide gels from an apparent molecular weight of 54,000 to an apparent molecular weight of 56,000. In tissue extracts of bovine cardiac muscle, most of the 8-azido-cyclic [32P]AMP was incorporated into a protein band with an apparent molecular weight of 56,000 which shifted to 54,000 upon treatment with a phosphoprotein phosphatase. Thus a substantial amount of the cAMP-binding protein appeared to be in the phosphorylated form. Autoradiograms following sodium dodecyl sulfate-polyacrylamide gel electrophoresis of both the pure and impure cAMP-binding proteins labeled with 8-azido-cyclic [32P]AMP revealed another binding component with a molecular weight of 52,000 which incorporated 32P from [gamma-32P]ATP without changing its electrophoretic mobility. Limited proteolysis of the 56,000- and 52,000-dalton proteins labeled with 32P from either [gamma-32P]ATP.Mg2+ or 8-azido-cyclic [32P]AMP showed patterns indicating homology. On the other hand, peptide maps of the major 8-azido-cyclic [32P]AMP-labeled proteins from tissue extracts of bovine cardiac muscle (Mr = 56,000) and rabbit skeletal muscle (Mr = 48,000) displayed completely different patterns as expected for the cAMP-binding components of types II and I protein kinases. Both phospho- and dephospho-cAMP-binding components from the purified bovine cardiac muscle protein kinase were also resolved by isoelectric focusing on polyacrylamide slab gels containing 8 M urea. The phosphorylated forms labeled with 32P from either [gamma-32P]ATP or 8-azido-cyclic [32P]AMP migrated as a doublet with a pI of 5.35. The 8-azido-cyclic [32P]AMP-labeled dephosphorylated form also migrated as a doublet with a pI of 5.40. The phosphorylated and dephosphorylated cAMP-binding proteins migrated with molecular weights of 56,000 and 54,000, respectively, following a second dimension electrophoresis in sodium dodecyl sulfate. The lower molecular weight cAMP-binding component (Mr = 52,000) was also apparent in these gels. Similar experiments with the cAMP-binding proteins present in tissue extracts of bovine cardiac muscle indicate that they are predominantly in the phosphorylated form.
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PMID:Resolution of the phosphorylated and dephosphorylated cAMP-binding proteins of bovine cardiac muscle by affinity labeling and two-dimensional electrophoresis. 21 41

8-Azido-adenosine 5'-triphosphate (n8(3)ATP) appeared to be a suitable photoaffinity label for the protein kinase dependent on adenosine 3':5'-monophosphate (cAMP). It competes with ATP for the high-affinity ATP site in the undissociated form of the kinase and in the phosphotransferase reaction catalyzed by the catalytic subunit. Furthermore, it is accepted as a substrate in the phosphotransfer reaction. n8(3)ATP incorporated into the holoenzyme is covalently bound irradiation. Protection experiments with ATP indicated that this covalent attachment occurs in the high-affinity ATP site of the enzyme. Polyacrylamide gel electrophoresis in the presence of sodium dodecylsulfate shows that n8(3)ATP is bound to the catalytic subunit. After irradiation the enzyme was dissociated by cAMP. Proportional to the incorporated [gamma-32P]n8(3)ATP, a loss in phosphotransferase activity was found. These results support our model that both ATP sites coincide with respect to their adenine binding part. Thus binding of the regulatory subunit to the catalytic subunit would then transform the low-affinity catalytically active ATP site into a high-affinity inactive site.
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PMID:Localization of the high-affinity ATP site in adenosine-3':5'-monophosphate-dependent protein kinase type I. Photoaffinity labelling studies with 8-azidoadenosine 5'-triphosphate. 22 43

Some characteristics of the protein kinase activity associated with a synaptosomal plasma membrane (synaptic membrane) fraction and a synaptic junction fraction have been compared. Autoradiography of the phosphorylated fractions separated on sodium dodecyl sulfate polyacrylamide gels showed that cyclic AMP stimulates the phosphorylation of five polypeptides in synaptic membranes, whereas no cyclic AMP dependency could be detected in synaptic junctions. Kinetic studies demonstrated that synaptic junctions contain a high Km and a low Km protein kinase activity while only the high Km activity could be detected in synaptic membranes. The intrinsic ATPase activity of synaptic membranes was shown to strongly interfere with measurements of protein kinase activity. Cyclic AMP binding experiments revealed a 2.6-fold enrichment of cyclic AMP binding capacity in synaptic junctions as compared to synaptic membranes. Protein phosphatase activity was not detected in synaptic junctions but was associated with synaptic membranes, where cyclic AMP was shown to either stimulate or inhibit the dephosphorylation of different polypeptides.
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PMID:Distribution and properties of protein kinase and protein phosphatase activities in synaptosomal plasma membranes and synaptic junctions. 22 46

Angiotensin II, catecholamines, and vasopressin are thought to stimulate hepatic glycogenolysis and gluconeogenesis via a cyclic AMP-independent mechanism that requires calcium ion. The present study explores the possibility that angiotensin II and vasopressin control the activity of regulatory enzymes in carbohydrate metabolism through Ca2+-dependent changes in their state of phosphorylation. Intact hepatocytes labeled with [32P]PO43- were stimulated with angiotensin II, glucagon, or vasopressin and 30 to 33 phosphorylated proteins resolved from the cytoplasmic fraction of the cell by electrophoresis in sodium dodecyl sulfate polyacrylamide slab gels. Treatment of the cells with angiotensin II or vasopressin increased the phosphorylation of 10 to 12 of these cytosolic proteins without causing measurable changes in cyclic AMP-dependent protein kinase activity. Glucagon stimulated the phosphorylation of the same set of 11 to 12 proteins through a marked increase in cyclic AMP-dependent protein kinase activity. The molecular weights of three of the protein bands whose phosphorylation was increased by these hormones correspond to the subunit molecular weights of phosphorylase (Mr = 93,000), glycogen synthase (Mr = 85,000), and pyruvate kinase (Mr = 61,000). Two of these phosphoprotein bands were positively identified as phosphorylase and pyruvate kinase by affinity chromatography and immunoprecipitation, respectively. Incubation of hepatocytes in a Ca2+-free medium completely abolished the effects of angiotensin II and vasopressin on protein phosphorylation but did not alter those of glucagon. Treatment of hepatocytes with angiotensin II, glucagon, or vasopressin stimulated phosphorylase activity by 250 to 260%, inhibited glycogen synthase activity by 50%, and inhibited pyruvate kinase activity by 30 to 35% (peptides) to 70% (glucagon). The effects of angiotensin II and vasopressin on the activity of all three enzymes were completely abolished if the cells were incubated in a Ca2+-free medium while those of glucagon were not altered. The results imply that angiotensin II, catecholamines, and vasopressin control hepatic carbohydrate metabolism through a Ca2+-requiring, cyclic AMP-independent pathway that leads to the phosphorylation of important regulatory enzymes.
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PMID:The role of calcium ion as a mediator of the effects of angiotensin II, catecholamines, and vasopressin on the phosphorylation and activity of enzymes in isolated hepatocytes. 22 57

DEAE-cellulose chromatography of the 20,000g supernatant fraction of homogenates of C-1300 murine neuroblastoma (clone N2a) yields one major and two minor peaks of cyclic AMP-dependent protein kinase activity. Assessment of the endogenous activation state of the enzyme(s) reveals that the enzyme is fully activated by the treatment of whole cells with adenosine (10 microM) in the presence of the phosphodiesterase inhibitor Ro 20 1724 (0.7 mM). This treatment produces a large elevation in the cyclic AMP content of the cells. The treatment of whole cells with adenosine alone (1-100 microM) or Ro 20 1724 alone (0.1-0.7 mM) produces minimal elevations in cyclic AMP but nevertheless causes significant activations of cyclic AMP-dependent protein kinase. The autophosphorylation of whole homogenates of treated and untreated cells was studied using [gamma-32P] ATP, sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. Treatments which activate cyclic AMP-dependent protein kinase selectively stimulate the incorporation of 32P into several proteins. This stimulation is most prominent in the 15,000-dalton protein band. The addition of cyclic AMP to phosphorylation reactions containing homogenate of untreated cells stimulates the phosphorylation of the same protein bands. These results indicate that adenosine may have regulatory functions through its effect on the cyclic AMP:cyclic AMP-dependent protein kinase system.
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PMID:Activation of cyclic AMP-dependent protein kinase and stimulation of protein phosphorylation in response to adenosine in C-1300 murine neuroblastoma. 22 64

A mixed membrane preparation obtained from turtle bladder epithelial cells contains (Na+ + K+)-ATPase, adenylate cyclase and protein kinase, which interact with ouabain, norepinephrine and cyclic AMP, respectively. When such a preparation is obtained from bladders which had been preexposed to serosal fluids containing the tritiated form of 4,4'-diisothiocyano-2,2'-disulfonic stilbene, the subsequently isolated membrane proteins are enriched in tritium as well as in the afore-mentioned enzymes, none of which is inhibited. Free-flow electrophoresis separates the mixed membrane preparation into two distinguishable groups: one, construed as apical membranes, is enriched in norepinephrine-sensitive adenylate cyclase and cyclic AMP-sensitive protein kinase; the other, construed as basal-lateral membranes, is enriched in ouabain-sensitive ATPase and 4,4'-diisothiocyano-2,2'-disulfonic stilbene-binding proteins. The physiological counterparts of these enzymatically defined membrane markers are the mucosal sidedness of the transport effects of norepinephrine and cyclic AMP derivatives and the serosal sidedness of the transport effects of ouabain and disulfonic stilbenes in the intact turtle bladder. The discreteness and ion selectivity of each membrane-bound, transport-related element are discussed in relation to the corresponding characteristics of each transport process in vivo; the possibility of regulation of anion transport by adenylate cyclase-protein kinase system is also discussed.
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PMID:Localization and characterization of transport-related elements in the plasma membrane of turtle bladder epithelial cells. 22 43

Cyclic AMP-dependent protein kinase from human erythrocyte plasma membranes was solubilized with Triton X-100, partially purified, and systematically characterized by a series of physicochemical studies. Sedimentation and gel filtration experiments showed that the 6.6 S holoenzyme had a Stokes radius (a) of 5.7 nm and was dissociated into native 4.8 S cAMP-binding (a = 4.5 nm) and 3.2 S catalytic (a = 2.6 nm) subunits. A minimum subunit molecular weight of 48,000 was established for the regulatory subunit by photoaffinity labeling with 8-azido[32P]cAMP, sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and autoradiography. These data suggest an asymmetric tetrameric (R2C2) structure (Mr approximately equal to 160,000) for the membrane-derived enzyme. Membrane-derived protein kinase was characterized as a type I enzyme on the basis of its R subunit molecular weight, pI values (R, 4.9; holoenzyme, 5.75 and 5.95), dissociation by 0.5 M NaCl and 50 microgram/ml of protamine, 20-fold reduced affinity for cAMP in the presence of 0.3 mM MgATP, elution from DEAE-cellulose at low ionic strength, and kinetic and cAMP-binding properties. The physicochemical properties of the membrane protein kinase closely parallel the characteristics of erythrocyte cytosolic protein kinase I but are clearly dissimilar from those of the soluble type II enzyme. Moreover, regulatory subunits of the membrane-associated and cytosolic type I kinases were indistinguishable in size, shape, subunit molecular weight, charge, binding and reassociation properties, and peptide maps of the photoaffinity-labeled cAMP-binding site, suggesting a high degree of structural and functional homology in this pair of enzymes. In view of the predominant occurrence of particulate type II protein kinases in rabbit heart and bovine cerebral cortex, the present results suggest that the distribution of membrane-associated protein kinases may be tissue- or species-specific, but not isoenzyme-specific.
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PMID:Characterization and comparison of membrane-associated and cytosolic cAMP-dependent protein kinases. Studies on human erythrocyte protein kinases. 22 97


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