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)

The regulatory subunit (R) of Type I cAMP-dependent protein kinase from rabbit skeletal muscle can serve as a substrate for its catalytic subunit (C). The degree of phosphorylation depends on both the concentration of C and the the time of incubation. Moreover, the phosphorylation can be totally blocked by protein kinase inhibitors. In contrast, cAMP stimulates the phosphorylation of R using the holoenzyme. The purified holoenzyme isolated from rabbit skeletal muscle can be further fractionated into two fractions on DEAE Sephadex column. The first fraction eluted with low salt (50 mM NaCl) contains a much lower concentration of kinases than the second fraction eluted with high salt (100 mM NaCl), but the low salt kinase can be readily phosphorylated in the presence of MgATP. Our data thus implies that only a small fraction of Type I cAMP-dependent protein kinases in the skeletal muscle is present as the phosphorylatable species.
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PMID:Phosphorylation of the regulatory subunit of type I cyclic AMP-dependent protein kinase by its catalytic subunit. 393 39

Preparations of cytoskeleton from Y-1 cells were found to phosphorylate various cytoskeletal proteins when incubated with [gamma-32P]ATP. When cAMP was added to the cytoskeleton, a rapid increase in phosphorylation of cytoskeletal protein was observed, and changes were seen in the phosphorylation of individual proteins; four additional proteins were phosphorylated (mol wt, 165,000, 92,000, 45,000, and 24,000) and three proteins were more intensely phosphorylated than without cAMP (mol wt, 125,000, 51,000, and 38,000). In addition, one protein (mol wt, 96,000) that was intensely phosphorylated without cAMP was not phosphorylated with the cyclic nucleotide, and a second (mol wt, 48,000) was less phosphorylated. The increased level of total phosphorylation returned to the unstimulated level within 10 min. The increased phosphorylation of proteins produced by cAMP was inhibited by protein kinase inhibitor. cAMP-dependent protein kinase activity was closely associated with the cytoskeleton, since it was not removed by Triton X-100 (1%, wt/vol), although some activity could be extracted with buffer containing high concentrations of salt. When the cytoskeleton of Y-1 cells was subjected to treatments that disrupt the cytoskeleton before the cells were extracted (cytochalasin B, colchicine, and sonication), no change was seen in cAMP-dependent protein kinase activity. However, cytochalasin B increased phosphorylation of two proteins that were not phosphorylated by cAMP-dependent kinase (mol wt, 63,000 and 43,000). Sonication of the cytoskeleton before addition of [gamma-32P]ATP caused a number of changes in cAMP-independent phosphorylation, but did not affect cAMP-dependent phosphorylation. cAMP-dependent phosphorylation required Mg2+ and was inhibited by Ca2+. It is concluded that the cytoskeleton of Y-1 cells contains bound cAMP-dependent protein kinase that phosphorylates certain cytoskeleton proteins. The cytoskeleton also contains one or more cAMP-independent kinase systems. It is suggested that the cAMP-dependent protein kinase described here may be important in the cytoskeletal responses to ACTH.
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PMID:Adenosine 3',5'-monophosphate-dependent protein kinase associated with the cytoskeleton of adrenal tumor cells. 406 35

The selective removal of acidic phosphoproteins from the 80 S rat liver ribosome was accomplished by successive alcohol extractions at low salt concentration. The resulting core ribosomes lost over 90% of their translation activity and were unable to support the elongation factor 2 GTPase reaction. Both activities were partially restored when the dialyzed extracts were added back to the core ribosome. The binding of labeled adenosine diphosphoribosyl-elongation factor 2 to ribosomes was also affected by extraction and could be reconstituted, although not to the same extent as the GTPase activity associated with elongation factor 2 in the presence of the ribosome. The alcohol extracts of the 80 S ribosome contained mostly phosphoproteins P1 and P2 which could be dephosphorylated and rephosphorylated in solution by alkaline phosphatase and protein kinase, respectively. Dephosphorylation of the P1/P2 mixture in the extracts caused a decrease in the ability of these proteins to reactivate the polyphenylalanine synthesis activity of the core ribosome. However, treatment of the dephosphorylated proteins with the catalytic subunit of 3':5'-cAMP-dependent protein kinase in the presence of ATP reactivated the proteins when compared to the activity of the native extracts. Rabbit antisera raised against the alcohol-extracted proteins were capable of impairing both the polyphenylalanine synthesis reaction and the elongation factor 2-dependent GTPase reaction in the intact ribosomes.
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PMID:The activity of the acidic phosphoproteins from the 80 S rat liver ribosome. 612 96

Tyrosine hydroxylase (TH) in freshly prepared 45,000 g supernatant from rat striatum was fractionated by DEAE-cellulose chromatography. The elution was made with 2 vols. of buffer (50 mM Tris, pH 7.4; 2 mM dithiothreitol) followed by 4 vols. of a linear NaCl gradient (0 0.3 M) in the same buffer. TH activity was eluted in two distinct peaks: one at about 0.1 M salt (I), and the other at 0.2 M salt (II). The relationship between the two enzymes peaks was examined as follows. (1) Incubation of the supernatant in the presence of cAMP-dependent protein kinase, 1 mM ATP, 10 mM Mg2+, and 0.1 mM cAMP resulted in the elimination of peak I, with a concomitant increase of peak II. This shift of TH peaks was prevented when the protein kinase was blocked by the addition of its inhibitory modulator. (2) Incubation of the supernatant with alkaline phosphatase, an enzyme known to dephosphorylate a variety of phosphoproteins, resulted in the elimination of peak II, with a concomitant increase of peak I. (3) Only freshly prepared supernatants showed two distinct TH peaks from DEAE-cellulose. From supernatants held at 0 degrees C for 24 h. peak II was markedly reduced and peak I concomitantly increased. Since peak II appears to be readily convertible to peak I, no further fractionation was attempted. From the data obtained here, we believe that peaks I and II are respectively the nonphosphorylated and phosphorylated forms of TH. Furthermore, the endogenous distribution of the two TH forms in striatum was altered by the administration of haloperidol (2 mg/kg. i.p.), a neuroleptic drug known to activate the enzyme via a cAMP-dependent mechanism. At 90 min after the treatment, there was a marked increase of peak II, with a concomitant decrease of peak I. Thus, this procedure provides a simple means for estimating the degree of phosphorylation of TH in vivo in catecholaminergic neurons under various physiological and pharmacological conditions.
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PMID:Two forms of striatal tyrosine hydroxylase from DEAE-cellulose chromatography. 613 70

Rat liver nucleocytosolic messenger ribonucleic acid (mRNA) transport is shown to be regulated by proteins with a high affinity for nucleic acids. In the cell-free system described, the energy-dependent transport of all RNA classes [transfer RNA (tRNA), mRNA, and ribosomal RNA (rRNA)] exhibited a dependence upon the availability of discrete minor sets of cytosol proteins. In addition to having a different level of saturation, only the mRNA "transport protein" activities are increased by adenosine cyclic 3',5'-phosphate (cAMP), an effect most likely mediated by a cAMP-dependent protein kinase. The mRNA transport proteins were isolated from cytosol by precipitation with streptomycin sulfate followed by deoxyribonucleic acid (DNA)-cellulose affinity chromatography, or from oligo-(thymidylate)-cellulose bound cytoplasmic messenger ribonucleoprotein (mRNP) particles by high-salt extraction. Either method yielded a protein fraction which exhibited a 1000-fold increase in mRNA transport activity as compared to cytosol. Over one-half of the mRNA transport activity is associated with the mRNP of the cell. A partial homology between the cytosol and mRNP-derived proteins was demonstrated by polyacrylamide gel electrophoresis. One major (20 000 daltons) and several minor proteins (23 000, 52 000, 54 000, and 72 000 daltons) were in common. Nuclear 4-5S exited from in vitro incubated nuclei in three phases, according to their differential in vivo rates of labeling and intranuclear pool sizes. The amount of nuclear RNA transported in vitro as mRNA (about 1.0%) agrees wtih the in vivo estimates. Additional evidence for in vivo equivalence was provided by the physicochemical characterization and bioassay of the RNA. The transported mRNA sedimented in urea-sucrose gradients as an 8-18S heterodisperse product. This RNA initiated cell-free translation with the synthesis of precursor peptides as diverse in size as those for albumin and alpha 2U-globulin. The relative abundancies of various transported mRNAs were different than the corresponding abundancies of liver cytoplasmic mRNAs.
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PMID:Regulated transport of messenger ribonucleic acid from isolated liver nuclei by nucleic acid binding proteins. 616 21

We have found that the calcium action potentials of bag cell neurons from the abdominal ganglion of Aplysia may be enhanced by intracellular microinjection of the catalytic subunit of cyclic AMP-dependent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37). The catalytic subunit was purified from bovine heart and shown to be effective in stimulating the phosphorylation of bag cell proteins in homogenates at concentrations of 10-50 nM. Intracellular injection into isolated bag cell neurons maintained in primary culture was through pressure applied to microelectrodes filled at the tip with catalytic subunit (5-22 muM). In 11 of 16 injected cells, both the slope of the rising phase and the height of the action potentials evoked by a constant depolarizing current were markedly enhanced relative to the pre-injection control (mean increases, 73% and 35%, respectively). This effect could occur with no change in resting potential or in the latency of the action potential from the onset of the depolarizing pulse. The effect was observed with enzyme dissolved in three different salt solutions (Na phosphate, K phosphate, or KCl). In two experiments, tetrodotoxin (50 muM) added to the extracellular medium had no effect on the enhanced action potentials. Subsequent addition of the calcium antagonist Co(2+), however, diminished or abolished the spikes. In more than half of the experiments, the injection of catalytic subunit was accompanied by an increase in the input resistance of the cells as measured by applying small hyperpolarizing current pulses. In three experiments, subthreshold oscillations in membrane potential resulted from the injections. Control injections (24 cells), carried out either with carrier medium alone or with heat-inactivated enzyme preparations, did not produce spike enhancement, increased input resistance, or oscillations. Our data suggest that the stimulation of intracellular protein phosphorylation by the catalytic subunit of cyclic AMP-dependent protein kinase enhances the excitability of bag cell neurons by modifying calcium and potassium channels or currents.
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PMID:Microinjection of catalytic subunit of cyclic AMP-dependent protein kinase enhances calcium action potentials of bag cell neurons in cell culture. 626 Dec 62

A protein kinase with high specificity for histone H1 was purified from a plasmacytoma microsomal fraction by a high-salt wash, ammonium sulfate precipitation, chromatography on DEAE-cellulose, hydroxyapatite and Sephadex G-200 columns, and the main properties of this kinase were studied. A sulfhydryl compound, such as 2-mercaptoethanol or dithiothreitol, was necessary for full activity. The optimum pH was 7.4-7.8. After purification, the histone H1 kinase was not stimulated by cAMP or cGMP. It was not inhibited by the heat-stable cAMP-dependent protein kinase inhibitor from beef heart. It utilized preferentially GTP over ATP as phosphate donor. Km values for ATP and GTP were 58 microM and 1.4 microM respectively; the Km for histone H1 was 14 microgram ml-1. The molecular weight was approximately 90 000 by gel-exclusion chromatography. Analysis of the purified H1-specific protein kinase by polyacrylamide gel electrophoresis in dodecylsulfate showed two bands having molecular weights of approximately 64 000 and 54 000. Many characteristics of this kinase were similar to those of the chromatin-bound protein kinase reported by other workers in rapidly proliferating cells.
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PMID:Purification and characterization of a specific histone H1 protein kinase from mouse plasmacytoma. 626 46

The cAMP-dissociation kinetics of rat mammary gland cytosols are dependent upon the temperature of cAMP association. Dissociation rates (measured at pH 6.5, 24 degrees C) were biphasic (k = 0.08-0.23 min-1 and k = 0.02 min-1) and monophasic (k-1 = 0.02 min-1) after 0 degrees C and 24 degrees C association, respectively. The temperature-dependent change from an initial fast rate to an initial slow rate was observed at all concentrations of cAMP tested from 1 to 1000 nM. When the slow-dissociating site was associated with non-radioactive 8-bromo-cAMP, the dissociation rates of [3H]-cAMP from the remaining dissociating site was slow (k = 0.02 min-1) and fast (k = 0.05 min-1) at 24 degrees C and 0 degrees C associating rate can be converted to the slow-dissociating rate by warming. When 0.2 M sodium thiocyanate was added to the association mixture at 24 degrees C, biphasic dissociation rates of k = 0.23 min-1 and k = 0.02 min-1 were observed, suggesting that the chaotropic salt blocks the interconversion of rates. The data are consistent with the model for cAMP-dependent protein kinase which exhibits two binding sites with different affinities. The type II enzyme from mammary gland cytosol exhibits in addition the phenomenon of temperature-dependent interconversion of the two binding affinities.
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PMID:Regulation of cAMP-dissociation kinetics in lactating rat mammary gland. 627 93

The presence and characteristics of protein kinase(s) were studied in supernatants of sonicates of dispersed bovine parathyroid cells. cAMP caused a 3- to 5-fold stimulation of protein kinase activity in such extracts, with half of the maximal activation at 4--5 x 10(-8) M cAMP. Protein kinase inhibitor nearly totally abolished both basal and cAMP-stimulated activity, suggesting that most of the activity was cAMP dependent. About 90% of the cAMP-stimulated protein kinase activity eluted from a DEAE-cellulose column at 0.15 m NaCl, consistent with a type II enzyme. The presence of a type II enzyme was also supported by the effects of histone and salt concentrations on enzyme activity; both the basal and cAMP-stimulated activity ratios (activity minus cAMP divided by activity plus 10(-6) M cAMP) were stable in 0.4 M NaCl. The basal activity ratio was not increased by concentrations of histone as high as 10 mg/ml in the protein kinase assay. The predominance of the type II enzyme in dispersed bovine parathyroid cells made it possible to develop conditions for extracting the enzyme from intact intact cells (0.4 m NaCl and 5 mg/ml charcoal), whereby the state of activation of the enzyme remained relatively constant. These studies demonstrate the presence of cAMP-dependent protein kinase activity in dispersed bovine parathyroid cells and define conditions which make it possible to assess the effects of various secretagogues on protein kinase activation in intact parathyroid cells.
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PMID:Adenosine 3',5'-monophosphate-dependent protein kinase in supernatants from dispersed bovine parathyroid cells. 627 2

A mute isoenzyme of type II cAMP-dependent protein kinase from rat muscle has been reported that is released from the regulatory subunit by cAMP but remains inactive until combination with heat- and acid-stable modulator has occurred. This enzyme has now been obtained in isolation free of the normal catalytic subunit using affinity chromatography with both an ATP analog (Blue Dextran/Sepharose) and a protein substrate analog (Kemptide/CH-Sepharose). Separation can be effected in both cases before activation of the mute enzyme. Affinity of the mute enzyme for Blue Dextran--a ligand specific for the dinucleotide fold in this kinase--is somewhat higher than that of the normal enzyme. Conversely, before reaction with the modulatory protein the mute enzyme will not bind at all to Kemptide/CH-Sepharose, where the normal enzyme elutes at 50 mM KCl. When pretreated with the modulatory protein and so activated, mute enzyme binds to Kemptide with a very high affinity and can only be eluted using a natural substrate (phosphorylase kinase), up to 500 mM salt being ineffective. The modulator thus appears to act through alteration of the protein substrate binding site on the enzyme.
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PMID:Isolation and elucidation of some functional properties of the "mute" catalytic subunit of cAMP-dependent protein kinase. 630 82


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