EC:2.7.11.11 - FACTA Search

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 effects of pyrethroids and DDT on the alpha-subunit protein of the rat brain sodium channel were studied by using both native and exogenously added cAMP-dependent protein kinases. For this purpose, the sodium channel was partially purified, using the method of Hartshorne and Catterall [J Biol Chem 259: 1667-1675, 1984], and 32P-phosphorylated using [gamma-32P]ATP and exogenously added catalytic subunit of cAMP-dependent protein kinase. By comparing the phosphorylation patterns of the isolated sodium channel to those of the partially purified or unpurified (i.e. intact synaptosomes) preparations, it was concluded that the alpha-subunit of the voltage-sensitive sodium channel protein is the only phosphorylatable protein present at the 260 kD molecular weight range on the sodium dodecyl sulfate-polyacrylamide gel electrophoretogram. Phosphorylation of the alpha-subunit was induced by depolarization, and this process was inhibited by 10(-6) to 10(-10) M 1R-deltamethrin, but not by 1S-deltamethrin, the latter being an inactive enantiomer of the former. DDT produced a similar effect, but only at a higher concentration range. By using lysed synaptosomal membranes, it was possible to study the direct effects of these compounds on the alpha-subunit, which were similar to those produced by depolarization of intact synaptosomes.
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PMID:Modification by pyrethroids and DDT of phosphorylation activities of rat brain sodium channel. 254 81

We have examined the acute effects of insulin and isoproterenol on the phosphorylation state of the insulin-regulatable glucose transporter (IRGT) in rat adipocytes. The IRGT was immunoprecipitated from either detergent-solubilized whole-cell homogenates or subcellular fractions of 32P-labeled fat cells and subjected to sodium dodecyl sulfate/polyacrylamide gel electrophoresis. The 32P-labeled IRGT was detected by autoradiography as a species of apparent Mr 46,000. Insulin stimulated translocation of the IRGT from low-density microsomes to the plasma membrane but did not affect phosphorylation of the transporter in either fraction. Isoproterenol inhibited insulin-stimulated glucose transport by 40% but was without effect on the subcellular distribution of the transporter in either the presence or absence of insulin. Isoproterenol stimulated phosphorylation of the IRGT 2-fold. Incubating cells with dibutyryl-cAMP and 8-bromo-cAMP also stimulated phosphorylation 2-fold, and the transporter was phosphorylated in vitro when IRGT-enriched vesicles were incubated with cAMP-dependent protein kinase and [gamma-32P]ATP. These results suggest that isoproterenol stimulates phosphorylation of the IRGT via a cAMP-dependent pathway and that phosphorylation of the transporter may modulate its ability to transport glucose.
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PMID:Isoproterenol stimulates phosphorylation of the insulin-regulatable glucose transporter in rat adipocytes. 255 13

DARPP-32 (dopamine- and cAMP-regulated phosphorprotein, Mr = 32,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis) is an inhibitor of protein phosphatase-1 and is enriched in dopaminoceptive neurons possessing the D1 dopamine receptor. Purified bovine DARPP-32 was phosphorylated in vitro by casein kinase II to a stoichiometry greater than 2 mol of phosphate/mol of protein whereas two structurally and functionally related proteins, protein phosphatase inhibitor-1 and G-substrate, were poor substrates for this enzyme. Sequencing of chymotryptic and thermolytic phosphopeptides from bovine DARPP-32 phosphorylated by casein kinase II suggested that the main phosphorylated residues were Ser45 and Ser102. In the case of rat DARPP-32, the identification of these phosphorylation sites was confirmed by manual Edman degradation. The phosphorylated residues are located NH2-terminal to acidic amino acid residues, a characteristic of casein kinase II phosphorylation sites. Casein kinase II phosphorylated DARPP-32 with an apparent Km value of 3.4 microM and a kcat value of 0.32 s-1. The kcat value for phosphorylation of Ser102 was 5-6 times greater than that for Ser45. Studies employing synthetic peptides encompassing each phosphorylation site confirmed this difference between the kcat values for phosphorylation of the two sites. In slices of rat caudate-putamen prelabeled with [32P]phosphate, DARPP-32 was phosphorylated on seryl residues under basal conditions. Comparison of thermolytic phosphopeptide maps and determination of the phosphorylated residue by manual Edman degradation identified the main phosphorylation site in intact cells as Ser102. In vitro, DARPP-32 phosphorylated by casein kinase II was dephosphorylated by protein phosphatases-1 and -2A. Phosphorylation by casein kinase II did not affect the potency of DARPP-32 as an inhibitor of protein phosphatase-1, which depended only on phosphorylation of Thr34 by cAMP-dependent protein kinase. However, phosphorylation of DARPP-32 by casein kinase II facilitated phosphorylation of Thr34 by cAMP-dependent protein kinase with a 2.2-fold increase in the Vmax and a 1.4-fold increase in the apparent Km. Phosphorylation of DARPP-32 by casein kinase II in intact cells may therefore modulate its phosphorylation in response to increased levels of cAMP.
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PMID:Phosphorylation of DARPP-32, a dopamine- and cAMP-regulated phosphoprotein, by casein kinase II. 255 37

A monoclonal antibody was prepared against the regulatory subunit (RII) of rat liver type II cAMP-dependent protein kinase. Autophosphorylated and nonphosphorylated RII in extracts from rat liver or hepatocytes were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis and quantified by immunoblot analysis with this antibody. Under basal conditions, 90% of hepatocyte RII was in the phosphorylated form. Incubating hepatocytes with 8-bromo-cAMP and a phosphodiesterase inhibitor resulted in activation of cAMP-dependent protein kinase and glycogenolysis but did not affect phospho RII levels. RII phosphorylation was also unaffected by the inclusion of sufficient insulin to cause a decrease in cAMP-dependent protein kinase activity and glycogenolysis. The results indicate that unlike other cell types, dissociation of rat hepatocyte type II cAMP-dependent protein kinase does not result in dephosphorylation of RII. The biochemical basis for the apparent lack of RII dephosphorylation in intact hepatocytes was examined by comparison with smooth muscle where RII is rapidly dephosphorylated. Rat liver extract contained 4-fold less RII and had an 80-fold lower rate of dephosphorylation of endogenous RII compared to bovine smooth muscle extract. The differences in the rates of RII dephosphorylation in tissue extracts were not observed using purified RII from either tissue. These data suggested that the slow rate of RII dephosphorylation in rat hepatocytes is due to a difference in the susceptibility of endogenous rat liver RII to dephosphorylation rather than a difference in phosphatase activity.
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PMID:Autophosphorylation of rat liver type II cAMP-dependent protein kinase. 255 4

Monoclonal antibodies have been produced against electrophoretically purified MP18, a major calf lens membrane Mr = 18,000 substrate for cAMP-dependent protein kinase. One of these antibodies (monoclonal antibody 2D10) cross-reacted with both native MP18 in lens membranes, and sodium dodecyl sulfate-denatured, electrophoretically purified MP18. In immunoblots, this antibody recognized MP18 in pig, sheep, rat, human, but not chicken lens membranes, indicating the similarity of this protein in mammalian lenses. Amino acid sequencing revealed that the N-terminal sequence of MP18 is identical in these five different mammalian species and is unrelated to any previously sequenced lens or junctional proteins. Electron microscopic examination of monoclonal antibody 2D10-labeled bovine, pig and rat lens membranes indicated that MP18 is localized exclusively to the thicker 16-17 nm junctions in isolated preparations of lens fiber cell membranes. These results provide evidence of a role for MP18 in mammalian lens fiber cell junctional organization.
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PMID:Identification of an 18,000-dalton protein in mammalian lens fiber cell membranes. 258 3

A cDNA clone for the catalytic subunit of murine cAMP-dependent protein kinase was placed into two expression vectors, pLWS-3 and pLSW-4. For pLWS-3, the entire coding region of the catalytic subunit was inserted into the NdeI site of pT7-7 under the control of the T7 promoter. pLWS-4 contains a polycistronic transcript under control of the lac UV5 promoter encoding for the type I regulatory subunit followed by the catalytic subunit. Significant expression was achieved with pLWS-4 in Escherichia coli 222 and JM101; however, the catalytic subunit was produced in an insoluble form. In the case of the catalytic subunit produced in E. coli BL21(DE3) by pLWS-3, the catalytic subunit accounted for approximately 30% of the total bacterial protein. Up to 5 mg of this catalytic subunit per liter of culture was in the soluble extract. Solubility was improved substantially when induction was carried out at 30 degrees C instead of 37 degrees C. This recombinant catalytic subunit was purified by phosphocellulose chromatography, followed by ammonium sulfate precipitation and gel filtration. A Mr of 38,000 was estimated based on size exclusion chromatography and on polyacrylamide gel electrophoresis. The recombinant protein had a free alpha-amino-terminal Gly in contrast to the mammalian enzyme which is myristylated at the amino-terminal glycine. The lack of acylation did not significantly alter the activity of the enzyme. The specific activity of 19 mumol/min/mg is comparable to the mammalian enzyme. The Km values for Kemptide (Leu-Arg-Arg-Ala-Ser-Leu-Gly) (43 microM) and MgATP (18.5 microM also were comparable. The absence of the acyl group also did not prevent holoenzyme formation. Holoenzyme activation by cAMP was indistinguishable for holoenzyme made with mammalian catalytic subunit and recombinant catalytic subunit. The recombinant enzyme was more sensitive than the mammalian enzyme to heat denaturation at 49 degrees C. The t1/2 for the recombinant catalytic subunit was 0.7 min in contrast to 3.9 min for the mammalian enzyme. This difference in stability may be attributable to the lack of the acyl group. The recombinant enzyme was particularly sensitive to heat denaturation in the presence of low concentrations (0.01%) of Triton X-100.
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PMID:Expression of the catalytic subunit of cAMP-dependent protein kinase in Escherichia coli. 268 67

A cAMP-binding protein is found to be integrated into the inner mitochondrial membrane of the yeast Saccharomyces cerevisiae under normal conditions. It resists solubilization by high salt and chaotropic agents. The protein is, however, converted to a soluble form which then resides in the intermembrane space, when isolated mitochondria are incubated with low concentrations of calcium. Phospholipids or diacylglycerol (or analogues) dramatically increases the efficiency of receptor release from the inner membrane, whereas these compounds alone are ineffective. Also, cAMP does not effect or enhance liberation from the membrane of the cAMP-binding protein. Photoaffinity labeling with 8-N3-[32P]cAMP followed by mitochondrial subfractionation and sodium dodecyl sulfate-polyacrylamide gel electrophoresis does not reveal differences in the apparent molecular weight between the membrane-bound and the soluble form of the cAMP receptor. The two forms differ, however, in their partitioning behavior in Triton X-114 as well as in their protease resistance, indicating that the release from the membrane is accompanied by a change in lipophilicity and conformation of the receptor protein. Evidence is presented that a change of the intramitochondrial location of the yeast cAMP-binding protein also occurs in vivo and leads to the activation of a mitochondrial cAMP-dependent protein kinase. The cAMP-binding protein is the first example of a mitochondrial protein with amphitropic character; i.e., it has the property to occur in two different locations, as a membrane-embedded and a soluble form.
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PMID:An amphitropic cAMP-binding protein in yeast mitochondria. 1. Synergistic control of the intramitochondrial location by calcium and phospholipid. 269 64

A serine protein kinase specific for ribosomal protein S6 in 40 S subunits has been identified and purified greater than 15,000-fold (with 18% recovery) from developing chicken embryos. An analogous enzyme has also been detected in serum-stimulated chicken embryo fibroblasts. The S6 kinase was identified as a phosphoprotein of Mr approximately 65,000 based on (i) gel filtration, (ii) apparent autophosphorylation of a 65-kDa protein when several enzyme preparations were incubated with [gamma-32P]ATP in the absence of added substrate, (iii) comigration of S6 kinase activity with the autophosphorylating activity over a variety of chromatographic resins, and (iv) elution and renaturation of S6 kinase activity from the 65-kDa region of a sodium dodecyl sulfate-polyacrylamide gel. The purified protein kinase is highly specific for S6 in 40 S subunits and does not appreciably phosphorylate casein, histone H1, mixed histones, protamine, polyoma virus capsid protein, or phosphorylase a/b. These characteristics suggest that this enzyme is unrelated to other protein kinases believed to be activated in stimulated cells, including cAMP-dependent protein kinase, protein kinase C (Ca2+/phospholipid-dependent enzyme), or Ca2+/calmodulin-dependent protein kinases. In fibroblasts, S6 kinase is activated by a variety of mitogenic agents including the tyrosine-specific protein kinase of Rous sarcoma virus, pp60v-src, phorbol esters, and growth factors. The present identification and purification of the S6 kinase should facilitate future studies aimed at elucidating the molecular mechanisms by which signals from these diverse stimuli rapidly converge upon and activate this enzyme.
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PMID:Identification of a ribosomal protein S6 kinase regulated by transformation and growth-promoting stimuli. 282 90

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

Adenosine 3',5'-cyclic monophosphate (cAMP)-dependent protein phosphorylation is considered a key step in the cellular action of vasopressin (AVP) to regulate water permeability in collecting tubules. However, the proteins serving as a substrate(s) for phosphorylation in undisrupted cells have not yet been identified. In the present study, we developed a method for investigation of in situ phosphorylation of microdissected segments of medullary collecting tubules (MCT) from rat kidney. Incubation of microdissected MCT segments with low concentrations of saponin, "semipermeabilization," increased permeability of the membrane for ATP but did not allow leakage of macromolecules such as lactate dehydrogenase. This treatment also did not cause major disruption of cell structure, or impairment of AVP-sensitive adenylate cyclase. Incubation of semipermeabilized MCT with gamma-[32P]ATP resulted in incorporation of 32Pi into two major protein bands [band "A" of apparent molecular mass (Mr) approximately equal to 66 kDa, and band "B" of Mr approximately equal to 45 kDa] detected by sodium dodecyl sulfate polyacrylamide gel electrophoresis and subsequent autoradiography. Similar incubation of tubules disrupted by hyposmotic solutions and a stronger detergent Triton X-100 resulted in 32Pi incorporation into multiple protein bands. Incubation of MCT with 1 microM AVP resulted in increased 32Pi radioactivity in band A and decreased 32Pi radioactivity in band B. These findings demonstrate a novel method for identification of endogenous protein substrate(s) for cAMP-dependent protein kinase and other protein kinases and phosphatases that are probably involved in post-cAMP steps in the cellular action of AVP in the intact cells of collecting tubules.
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PMID:In situ phosphorylation of proteins in MCTs microdissected from rat kidney: effect of AVP. 283 21

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