EC:2.7.11.11 - FACTA Search

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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 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

The renal inner medulla is ordinarily exposed to osmolalities that are much higher and to O2 tensions that are lower than those in other tissues. The effects of media osmolality and O2 availability on basal and arginine vasopressin(AVP)-responsive soluble cyclic (c)AMP-dependent protein kinase activity were examined in slices of rat inner medulla. Increasing total media osmolality from 305 to 750 or 1,650 mosM by addition of urea plas NaCl to standard Krebs-Ringer bicarbonate buffer significantly reduced basal cAMP content and protein kinase activity ratios. This occurred in the presence or absence of O2. Incubation of slices in high osmolality buffer also blunted increases in inner medullary slice cAMP and protein kinase activity ratios induced by O2. These changes reflected predominantly an action of the urea rather than the NaCl content of high osmolality buffers. In contrast to effects on basal activity, high media osmolality significantly enhanced activation of inner medullary protein kinase by AVP. Conversely, increases in media O2 content suppressed AVP stimulation of enzyme activity. This inhibitory effect of O2 was best expressed at low osmolality. Naproxen and ibuprofen, inhibitors of prostaglandin biosynthesis, reduced basal kinase activity ratios and increased AVP responsiveness in the presence, but not in the absence, of O2. Exogenous prostaglandins (PG) modestly increased (PGE2 and PGE1) or did not change (PGF2alpha) cAMP and protein kinase activity ratios in O2-deprived inner medullary slices. Protein kinase activation by PGE2 was not observed in oxygenated inner medulla with high basal activity ratios. The stimulatory effects of PGE2 and PGE1 on protein kinase activity observed in O2-deprived slices were additive with those of submaximal or maximal AVP. PGE2, PGE1, and PGF2alpha all failed to suppress AVP activation of protein kinase. Thus, enhanced endogenous PGE production may contribute to the higher basal protein kinase activity ratios induced by O2. However, the results do not support a role for PGE2, PGE1, or PGF2alpha in O2-mediated inhibition of AVP responsiveness. The present data indicate that both solute content and O2 availability can alter the expression of AVP action on cAMP-dependent protein kinase activity in inner medulla. AVP activation of protein kinase is best expressed when osmolality is high and O2 availability is low, conditions that pertain in inner medulla during hydropenia.
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PMID:Effects of osmolality and oxygen availability on soluble cyclic AMP-dependent protein kinase activity of rat renal inner medulla. 21 25

Rhodopsin kinase activity of Musca domestica was characterized in a reconstitution assay, using urea-treated eye membranes as substrate and a purified fraction of eye cytosol as the enzyme. Analysis of kinase activity in fly eye, brain and abdomen extracts by reconstitution assays revealed that fly rhodopsin kinase is an eye-specific enzyme. It preferentially phosphorylates the light-activated form of rhodopsin (metarhodopsin) and has little activity with other protein substrates. Rhodopsin kinase binds to metarhodopsin and is released from rhodopsin-containing membranes. Metarhodopsin is a poor substrate for kinases from tissues other than the eye, making it a unique substrate for rhodopsin kinase. Rhodopsin kinase is inhibited by heparin, but not by the protein inhibitor of cAMP-dependent protein kinase. Its Km for ATP is 9 microM. Since fly rhodopsin is coupled to phospholipase C, studies of the interaction of rhodopsin with rhodopsin kinase can be useful in analysis of the reactions that lead to termination of the inositol-phospholipid-signaling pathway.
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PMID:Characterization of fly rhodopsin kinase. 142 85

Several previously untested proteins promote the reversible inactivation of rabbit skeletal muscle phosphofructokinase. Grouped in decreasing order of effectiveness, they include the following: skeletal muscle troponin C greater than troponin, the two smooth muscle myosin light chains, alpha-actinin, and S-100 much greater than parvalbumin and soybean trypsin inhibitor. The efficiency of troponin C in this process may even exceed that previously reported for calmodulin. Sequences near calcium binding site III are apparently involved in the troponin C-phosphofructokinase interaction. Troponin C and calmodulin exert calcium-dependent effects on the physical and chemical properties of muscle phosphofructokinase. When calcium is present, comigration with either protein allows the enzyme to enter the stacking gel during urea-polyacrylamide gel electrophoresis. Both enhance the phosphorylation of phosphofructokinase catalyzed by the cAMP-dependent protein kinase, with phosphate incorporations approaching 2 mol of P/mol of protomer. Reaction occurs at Ser774 and at Ser376--a novel site whose phosphorylation is highly sensitive to troponin C and less so to calmodulin. Maximum phosphorylation has slight effect on the catalytic activity of the enzyme under standard assay conditions. The troponin C induced or calmodulin-induced phosphorylation of phosphofructokinase requires calcium and is strongly inhibited by either fructose 2,6-bisphosphate or fructose 1,6-bisphosphate. Inactivation occurs in the presence or absence of calcium, with generally higher concentrations of effectors required for protection in the latter case. Liver and yeast phosphofructokinases shows little activity loss in the presence of either calmodulin or troponin C. We have developed and tested a general mathematical model for the protein-induced inactivation of phosphofructokinase which may find application to other systems.
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PMID:Protein-induced inactivation and phosphorylation of rabbit muscle phosphofructokinase. 182 8

The unfolding of the recombinant regulatory subunit of cAMP-dependent protein kinase I was followed by monitoring the intrinsic protein fluorescence. Unfolding proceeds in at least two stages. First, the quenching of fluorescence due to cAMP binding is abolished at relatively low levels of urea (less than 2 M) and is observed as an increase in intensity at 340 nm. The high-affinity binding of cAMP is retained in 3 M urea even though the quenching is lost. The second stage of unfolding, presumably representing unfolding of the polypeptide chain, is seen as a shift in lambda max from 340 to 353 nm. The midpoint concentration, Cm, for this process is 5.0 M. Cyclic AMP binding activity is lost at a half-maximal urea concentration of 3.5 M and precedes the shift in lambda max. Unfolding of the protein in the presence of urea was fully reversible; furthermore, the presence of excess levels of cAMP stabilized the regulatory subunit. A free energy value (delta GDH2O) of 7.1 +/- 0.2 kcal/mol was calculated for the native form of the protein when denaturation was induced with either urea or guanidine hydrochloride. Iodide quenching of tryptophan fluorescence was used to elucidate the number of tryptophan residues accessible during various stages of the unfolding process. In the native cAMP-bound form of the regulatory subunit, only one of the three tryptophans in the regulatory subunit is quenched by iodide while more than two tryptophans can be quenched with iodide in the presence of 3 M urea.
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PMID:Unfolding of the regulatory subunit of cAMP-dependent protein kinase I. 184 84

Intact secretory granules isolated from bovine adrenal medulla express tyrosine hydroxylase (TH) activity. Granule-associated TH sediments on continuous sucrose gradients with dopamine beta-hydroxylase, a marker for granule membranes, indicating that TH is associated with chromaffin granules. Membranes prepared from lysed granules retain TH, whereas granule contents are free of the enzyme. TH immunoreactivity was detected in granule membranes by immunoblot analysis using a polyclonal antiserum against TH. TH immunoreactivity cannot be removed from membranes by washes in high ionic strength buffers and is only partially removed from membranes by treatment with either urea or Na2CO3. TH can be removed from granule membranes by the detergents Nonidet P-40, Triton X-100, and 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate. Treatment of membranes with a phosphatidylinositol-specific phospholipase C did not remove TH, ruling out the possibility of a glycosyl phosphatidyl anchor. Fractionation of granule membranes by temperature-induced phase separation in Triton X-114 revealed that TH is recovered in phases in which integral (detergent phase) and hydrophobic (phospholipid phase) membrane proteins are typically found. By contrast, TH from adrenal cytosol fractionated exclusively into the aqueous phase along with other soluble proteins. Digestion of granules with various protease enzymes revealed that TH is resistant to degradation, suggesting that the enzyme is embedded within membranes. TH becomes phosphorylated when intact granules are exposed to the catalytic subunit of the cAMP-dependent protein kinase, indicating that at least the N-terminal region of TH is exposed on the cytoplasmic surface of granules. These results establish that a fraction of TH is an integral component of bovine granule membranes. The association of TH with granule membranes may play a role in coordinating TH activity and catecholamine release.
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PMID:Tyrosine hydroxylase in secretory granules from bovine adrenal medulla. Evidence for an integral membrane form. 196 7

A truncated regulatory subunit of cAMP-dependent protein kinase I was constructed which contained deletions at both the carboxyl terminus and at the amino terminus. The entire carboxyl-terminal cAMP-binding domain was deleted as well as the first 92 residues up to the hinge region. This monomeric truncated protein still forms a complex with the catalytic subunit, and activation of this complex is mediated by cAMP. The affinity of this mutant holoenzyme for cAMP and its activation by cAMP are nearly identical to holoenzyme formed with a regulatory subunit having only the carboxyl-terminal deletion and very similar to native holoenzyme. The off rate for cAMP from both mutant regulatory subunits, however, is monophasic and very fast relative to the biphasic off rate seen for the native regulatory subunit. The effects of NaCl, urea, and pH on cAMP binding are also very similar for the mutant and native holoenzymes. Like the native type I holoenzyme, both mutant holoenzymes bind ATP with a high affinity. The positive cooperativity seen for MgATP binding to the native holoenzyme, however, is abolished in the double deletion mutant. The Hill coefficient for ATP binding to this mutant holoenzyme is 1.0 in contrast to 1.6 for the native holoenzyme. The Kd (cAMP) is increased by approximately 1 order of magnitude for both mutant forms of the holoenzyme in the presence of MgATP. A similar shift is seen for the native holoenzyme. Further characterization of the MgATP-binding properties of the wild-type holoenzyme indicates that a binary complex containing catalytic subunit and MgATP is required, in particular, for reassociation with the cAMP-bound regulatory subunit. This binary complex is required for rapid dissociation of the bound cAMP and is probably responsible for the observed reduction in cAMP-binding affinity for the type I holoenzyme in the presence of MgATP.
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PMID:Dissecting the domain structure of the regulatory subunit of cAMP-dependent protein kinase I and elucidating the role of MgATP. 215 55

In our previous report we showed cytochrome b5 to be a competitive inhibitor of cAMP-dependent protein kinase (PKA) for interaction with cytochrome P450 (P450). While P450 was phosphorylated, cytochrome b5 was not. The phosphorylation of P450 resulted in an inhibition of its catalytic activity. In this report we attempt to determine the relationship between phosphorylation of P450 from phenobarbital-induced rat and its destruction. The results indicate there is a considerable alteration of P450 IIB1 when it is put into the phosphorylation medium. This includes destruction, i.e., loss of the hemoprotein nature (Soret peak), as well as denaturation, conversion of a proportion of the P450 to P420. The extent of phosphorylation correlated best with the amount of destroyed hemoprotein, and not with the formation of P420. There did not appear to be phosphorylation-dependent formation of apo-P450. Further, prior conversion of the P450 to P420 using sodium deoxycholate showed the same extent of phosphorylation as before the conversion. Thus, intact P450 is not required for phosphorylation nor is phosphorylation a prerequisite for hemoprotein destruction. P450 CAM (CIA1), which has the PKA substrate recognition sequence internalized, likewise undergoes conversion to P420 but this denaturation does not result in phosphorylation. Destruction of CIA1 with 6 M urea, however, did permit phosphorylation by PKA. P450 IIB1 destruction was greatly diminished by cytochrome b5. This stabilization resulted in a decreased degree of phosphorylation as well as an increase in negative ellipticity in circular dichroism, indicative of an increase in the proportion of alpha-helical content in the P450. Suggestions are made that this structural modification caused by cytochrome b5 stabilizes the P450 against denaturation as well as against destruction and phosphorylation. Further, when the P450 IIB1 was kept stable as P450 in the absence of cytochrome b5 and without loss of hemoprotein during the incubation period, using phosphate-glycerol buffer containing 0.4% Emulgen 911, the phosphorylation of the P450 was greatly diminished, with only minor effects on the protein kinase reaction itself. These results suggest that the protein kinase reaction itself. These results suggest that the protein kinase substrate recognition sequence is not readily accessible to PKA in mammalian P450 IIB1 but requires a destabilization of the protein for phosphorylation to take place.
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PMID:Relationship between phosphorylation and cytochrome P450 destruction. 227 44

The nematode Caenorhabditis elegans (C. elegans) expresses the regulatory subunit (R) of cAMP-dependent protein kinase at a level similar to the levels determined for R subunits in mammalian tissues. Approximately 60% of the C. elegans cAMP-binding protein is tightly associated with particulate structures by noncovalent interactions. Ionic detergents or 7 M urea solubilize particulate R. Solubilized and cytosolic R subunits have apparent Mr values of 52,000 and pI values of 5.5. cDNA and genomic DNA encoding a unique C. elegans R subunit were cloned and sequenced. The derived amino acid sequence contains 375 residues; carboxyl-terminal residues 145-375 are 69% identical with mammalian RI. However, residues 44-145 are markedly divergent from the corresponding regions of all other R sequences. This region might provide sufficient structural diversity to adapt a single R subunit for multiple functional roles in C. elegans. Antibodies directed against two epitopes in the deduced amino acid sequence of C. elegans R avidly bound nematode cytosolic and particulate R subunits on Western blots and precipitated dissociated R subunits and R2C2 complexes from solution. Immunofluorescence analysis revealed that the tip of the head, which contains chemosensory and mechanosensory neurons, and the pharyngeal nerve ring were enriched in R. The R subunit concentration is low during early embryogenesis in C. elegans. A sharp increase (approximately 6-fold) in R content begins several hours before the nematodes hatch and peaks during the first larval stage. Developmental regulation of R expression occurs at translational and/or post-translational levels. The 8-kilobase pair C. elegans R gene is divided into 8 exons by introns ranging from 46 to 4300 base pairs. The 5'-flanking region has no TATA box and contains preferred and minor transcription start sites.
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PMID:Cloning, structure, and expression of the gene for a novel regulatory subunit of cAMP-dependent protein kinase in Caenorhabditis elegans. 230 51

Vasopressin stimulates the introduction of aggregated particles, which may represent pathways for water flow, into the luminal membrane of toad urinary bladder. It is not known whether water transport pathways are degraded on removal from membrane or whether they are recycled. We examined the effect of the protein synthesis inhibitors cycloheximide and puromycin using repeated 30-min cycles of vasopressin followed by washout of vasopressin, all in the presence of an osmotic gradient, a protocol that maximizes aggregate turnover. "High dose" cycloheximide (200 micrograms/ml) inhibited flow immediately. "Low dose" cycloheximide (1 microgram/ml) did not affect initial flow; however, flow was inhibited by the fourth restimulation. On further rechallenge, inhibition persisted but did not increase. In the absence of vasopressin, inhibition did not develop. Despite the inhibition of flow in vasopressin-treated tissues, the cAMP-dependent protein kinase ratio (-cAMP/+cAMP), an index of in vivo cAMP effect, was elevated in cycloheximide-treated tissues, suggesting modulation at a distal site in the stimulatory cascade. Cycloheximide inhibited flow when 10 microM forskolin or 0.2 mM 8-BrcAMP was substituted for vasopressin in the fourth period; however, MIX (4 mM)-stimulated flow was enhanced by 1 microgram/ml cycloheximide but inhibited by 200 micrograms/ml cycloheximide. [14C]urea permeability was not inhibited by cycloheximide. Puromycin (0.5 mM) also inhibited water flow by the fourth challenge with vasopressin. The data suggest that protein synthesis inhibitors attenuate flow at a site that is distal to cAMP-dependent protein kinase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protein synthesis inhibitors attenuate water flow in vasopressin-stimulated toad urinary bladder. 244 2

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