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 parenteral administration of a single dose of 3-methylcholanthrene to rats caused an increase in the liver of the concentration of 3', 5'-cAMP and of the activity of cAMP-dependent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37). These events were followed by an increased activity of ornithine decarboxylase (L-ornithine carboxy-lase, EC 4.1.1.17), the enzyme that controls the biosynthesis of polyamines. Finally, the activity of benzo[a]pyrene hydroxylase, as well as the amount of cytochrome P-448, was increased. Similarly, after the administration of phenobarbital, there was first an increase in the cAMP concentration and in the activity of cAMP-dependent protein kinase, then the induction of ornithine decarboxylase, and finally, an enhanced activity of ethylmorphine N-demethylase and an increased content of cytochrome P-450. These data suggest that the drug-induced processes in liver that increase the activities of the oxidative, and presumably other, drug-metabolizing enzymes include the following sequence of events: (1) increase in cAMP concentration and/or activation of cAMP-dependent protein kinase; (2) induction of ornithine decarboxylase; and, (3) induction of drug-metabolizing enzymes.
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PMID:Activation of 3':5'-cyclic AMP-dependent protein kinase and induction of ornithine decarboxylase as early events in induction of mixed-function oxygenases. 17 81

This paper reports studies of bioenergetic modifications in a TTR1 single-nuclear mutant, isolated as resistant to triethyltin, an inhibitor of mitochondrial ATPase, and effective in cAMP-dependent protein phosphorylation. This mutant appears to have lost the wild-type cell ability to respond to a decrease of oxygen concentration in the growth medium by a decrease of cytochrome concentration in the cell. ATP synthesis rate in mutant cells in both the prestationary and stationary phase of growth appeared increased in comparison to wild-type cells, as too was respiration rate. A comparative study of mitochondria extracted from wild-type and from TTR1 mutant cells showed an increase in respiration rate, an increase in ATP synthesis rate, and an increase in TPP+ uptake in mutant mitochondria. The specific ATPase activity, as well as its sensitivity to TET, appears to be similar for mitochondria extracted from both strains. It was proposed that the modification of mitochondrial biogenesis in the TTR1 mutant may be due to a response of the cell to an increase in ATP hydrolysis caused by the mutation. It is also possible that the modification in cAMP-dependent protein kinase regulation which appeared to occur in this mutant affects protein(s) involved in mitochondrial biogenesis.
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PMID:Mitochondrial modifications in a single nuclear mutant of Saccharomyces cerevisiae affected in cAMP-dependent protein phosphorylation. 216 72

We present data showing that the major phenobarbital inducible cytochromes P-450 (cytochrome P-450IIB1 and cytochrome P-450IIB2) were phosphorylated in intact hepatocytes. This phosphorylation was greatly increased by the cAMP derivatives N6-dibutyryl-cAMP and 8-thiomethyl-cAMP mediated by a cAMP-dependent protein kinase. Most importantly the phosphorylation status of cytochromes P-450 was shown to change in the hepatocytes after treatment with glucagon, which is known to increase the level of cAMP in hepatocytes. The observed impact of the hormone glucagon on the phosphorylation of distinct cytochrome P-450 forms in intact hepatocytes reveals the possibility that the enzyme activity of cytochromes P-450 could be rapidly and differentially regulated by their phosphorylation and therefore dependent on the hormonal status of the organism.
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PMID:Phosphorylation of carcinogen metabolizing enzymes: regulation of the phosphorylation status of the major phenobarbital inducible cytochromes P-450 in hepatocytes. 253 70

The major phenobarbital-inducible cytochrome P-450 purified from rat liver, a member of family II of the cytochrome P-450 gene superfamily, is rapidly phosphorylated by cAMP-dependent protein kinase. The phosphorylation reaches greater than 0.5 mol phosphate/mol P-450 after 5 min and is accompanied by a decrease in enzyme activity. The serine residue in position 128 was shown to be the sole phosphorylation site and a conformational change of the protein was indicated by a shift of the carbon monoxide difference spectrum of the reduced cytochrome from 450 to 420 nm. Comparison of amino acid sequences of various cytochrome P-450 families revealed a highly conserved arginine residue in the immediate vicinity of the phosphorylated serine residue which constitutes the kinase recognition sequence. It also revealed that only the members of the cytochrome P-450 family II carry this kinase recognition sequence. To find out whether this phosphorylation also occurs in vivo, the exchangeable phosphate pool of intact hepatocytes derived from phenobarbital-pretreated rats was labeled with 32Pi followed by an incubation of the cells with the membrane-permeating dibutyryl-cAMP or with the adenylate cyclase stimulator glucagon to activate endogenous kinase. As a result, a microsomal polypeptide with the same electrophoretic mobility as cytochrome P-450 became strongly labeled. Peptide mapping and immunoprecipitation with monospecific antibodies identified this protein as the major phenobarbital-inducible cytochrome P-450. It becomes phosphorylated at the same serine residues as in the cell-free phosphorylation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphorylation of hepatic phenobarbital-inducible cytochrome P-450. 258 91

The regulatory role of cAMP-dependent protein kinase in steroidogenesis was examined in luteal cell mitochondria prepared from heavily luteinized prepubertal rat ovaries. The cAMP-dependent protein kinase, localized in luteal mitochondria, comprised 5.5% of the total cellular protein kinase activity (cAMP-dependent). Intact mitochondria supported by a suitable electron-donor substrate and inhibited by isoxazole converted cholesterol to a single steroid product, pregnenolone. Neither (Bu)2 cAMP nor a crude preparation of cytosolic protein kinase stimulated pregnenolone production from cholesterol when added to intact luteal cell mitochondria; however, mitochondria treated with 10 mM CaCl2 became responsive to both (Bu)2 cAMP and protein kinase by showing increased pregnenolone production. Likewise, the addition of cytosol protein kinase to incubations of cholesterol and crude cholesterol sidechain cleavage enzyme (cytochrome P-450cscc) isolated from luteal mitochondria, also stimulated pregnenolone production. Cholesterol-poor mitochondria, depleted of endogenous sterol by prolonged preincubation, when subsequently incubated with Ca+2 plus (Bu)2 cAMP and protein kinase showed significantly increased pregnenolone production. Conversely, mitochondria with greatly increased intramitochondrial cholesterol after preincubation with 200 microM cholesterol and a cytochrome P-450cscc inhibitor (aminoglutethimide) synthesized pregnenolone in significantly higher amounts than either normal or cholesterol-poor mitochondria after removal of the aminoglutethimide block. However, addition of (Bu)2cAMP or protein kinase to Ca+2-treated cholesterol-rich mitochondria failed to additionally stimulate pregnenolone synthesis. We conclude from these observations that the mitochondrial membrane normally excludes protein kinase and (Bu)2cAMP from any stimulatory action on cholesterol side-chain cleavage. Disruption of the mitochondrial membrane by high Ca+2 concentrations eliminates this barrier and permits (Bu)2cAMP and protein kinase stimulation of the CSCC enzyme system. The mechanism of stimulation is not clear. It could involve direct action on the CSCC enzyme. Alternatively, an increase in either intramitochondrial transport or binding of cholesterol substrate to the CSCC enzyme could be facilitated by protein kinase action. Direct stimulation of the enzyme by protein kinase seems less likely, since increased enzyme activity was not observed in the presence of high concentrations of intramitochondrial cholesterol substrate.
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PMID:Protein kinase stimulation of steroidogenesis in rat luteal cell mitochondria. 298 20

The phenobarbital-inducible form of cytochrome P-450 purified from rabbit liver microsomes is phosphorylated by cAMP-dependent protein kinase at a single site, the serine residue in position 128 of the amino acid sequence. The serine is located in a characteristic recognition sequence for cAMP-dependent protein kinase and is part of a primary structure which is conserved during evolution, present also in phenobarbital-inducible rat cytochrome and cytochrome P-450 CAM from Pseudomonas putida. The contribution of these findings to our understanding of the structure and membrane topology of cytochrome P-450 LM2 and its turnover regulated by phosphorylation is discussed.
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PMID:The site of cyclic AMP-dependent protein kinase catalyzed phosphorylation of cytochrome P-450 LM2. 299 Oct 8

Cytochrome P-450(11)beta from adrenal cortex is an intrinsic membrane protein embedded in the inner mitochondrial membrane. Topography of the protein inside a phospholipid bilayer was examined using controlled proteolysis of purified cytochrome P-450(11)beta following its integration into artificial liposomes. Inclusion of the protein into phospholipid vesicles led to a marked stabilization of the cytochrome activity. Trypsin treatment of the liposome-integrated cytochrome resulted in the rapid disappearance of the native protein moiety (47 kDa), while a major 34 kDa peptide component was formed. This peptide core retained the heme moiety and part of the cytochrome steroid-11 beta hydroxylase activity. Very similar observations were obtained when inside-out vesicles prepared from isolated adrenocortical mitoplasts were examined with the same approach. It is thus suggested that adrenocortical cytochrome P-450(11)beta is embedded in the inner mitochondrial membrane as well as in artificial liposomes by a major hydrophobic domain associated with the heme moiety while a limited domain remains accessible on the matrix side of the membrane surface. The previous described phosphorylation of the cytochrome P-450(11)beta on a serine residue, by the cAMP-dependent protein kinase is suggested to occur in the protein domain oriented toward the membrane surface, the phosphorylation site being lost under mild proteolytic digestion of the membrane-integrated protein.
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PMID:Molecular organization (topography) of cytochrome P-450(11)beta in mitochondrial membrane and phospholipid vesicles as studied by trypsinolysis. 349 Aug 79

The cholesterol substrate required for sustained adrenal steroidogenesis is largely derived from the endogenous stores of cholesterol esters, which are located in large lipid inclusion droplets in the cytoplasm. In isolated adrenal cells, these esters are hydrolyzed during a variety of stimuli associated with cellular cAMP production. This largely appears to be a response to the action of a neutral cholesterol ester hydrolase, whose activity is modulated by phosphorylation of the enzyme protein, catalyzed by cAMP-dependent protein kinase. Transfer of the resulting unesterified cholesterol to mitochondria can be accomplished in a model system by sterol carrier protein2 (SCP2). This protein is distinct from fatty acid binding protein (FABP), has a Mr of 13,500 and is basic in nature. SCP2 can sequester cholesterol from lipid inclusion droplets in a stoichiometric relationship, and transfer this cholesterol to isolated adrenal mitochondria. SCP2 can also enhance the intermembrane transfer of mitochondrial cholesterol to cytochrome P 450scc, but does not directly affect cholesterol side chain cleavage. The stimulatory effect of adrenal cytosolic preparations on mitochondrial pregnenolone production can be completely abolished by pretreatment with anti SCP2 IgG.
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PMID:Cholesterol ester hydrolase and sterol carrier proteins. 610 Feb 53

Two key steroidogenic mitochondrial cytochromes P-450 (cholesterol side-chain cleavage (scc) and 11 beta-hydroxylation (11 beta)) were purified from bovine adrenal cortex and examined as potential phosphorylatable substrates using purified cAMP-dependent protein kinase subunit (C) and A type (CKA) and G type (CKG) cAMP-independent casein kinases. Of the two cytochromes P-450, only P-450 11 beta was able to incorporate phosphate from ATP in the presence of C (Km = 7.5 microM), whereas CKA and CKG were ineffective. Phosphorylation of P-450 11 beta (maximum incorporation of 1 mole of 32P per mole of cytochrome, only on serine residues) did not modify the enzymatic activity of an 11 beta-hydroxylation system reconstituted in vitro from purified components, when adrenodoxin was in excess in the reaction. However, kinetic studies showed that P-450 11 beta phosphorylation strikingly increases the P-450 11 beta-adrenodoxin affinity in a phosphorylation-dependent manner. This would result in a net increase in 11 beta-hydroxylase activity under in vivo conditions where adrenodoxin availability is limited. Possible significance of these observations in the regulation of differentiated adrenocortical functions remains to be further examined.
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PMID:Phosphorylation of purified mitochondrial cytochromes P-450 (cholesterol desmolase and 11 beta-hydroxylase) from bovine adrenal cortex. 628 91

Microsomal cytochrome P450c17 catalyzes both steroid 17 alpha-hydroxylase activity and scission of the C17-C20 steroid bond (17,20-lyase) on the same active site. Adrenal 17 alpha-hydroxylase activity is needed to produce cortisol throughout life, but 17,20-lyase activity appears to be controlled independently in a complex, age-dependent pattern. We show that human P450c17 is phosphorylated on serine and threonine residues by a cAMP-dependent protein kinase. Phosphorylation of P450c17 increases 17,20-lyase activity, while dephosphorylation virtually eliminates this activity. Hormonally regulated serine phosphorylation of human P450c17 suggests a possible mechanism for human adrenarche and may be a unifying etiologic link between the hyperandrogenism and insulin resistance that characterize the polycystic ovary syndrome.
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PMID:Serine phosphorylation of human P450c17 increases 17,20-lyase activity: implications for adrenarche and the polycystic ovary syndrome. 747 52

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