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)

Acetyl-CoA carboxylase (ACC) is regulated in mammalian tissues, in part, by multisite enzyme phosphorylation. Yeast ACC (Y-ACC) has been highly purified from S. cerevisiae by monomeric avidin-Sepharose chromatography, revealing an enzyme subunit species of molecular mass 265,000 Da. Unlike mammalian enzyme, Y-ACC is citrate-independent, and reacts weakly or not at all with a panel of anti-rat liver ACC antibodies. Like rat ACC, Y-ACC is rapidly phosphorylated and inactivated by two mammalian carboxylase kinases, the cAMP-dependent protein kinase and 5'-AMP-stimulated kinase. It is also phosphorylated by rat liver casein kinase II, but without any change in catalytic activity. Three major yeast protein kinases active on ACC have been fractionated; all co-elute with kinases active on casein, but each appears to be a distinct catalytic species. Like the mammalian casein kinases, however, phosphorylation of ACC by these yeast kinases does not alter yeast ACC activity. Taken together, these data indicate that Y-ACC possesses at least two classes of phosphorylation sites, one or more of which acutely regulates enzyme activity. Alterations in Y-ACC phosphorylation in yeast, as in mammalian tissues, could be an important modulator of the rates of fatty acid synthesis.
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PMID:Yeast acetyl-CoA carboxylase: in vitro phosphorylation by mammalian and yeast protein kinases. 197 18

The protein phosphatases in rat liver cytosol, active on rat liver acetyl-CoA carboxylase (ACC) phosphorylated by casein kinase I, casein kinase II and the cAMP-dependent protein kinase, have been partially purified by anion-exchange and gel filtration chromatography. The major phosphatase activities against all three substrates copurify through fractionation and appear to be identical to protein phosphatases 2A1 and 2A2. No unique protein phosphatase active on 32P-ACC phosphorylated by the casein kinases was identified.
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PMID:Protein phosphatases active on acetyl-CoA carboxylase phosphorylated by casein kinase I, casein kinase II and the cAMP-dependent protein kinase. 286 68

Acetyl-CoA carboxylase and its associated kinase have been purified to homogeneity from rat liver and, together with the catalytic subunit of liver protein phosphatase, used to study the effect of phosphorylation on the carboxylase activity. Phosphatase increases the carboxylase activity, whereas the kinase decreases it. A linear inverse relationship (correlation coefficient = 0.98) exists between phosphate incorporated by the kinase and the specific activity. The kinetics of activation by citrate show an increased Ka and a decreased Vmax for carboxylase preparations with increasing levels of phosphate. On this basis an enzymic test was devised for phosphate incorporated by the kinase. Thus the ratio of activities at 0 and 2 mM citrate is inversely proportional to the phosphate incorporated (correlation coefficient = -0.95), with 0.8 mol of P incorporated per mol of subunit decreasing the activity ratio from 0.5 to 0. This activity ratio method has an inherent internal control which makes it suitable for determining the level of protein-bound phosphate affecting the carboxylase activity in crude tissue extracts, and hence it should be useful for physiological studies. Tryptic maps of carboxylase labeled with radioactive phosphate by the carboxylase kinase indicate that the slightly less than 1 mol of P/mol of subunit is distributed equally between two peptides, whereas cAMP-dependent protein kinase phosphorylates these two sites and a third which may not affect activity.
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PMID:Phosphorylation state of acetyl-coenzyme A carboxylase. I. Linear inverse relationship to activity ratios at different citrate concentrations. 287 33

32P-labeled acetyl-CoA carboxylase was isolated from 32P-labeled rat epididymal fat pads by avidin-Sepharose affinity chromatography after exposure to epinephrine and insulin. Epinephrine led to an inactivation of the isolated enzyme by a reduction of Vmax, while the insulin stimulation observed in crude extracts did not survive enzyme purification. Both insulin and epinephrine caused only small increases in total 32P content of the enzyme. However, mapping of tryptic 32P-phosphopeptides by high performance liquid chromatography revealed that epinephrine and insulin stimulated the phosphorylation of 32P-peptides specific for each hormone. The major 32P-peptide phosphorylated by epinephrine co-migrated with the major 32P-peptide phosphorylated in vitro by the cAMP-dependent protein kinase, while the 32P-peptide phosphorylated in response to insulin co-migrated with that phosphorylated by casein kinase-I and casein kinase-II. The effects of epinephrine on carboxylase activity and phosphorylation can thus be accounted for by the expected epinephrine-induced activation of the cAMP-dependent protein kinase. While the increase in site-specific phosphorylation caused by insulin cannot be directly linked to insulin-induced activation in crude extracts, these data suggest that casein kinase-I and/or casein kinase-II may mediate the insulin-stimulated phosphorylation of acetyl-CoA carboxylase.
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PMID:Stimulation of site-specific phosphorylation of acetyl coenzyme A carboxylase by insulin and epinephrine. 613 73

A partially-purified preparation of acetyl-CoA carboxylase was not inactivated by ATP and Mg2+ although it was phosphorylated. SDS gel electrophoresis of the phosphorylated enzyme showed phosphopeptides migrating at 140 and 40 K along with the 250 K native subunit. Phosphorylation by the catalytic subunit of cAMP-dependent protein kinase further phosphorylated an additional 120 K phosphopeptide. Neither cAMP-independent phosphorylation nor the cAMP-dependent phosphorylation of the enzyme resulted in a significant decrease in activity.
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PMID:Phosphorylation of proteolytically-nicked rat hepatic acetyl-CoA carboxylase. 613 4

Two cAMP-independent acetyl-CoA carboxylase (ACC) protein kinases have been partially purified from rat liver cytosol and microsomal extracts. The first kinase, present in greatest activity in microsomal extracts, appears to be identical to casein kinase I by characteristic molecular size on gel filtration (Mr 40,000) and sodium dodecyl sulfate-gel electrophoresis (Mr 34,000), autophosphorylation of this single subunit, inability to efficiently utilize GTP, and resistance to inhibition by heparin and 2,3-diphosphoglycerate. The second kinase, predominant in cytosol, appears to be identical to casein kinase II by characteristic molecular size on gel filtration (Mr 150,000), an autophosphorylated subunit of Mr 25,000, a Km for GTP nearly equal to that of ATP, inhibition by heparin and 2,3 DPG, and relative substrate specificity. Despite the incorporation of up to 2 mol 32P/mol carboxylase subunit (kinase I) and 0.6 mol/subunit (kinase II), phosphorylation by either kinase causes no change in carboxylase activity. The site(s) phosphorylated by each kinase and by the cAMP-dependent protein kinase on carboxylase appear to be clustered on a Mr 16,000 cyanogen bromide peptide that is readily released on incubation with trypsin. The potential roles of these kinases in the regulation of ACC remain to be clarified.
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PMID:Phosphorylation of acetyl-coenzyme A carboxylase by casein kinase I and casein kinase II. 614 63

Rat liver acetyl-CoA carboxylase (ACC, EC 6.4.1.2) exhibits major and minor subunits (M(r) of 265,000 and 280,000 respectively), the structure and function of which are compared in this study. The two subunits copurified and each contained biotin as demonstrated by avidin reactivity and direct determination of biocytin. In agreement with previous studies, the ACC subunits could be distinguished with specific monoclonal antibodies and differential tissue expression. We now report extensive differences in primary structure revealed by peptide mapping, mass spectrometric analysis of peptides following reverse phase high performance liquid chromatography, and microsequencing of selected peptides. Four peptides derived from the 265-kDa subunit were sequenced and matched sequences within the predicted structure of rat 265-kDa ACC. Although one identical peptide sequence was detected within both subunits (residues 2009-2024 of the 265-kDa subunit), 12 peptides derived from the 280-kDa subunit exhibited entirely novel sequences or matched partially (average 70% identity) with sequences within the 265-kDa subunit. The 280-kDa subunit may also exhibit distinct functional properties, since the initial rate of phosphorylation was at least 10-fold greater than that of the 265-kDa subunit in the presence of cAMP-dependent protein kinase. Two-dimensional mapping demonstrated that the tryptic phosphopeptides released from the two ACC subunits are distinct. These structural studies suggest that the 265- and 280-kDa components (isozymes) of ACC are so distinct they may be encoded by separate genes, while the differential phosphorylation observed in vitro suggests a key role for the 280-kDa subunit in regulating enzyme activity within intact cells.
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PMID:Unique structural features and differential phosphorylation of the 280-kDa component (isozyme) of rat liver acetyl-CoA carboxylase. 791 Jan 65

Acetyl-CoA carboxylase (ACC) is rapidly regulated by reversible phosphorylation; phosphorylation inactivates ACC, whereas dephosphorylation activates the enzyme. Among protein kinases only cAMP-dependent protein kinase and 5'-AMP-dependent protein kinase can inactivate ACC; cAMP-dependent protein kinase phosphorylates Ser-77 and -1200; 5'-AMP-dependent protein kinase phosphorylates Ser-79, -1200, and -1215. In this report, the construction and expression of ACC cDNA containing the entire coding region (7.2 kilobase pairs) is described. In order to identify the critical phosphorylation site(s) for each protein kinase, we introduced site-specific mutations at Ser-77, -79, -1200, and -1215 of ACC cDNA and a series of mutated ACCs containing various combinations of these four mutated sites was expressed. By examination of the various mutant ACCs, we provided evidence that the effect of cAMP-dependent protein kinase is entirely mediated by the phosphorylation of Ser-1200 and that Ser-79 is important for 5'-AMP-dependent protein kinase action in vitro.
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PMID:Critical phosphorylation sites for acetyl-CoA carboxylase activity. 791 80

Insulin induction of acetyl-CoA carboxylase (ACC) and differentiation of 30A5 preadipocytes into adipocytes requires a brief exposure of the cells to cAMP. Using the techniques of DNase I footprinting, DNA band shift, and analysis of the point and deletion mutations, a region from -113 to -95 has been identified as the site through which cAMP sensitizes the cell for the response to insulin. One sequence-specific DNA-protein complex, b3, is formed in the DNA-mobility shift assay when nuclear extract from 30A5 cells is mixed with the oligonucleotide representing this region. Purified human AP-2 also generates the complex corresponding to b3 with the same ACC PII probe or with the AP-2 consensus sequence probe from SV40 promoter. Substitution of A for G in the sequence GGGGCTGGG abolishes the formation of b3 sequence-specific complex. Stably transfected 30A5 cells with the same mutations in the plasmid no longer respond to insulin in spite of their exposure to cAMP. These results establish that the 21 base pair region in ACC promoter II and the binding of AP-2 protein to this sequence are required for cAMP action. cAMP-dependent protein kinase phosphorylates AP-2 both in vitro and in vivo and the phosphorylation of AP-2 does not affect its binding activity.
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PMID:The site of cAMP action in the insulin induction of gene expression of acetyl-CoA carboxylase is AP-2. 810 69

The 5'-AMP-activated protein kinase (AMPK) mediates several cellular responses to metabolic stress. Rat liver contains at least two isoforms of this enzyme, either alpha1 or alpha2 catalytic subunits together with beta and gamma noncatalytic subunits in a trimeric complex. The alpha1 isoform is purified using a peptide substrate affinity chromatography column with ADR1 (222-234)P229 (LKKLTRRPSFSAQ), corresponding to the cAMP-dependent protein kinase phosphorylation site in the yeast transcriptional activator of the ADH2 gene, ADR1. This peptide is phosphorylated at Ser230 by AMPK alpha1 with a Km of 3.8 microM and a Vmax of 4.8 micromol/min/mg compared to the commonly used rat acetyl-CoA carboxylase (73-87)A77R86-87 peptide substrate, HMRSAMSGLHLVKRR, with a Km of 33.3 microM and a Vmax of 8.1 micromol/min/mg. Thus, the AMPK exhibits some overlapping specificity with the cAMP-dependent protein kinase. The rat liver AMPK alpha1 isoform has a Kcat approximately 250-fold higher than the AMPK alpha2 isoform isolated from rat liver. The AMPK alpha1 isoform readily phosphorylates peptides corresponding to the reported AMPK phosphorylation sites in rat, chicken, and yeast acetyl-CoA carboxylase and rat hydroxymethylglutaryl-CoA reductase but not phosphorylase kinase. Based on previous peptide substrate specificity studies (Dale, S., Wilson, W. A., Edelman, A. M., and Hardie, G. (1995) FEBS Lett. 361, 191-195) using partially purified enzyme and variants of the peptide AMARAASAAALARRR, it was proposed that the AMPK preferred the phosphorylation site motif Phi(X, beta)XXS/TXXXPhi (Phi, hydrophobic; beta, basic). In good AMPK alpha1 peptide substrates, a hydrophobic residue at the P-5 position is conserved but not at the P+4 position. Oxidation of the Met residues in the rat acetyl-CoA carboxylase (73-87)A77R86-87 peptide increased the Km 6-fold and reduced the Vmax to 4% of the reduced peptide.
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PMID:Isoform-specific purification and substrate specificity of the 5'-AMP-activated protein kinase. 891 Apr 70


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