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)

Dehydroepiandrosterone (DHEA) treatment is effective in preventing or delaying the onset of various genetic and induced disorders of mice and rats. Associated with the beneficial therapeutic effects exerted by action of this steroid is the development of hepatomegaly. To determine whether the changes associated with hepatomegaly also involve alterations in activities of tissue enzymes, we evaluated the effects of DHEA (0.45% in food, w/w) on hepatic protein kinases, phosphatases, and lipogenic enzymes in mice of various strains. The rates of fatty acid and cholesterol syntheses also were evaluated. DHEA administration resulted in profound changes in the sodium dodecylsulfate-polyacrylamide gel electrophoresis patterns of endogenous radiophosphorylated proteins obtained by incubation of liver homogenates with (gamma-32P]ATP. These changes were dependent upon the medium used for homogenization. Thus, when homogenates of liver tissue of DHEA-treated mice were prepared in Tris buffer containing sucrose (0.25 M) there was a marked decrease in phosphorylation of the proteins of relative molecular weight approximately 116,000 (Mr approximately 116,000), approximately 82,000, approximately 80,000, approximately 58,000, approximately 56,000, approximately 48,000, approximately 34,000, and approximately 31,000 compared with controls. With liver homogenates of DHEA-treated mice prepared in Tris buffer alone, there was a marked increase in phosphorylation of the proteins of Mr approximately 70,000, approximately 49,000, approximately 34,000, approximately 31,000, and 28,000 compared with controls. Moreover, the specific activity of kinases for endogenous protein acceptors in liver of control mice was higher than that in liver of DHEA-treated animals. The specific activities of casein kinase, cAMP-dependent protein kinase, and cGMP-dependent protein kinase remained unchanged with DHEA treatment, but the specific activity of histone kinase was increased approximately 30%. Long-term administration of DHEA also was associated with increases in the specific activities of liver AMPase and GTPase (approximately two times), but not of other nucleotidases, alkaline phosphatase, acid phosphatase, glucose-6-phosphatase, or phosphotyrosine phosphatase. The activity of hepatic NADP-linked malic enzyme was increased significantly (two to three times) by DHEA treatment of female mice of three different strains, but was unchanged in male C57BL/6 mice. The specific activities of hepatic glucose-6-phosphate dehydrogenase, NADP-linked isocitrate dehydrogenase, and ATP-citrate lyase were not affected significantly by DHEA treatment of mice. The rate of hepatic lipogenesis, determined by incorporation of tritium from 3H2O into fatty acids, was decreased approximately 70% in DHEA-treated mice, while the rate of cholesterol synthesis was increased approximately 44% compared with controls.
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PMID:Dehydroepiandrosterone feeding and protein phosphorylation, phosphatases, and lipogenic enzymes in mouse liver. 215 82

Insulin decreases multifunctional protein kinase (MFPK) activity in rat adipose tissue [Ramakrishna, S., & Benjamin, W. B. (1988) J. Biol. Chem. 263, 12677-12681]. Insulin also decreases the phosphorylation of peptide B but increases the phosphorylation of peptide A of ATP-citrate lyase (ATP-CL). The mechanism for this increase in peptide A phosphorylation was studied with purified ATP-CL from control and insulin- and isoproterenol-treated fat pads by using MFPK and the catalytic subunit of cAMP-dependent protein kinase (A-kinase). ATP-CL purified from insulin-treated fat pads is a better substrate for phosphorylation by MFPK compared to controls. This result is consistent with the hypothesis that insulin action decreases peptide B phosphorylation. To determine if the degree of phosphorylation at peptide B affects the phosphorylation rate of peptide A by A-kinase, ATP-CL was prepared with determined phosphate contents of peptides A and B. ATP-CL with a low phosphate content at peptide B is a better substrate for phosphorylation at peptide A by A-kinase than is ATP-CL with a high phosphate content at peptide B. These results suggest that the insulin-induced increase in ATP-CL phosphorylation at peptide A is due to a decrease in peptide B phosphorylation. ATP-CL prepared from isoproterenol-treated fat pads is also a better substrate for phosphorylation at peptide B by MFPK than controls. This increase in phosphorylation at peptide B by MFPK is due to positive second-site regulation by the isoproterenol-induced increase in peptide A phosphorylation.
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PMID:Effect of insulin on ATP-citrate lyase phosphorylation: regulation of peptide A and peptide B phosphorylations. 265 30

ATP-citrate lyase in vivo contains three phosphorylation sites on two tryptic peptides (peptides A and B). These phosphorylation sites are under hormonal control. Multifunctional protein kinase (MFPK) from rat liver phosphorylates peptide B on serine and threonine residues whereas cAMP-dependent protein kinase phosphorylates peptide A on a serine residue (Ramakrishna, S., and Benjamin, W. B. (1985) J. Biol. Chem. 260, 12280-12286). We now report that rat adipose tissue MFPK also phosphorylates serine and threonine residues of peptide B of ATP-citrate lyase. When the activity of MFPK was assayed using partially purified (by chromatography on phosphocellulose) cytosol fractions from insulin-treated adipose tissue, it was found that MFPK activity was decreased by over 55%. This decrease in MFPK activity occurs at physiological concentrations of insulin (EC50 = 1 x 10(-10) M). Its onset is rapid and almost maximal at 5 min after the addition of insulin. Even when new protein synthesis is inhibited by cycloheximide, extracts from insulin-treated fat pads have less MFPK activity compared to the control. The insulin effect is maintained after further chromatography on a gel filtration column suggesting that the decrease in MFPK activity is not due to a low molecular weight inhibitor. The insulin-induced decrease in MFPK activity is due to a decrease in Vmax whereas the affinity of this enzyme toward ATP-citrate lyase or ATP is unchanged.
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PMID:Insulin action rapidly decreases multifunctional protein kinase activity in rat adipose tissue. 304 24

Homogeneous rat liver ATP-citrate lyase (EC 4.1.3.8) was phosphorylated by the catalytic subunit of cAMP-dependent protein kinase. In agreement with other workers, the maximum level of phosphorylation that we observed was approx. 2 mol/mol of tetramer. Phosphorylated and non-phosphorylated forms of ATP-citrate lyase were prepared. Their kinetic properties were examined using an assay system in which the concentrations of Mg.ATP, magnesium.citrate and CoA were varied systematically at a constant concentration of Mg2+. The phosphorylated form had a two-fold higher Km for Mg.ATP than did the non-phosphorylated form, but no other kinetic differences between the two forms were detected. When ATP-citrate lyase was assayed at a concentration of Mg.ATP well below Km, it was found that phosphorylation of the enzyme correlated well with a decrease of approx. 50% in its activity. This is the first demonstration that phosphorylation can affect the activity of ATP-citrate lyase.
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PMID:Effects of phosphorylation on the kinetic properties of rat liver ATP-citrate lyase. 387 37

31P NMR has been used to investigate the nature of the two chemically distinct phosphorylation sites of ATP-citrate lyase from rat liver. The "regulatory" or "structural" phosphorylation site is acid stable and known to be phosphoserine. The "catalytic" site is very acid labile and has been suggested by different workers to contain either phosphohistidine or an acyl phosphate group. We have demonstrated the presence of both endogenous phosphoserine and phosphoserine introduced after treatment of the lyase with the catalytic subunit of cAMP-dependent protein kinase. This structural phosphate group could be titrated and was readily removed by alkaline phosphatase; these facts, together with the narrow line width of the 31P NMR signal, suggest that it is relatively mobile and located near the surface of the protein. 31P NMR spectra of ATP-citrate lyase that had previously been exposed to fairly high concentrations of potassium chloride (1.5 M), or that had been denatured in detergent and 2-mercaptoethanol, clearly identified phosphohistidine as the catalytic phosphate group. That phosphohistidine is indeed a catalytic intermediate was demonstrated by the disappearance of the resonance in the presence of the substrates citrate and coenzyme A. The line width of the phosphohistidine resonance indicated that the catalytic phosphohistidine residue has negligible residual mobility on the protein. These results are consistent with the pattern of earlier observations on the chemical environments of phospho groups that serve a regulatory or structural role as opposed to a catalytic function in proteins.
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PMID:Phosphorus-31 nuclear magnetic resonance study of the active site phosphohistidine and regulatory phosphoserine residues of rat liver ATP-citrate lyase. 393 62

Acetyl CoA carboxylase, ATP-citrate lyase and fatty acid synthetase were purified to homogeneity by a simple procedure. The purification method consists of polymerization of acetyl CoA carboxylase with citrate followed by avidin-Sepharose affinity chromatography. ATP-citrate lyase and fatty acid synthetase were isolated as by-products of acetyl CoA carboxylase purification and are separated from each other by chromatography on DE-52. ATP-citrate lyase was further purified by CoA-agarose affinity chromatography and fatty acid synthetase was purified on Bio-Gel A-1.5m. Purified ATP-citrate lyase, acetyl CoA carboxylase and fatty acid synthetase had specific activities of 9.9, 2.8 and 1.8 U/mg respectively with an over all recovery of 30, 25 and 50% respectively. Using these purified enzymes, we found that ATP-citrate lyase and acetyl CoA carboxylase were phosphorylated in vitro by both cAMP-dependent protein kinase and ATP-citrate lyase kinase whereas fatty acid synthetase was not phosphorylated by these protein kinases.
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PMID:Rapid purification of enzymes of fatty acid biosynthesis from rat adipose tissue. 614 54

[32P]ATP-citrate lyase phosphorylated by the cAMP-dependent protein kinase was partially digested by trypsin. Two tryptic 32P-labeled phosphopeptides containing more than 90% of the 32P radioactivity present on the phosphorylated enzyme were purified and found to have overlapping amino acid sequences around the same phosphorylated site (Thr-Ala-Ser(32P)-Phe-Ser-Glu-Ser-Arg). Tryptic digestion of 32P-labeled ATP-citrate lyase purified from 32P-labeled hepatocytes exposed to glucagon yielded a major 32P-labeled peptide of identical amino acid composition with that indicated above. Thus, the site on ATP-citrate lyase phosphorylated by the cAMP-dependent protein kinase in vitro resides on the same octapeptide as the site of glucagon-stimulated phosphorylation in intact hepatocytes.
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PMID:ATP-citrate lyase. Structure of a tryptic peptide containing the phosphorylation site directed by glucagon and the cAMP-dependent protein kinase. 626 53

32P-labeled ATP-citrate lyase isolated from 32P-labeled hepatocytes treated with insulin contained 1.6-1.8-fold greater 32P-radioactivity per mg protein than control enzyme. Both enzyme preparations were digested in parallel with trypsin until 94% of all 32P-radioactivity was rendered acid soluble. Quantitative high performance liquid chromatographic peptide mapping of the tryptic digests revealed a principal 32P-peptide which accounted for at least 80% of the insulin induced increment in 32P-radioactivity of native lyase. This peptide was purified, sequenced, and the site of 32P-phosphorylation assigned by two methods: electrophoresis (pH 6.5) of residual peptide after each step of Edman degradation and solid phase sequencing. The site of insulin-directed phosphorylation of ATP-citrate lyase (Thr-Ala-Ser(32P)-Phe-Ser-Glu-Ser-Arg) is the same as that directed by glucagon, and, in turn, identical with that phosphorylated by the cAMP-dependent protein kinase in vitro.
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PMID:The insulin-directed phosphorylation site on ATP-citrate lyase is identical with the site phosphorylated by the cAMP-dependent protein kinase in vitro. 628 69

ATP-citrate lyase (CL) catalyzes the conversion of citrate and CoA to oxaloacetate (OA) and acetyl-CoA. As the coupled malic dehydrogenase (MDH) assay is not able either to study the effect of oxaloacetate (OA) on CL activity or to measure accurately CL activity in biological samples, a new assay was developed. The CL-citrate coupled CAT assay measures the amount of acetyl-CoA formed by transferring radiolabeled acetyl-CoA synthesized from [14C]citrate to chloramphenicol with chloramphenicol acetyltransferase (CAT). Employing this assay, the rate of increase in acetyl-CoA synthesis from citrate is linear with respect to added CL. Kinetic values for ATP, CoA and citrate are similar to those obtained using the MDH assay. The effect of CL phosphorylation on enzyme activity was determined. CL phosphorylated by cAMP-dependent protein kinase or by this kinase and glycogen synthase kinase-3 (GSK-3) decreases the apparent Vmax without changing the apparent Km. The effect of OA, a product of the enzyme reaction, on CL activity was also determined. Computational analysis of the data obtained without added OA and at three concentrations of OA indicate that the apparent Km for the substrate is not altered even though the apparent Vmax is decreased. The effect of OA on the activity of phosphorylated enzyme was also determined. OA decreases the apparent Vmax of the phosphorylated enzyme to the same extent as in control CL. This assay is able to measure CL activity in cytosol from 3T3-L1 adipocytes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of oxaloacetate and phosphorylation on ATP-citrate lyase activity. 766 53

Berberine interfering with cancer reprogramming metabolism was confirmed in our previous study. Lipid metabolism and mitochondrial function were also the core parts in reprogramming metabolism. In the presence of some energy-related inhibitors, including C75, compound C, and TOFA, the discrete roles of berberine in lipid metabolism and mitochondrial function were elucidated. An altered lipid metabolism induced by berberine was observed under the inhibition of FASN, AMPK, and ACC in breast cancer cell MCF-7. And the reversion of berberine-induced lipid suppression indicated that ACC inhibition might be involved in that process instead of FASN inhibition. A robust apoptosis induced by berberine even under the inhibition of AMPK and lipid synthesis was also indicated. Finally, mitochondrial function regulation under the inhibition of AMPK and ACC might be in an ACL-independent manner. Undoubtedly, the detailed mechanisms of berberine interfering with lipid metabolism and mitochondrial function combined with energy-related inhibitors need further investigation, including the potential compensatory mechanisms for ATP production and the upregulation of ACL.
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PMID:Berberine Regulated Lipid Metabolism in the Presence of C75, Compound C, and TOFA in Breast Cancer Cell Line MCF-7. 2635 11

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