EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

The effects of free fatty acids and fatty acyl esters of coenzyme A and carnitine on the activity of a hormone-sensitive lipase preparation made from pigeon adipose tissue were determined. Oleic acid (100 microM) resulted in a 40% inhibition of lipase activity. A more potent inhibition of lipase activity was seen with long-chain fatty acyl CoA compounds. The concentration required for half-maximal inhibition with oleoyl CoA and palmitoyl CoA was 25-40 microM, whereas palmitoyl carnitine stimulated lipase activity. Activated lipase preparations (preincubated with Mg2+, ATP, cyclic AMP and protein kinase) were 4-6 times more sensitive to inhibition by oleoyl CoA than were nonactivated preparations. An increase in cellular levels of fatty acyl coenzyme A could, therefore, contribute to the feedback inhibition of lipolysis in adipose tissue.
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PMID:Inhibition of the hormone-sensitive lipase in adipose tissue by long-chain fatty acyl coenzyme A. 632 7

Hydroxymethylglutaryl CoA reductase catalyzes the limiting step in cholesterol synthesis in liver and other tissues. Beginning in 1973 studies with subcellular systems established that microsomal reductase is inactivated with ATP(Mg) and reductase kinase, and restored to full activity with phospho-protein phosphatase. By contrast reductase kinase is inactivated with phosphatase and reactivated with a second protein kinase (reductase kinase kinase). This bicyclic system has now been confirmed in terms of homogeneous enzyme components and by direct reversible phosphorylation with [gamma 32P]ATP in several laboratories. Short-term endocrine control of reductase and reductase kinase has been demonstrated in intact rat hepatocytes. Preincubation of cells with glucagon brought about a fall in the expressed activity of reductase and a rise in reductase kinase consistent with net phosphorylation of both enzymes. Total reductase levels were also severely depressed after glucagon. Addition of insulin to suspensions of hepatocytes had the reverse effect on expressed activity of reductase (elevated) and reductase kinase (depressed). Insulin also prevented the decay in total reductase activity. Since both protein kinases identified in this system are cAMP-insensitive, it was possible that hormonal signaling is mediated through the protein phosphatase that acts on both reductase kinase and reductase. In recent studies we have shown that the rate of activation of endogenous reductase in hepatocyte extracts (microsomes plus cytosol) is responsive to hormonal modulation. Pretreatment of hepatocytes with insulin increases apparent reductase phosphatase activity in extracts while glucagon diminishes the rate of reductase activation. HMG CoA is converted to mevalonate by the reductase enzyme. In hepatocytes mevalonate is rapidly converted to cholesterol and to a variety of isoprene derivatives. Expressed reductase activity falls precipitously when hepatocytes are incubated with mevalonate (added in the form of mevalono-lactone). As in the case with glucagon pretreatment reductase phosphatase is rapidly diminished. (Mevalonate itself is not inhibitory to reductase or reductase phosphatase activity in subcellular systems.) It is probable that a product of mevalonate metabolism generated in intact cells may act as a reductase phosphatase inhibitor. Among these added inorganic pyrophosphate inhibited reductase phosphatase at low concentrations.
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PMID:Short-term regulation of hydroxymethylglutaryl coenzyme A reductase by reversible phosphorylation: modulation of reductase phosphatase in rat hepatocytes. 705 70

Methyl lidocaine is an experimental anti-arrhythmic drug which has been shown to enhance the biosynthesis of phosphatidyl-inositol (PI) in the hamster heart. In this study, the effect of methyl lidocaine on enzymes involved in the biosynthesis of PI in the heart was examined. When the hamster heart was perfused with labelled methyl lidocaine, the majority of the compound was not metabolized after perfusion. The direct action of methyl lidocaine on an enzyme was studied by the presence of the drug in enzyme assays, whereas its indirect action was studied by assaying the enzyme activity in the heart after methyl lidocaine perfusion. CTP:phosphatidic acid cytidylyl-transferase, a rate-limiting enzyme in PI biosynthesis, was stimulated by methyl lidocaine in a direct manner. Kinetic studies revealed that methyl lidocaine caused a change in the affinity between the enzyme and phosphatidic acid and resulted in the enhancement of the reaction. Alternatively, acyl-CoA:lysophosphatidic acid acyltransferase, another key enzyme for PI biosynthesis, was not activated by the presence of methyl lidocaine. However, the enzyme activity was stimulated in hearts perfused with methyl lidocaine. The enhancement of the acyl-transferase by methyl lidocaine perfusion was found to be mediated via the adenylate cyclase cascade with the elevation of the cyclic AMP level. The stimulation of protein kinase A activity by cyclic AMP resulted in the phosphorylation and activation of the acyltransferase. Interestingly, the activity of protein kinase C was not stimulated by methyl lidocaine perfusion. We conclude that the enhancement of PI biosynthesis by methyl lidocaine in the hamster heart resulted from the direct activation of the cytidylyltransferase, as well as the phosphorylation and subsequent activation of the acyltransferase.
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PMID:The modulation of phosphatidylinositol biosynthesis in hamster hearts by methyl lidocaine. 763 4

Herpesvirus infection of arterial smooth muscle cells has been shown to cause cholesteryl ester (CE) accumulation. However, the effects of human herpes simplex virus type 1 (HSV-1) infection on cholesterol binding and internalization, intracellular metabolism, and efflux have not been evaluated. In addition, the effects of viral infection on signal transduction pathways that impact upon cholesterol metabolism have not been studied. We show in studies reported herein that HSV-1 infection of arterial smooth muscle cells enhances low density lipoprotein (LDL) binding and uptake which parallels an increase in LDL receptor steady state mRNA levels and transcription of the LDL receptor gene. HSV-2 also increases CE synthesis and 3-hydroxy- 3-methylglutaryl-CoA reductase activity but concomitantly reduces CE hydrolysis and cholesterol efflux. Interestingly, this viral infection was associated with a time-dependent decrease in protein kinase A activity and an increase in viral-induced protein kinase (VPK) activity commensurate with the accumulation of esterified cholesterol. The relationship between increased VPK activity and alterations in CE accumulation in virally infected cells was explored using an HSV-1 VPK- mutant in which the portion of the HSV-1 genome encoding VPK had been deleted. Cholesteryl ester accumulation was significantly increased (> 50-fold) in HSV-1-infected cells compared to uninfected cells. However, the HSV-1 VPK- mutant had no significant effect on CE accumulation. The relationship between VPK activity and these alterations in cholesterol metabolism was further supported by the observation that staurosporine and calphostin C (protein kinase inhibitors) reduced protein kinase activity in HSV-1-infected cells. These results suggest several potential mechanisms by which alterations in kinase activities in response to HSV-1 infection of vascular cells may alter cholesterol trafficking processes that eventually lead to CE accumulation.
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PMID:Altered cholesterol trafficking in herpesvirus-infected arterial cells. Evidence for viral protein kinase-mediated cholesterol accumulation. 764 51

Rat liver nucleoside diphosphate kinase (NDPK) and PC12 cell cytosol were used to determine whether NDPK could function as a protein kinase. NDPK was phosphorylated on its catalytic histidine using [gamma-32P]ATP, and the phosphorylated NDPK separated from [gamma-32P]ATP. The addition of phosphorylated NDPK to dialyzed PC12 cell cytosol resulted in the phosphorylation of a protein with a subunit molecular mass of about 120 kDa. This phosphorylation appeared to occur by a direct transfer of a phosphoryl group from the catalytic histidine of NDPK to a histidine on the 120-kDa protein. The 120-kDa protein was partially purified and shown by peptide sequencing to be ATP-citrate lyase. ATP-citrate lyase is the primary source of cytosolic acetyl-CoA. NDPK phosphorylated the histidine at the catalytic site of ATP-citrate lyase. This histidine can also be phosphorylated by ATP, and its phosphorylation is the first step in the conversion of citrate and CoA to oxaloacetate and acetyl-CoA by ATP-citrate lyase. The level of phosphorylation of PC12 cell ATP-citrate lyase by phosphorylated NDPK was comparable with that by ATP. Thus, in addition to its nucleoside diphosphate kinase activity, NDPK can function as a protein kinase.
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PMID:Phosphorylation of ATP-citrate lyase by nucleoside diphosphate kinase. 766 95

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

N-Myristoyl-CoA:protein N-myristoyltransferase (NMT) is the enzyme that catalyses the transfer of myristate from myristoyl-CoA to the N-terminal glycine of protein substrates. NMT was highly purified from bovine brain by procedures involving sequential column chromatography on DEAE-Sepharose CL-6B, phosphocellulose, hydroxylapatite, and mono S and mono Q f.p.l.c.. The highly purified NMT (termed NMT.II) possessed high specific activity with peptide substrates derived from the N-terminal sequences of the cAMP-dependent protein kinase and pp60src (29,800 and 47,600 pmol N-myristoylpeptide formed/min/mg, respectively), intermediate activity with a peptide based on the N-terminal sequence of a viral structural protein (microliter) (M2; 17,300 pmol N-myristoylpeptide formed/min/mg) and very low activity with a peptide derived from the N-terminal sequence of myristoylated alanine-rich C-kinase substrate (MARCKS; 1500 pmol myristoylpeptide formed/min/mg). An NMT protein inhibitor (NIP71) isolated from the particulate fraction of bovine brain (King MJ and Sharma RK: Biochem J 291:635-639, 1993) potently inhibited highly purified NMT activity (IC50 23.7 nM). A minor NMT activity (NMT.PU; 30% total NMT activity), which failed to bind to phosphocellulose, was insensitive to NIP71 inhibition. Inhibition of NMT was observed to be via mixed inhibition with respect to both the myristoyl-CoA and peptide substrates with NIP71 having an apparent higher affinity for NMT than the NMT.myristoyl.CoA complex. Inhibition by NIP71 at subsaturating concentrations of myristoyl-CoA and peptide resulted in a sigmoidal pattern of inhibition indicating that bovine brain possesses a potent and delicate on/off switch to control NMT activity.
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PMID:Mechanisms of action of NIP71 on N-myristoyltransferase activity. 789 74

We recently reported the existence of a protein kinase cascade in higher plants, of which the central component is a 3-hydroxy-3-methylglutaryl(HMG-)-CoA reductase kinase functionally related to mammalian AMP-activated protein kinase [MacKintosh, R. W., Davies, S. P., Clarke P. R., Weekes, J., Gillespie, S. G., Gibb, B. J. & Hardie, D. G. (1992) Eur. J. Biochem. 209, 923-931]. We have now purified this protein kinase 9000-fold from cauliflower inflorescences. During the course of this work we noticed a second minor form (form B) which separated from the major form (A) on ion exchange and gel filtration. Both forms phosphorylate the catalytic fragment of mammalian HMG-CoA reductase. Both forms are markedly inactivated by incubation with the reactive ATP analogue p-fluorosulphonylbenzoyl adenosine (FSO2PhCOAdo), and also by mammalian protein phosphatase 2C, indicating that form B, like form A, is activated by phosphorylation. Form A has an apparent native molecular mass of 200 kDa by gel filtration and, after labelling with [14C]FSO2PhCOAdo, of 150 kDa by electrophoresis in non-denaturing gels. The catalytic subunit was identified as a polypeptide of 58 kDa after labelling with [14C]FSO2PhCOAdo. Form B has an apparent native molecular mass of 45 kDa by gel filtration, and was identified as a polypeptide of 45 kDa after labelling with [14C]FSO2PhCOAdo and [gamma-32P]ATP. Using a series of variants of the synthetic peptide substrate, the substrate specificities of the two forms are similar but not identical. Form B does not appear to be a proteolytic fragment of form A, and we therefore propose that it represents a closely related member of the same protein kinase sub-family.
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PMID:Biochemical characterization of two forms of 3-hydroxy-3-methylglutaryl-CoA reductase kinase from cauliflower (Brassica oleracia). 811 24

The enzyme myristoyl-CoA:protein N-myristoyltransferase is responsible for the attachment of a myristoyl group to the N-terminal glycine of a number of cell, viral and fungal proteins. In order to overcome the difficulties of purification of this enzyme from tissue sources, we have produced an N-terminally polyhistidine-tagged version of the enzyme and expressed this in Escherichia coli. The resulting enzyme has a molecular mass of 53 kDa and is fully active showing the expected specificity for myristic acid and causing the N-terminal myristoylation of both synthetic peptide and protein substrates in vitro. The enzyme exhibits a broad pH optimum peaking at a pH of 8.0 and has a Km for myristoyl-CoA of 7.6 microM. The two synthetic peptide substrates based on the N-terminal sequence of the catalytic subunit of protein kinase A (GNAAAARR) and of p60src (GSSKSKPKDPSQRRRY) have different kinetic parameters with Km values of 115.2 microM and 44.2 microM and Vmax values of 95 and 120 nmol.min-1.mg-1, respectively. The expressed enzyme is partially inhibited (50%) by iodoacetamide at 5 mM and fully inhibited by diethylpyrocarbonate at 10 mM. This latter inhibition can be prevented by including histidine in the incubation of the enzyme and inhibitor. Antisera raised to synthetic peptides based on sequences derived from the N- and C- terminus of the human enzyme reacted with the expressed protein on Western blots, but only the N-terminal sequence reacted with the native protein suggesting that the C-terminus may be not be accessible. The enzyme can catalyse the removal of a myristoyl group from myristoylated peptides but does so only in the presence of added coenzyme A.
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PMID:Characterization of a polyhistidine-tagged form of human myristoyl-CoA: protein N-myristoyltransferase produced in Escherichia coli. 820 Mar 38

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