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)

Three isozymes of human tyrosine hydroxylase (hTH1, hTH2 and hTH4) were expressed in Escherichia coli and purified to homogeneity. Natural catecholamines and related synthetic compounds were found to be potent inhibitors, competitive to the tetrahydrobiopterin cofactor, of all the isozymes. Combining visible spectroscopy and equilibrium-binding studies, it was found that catecholamines bind to hTH1 and hTH2 with a stoichiometry of about 1.0 mol/mol enzyme subunit, interacting with the catalytic iron at the active site. All the isozymes tested were excellent substrates for cAMP-dependent protein kinase (Km = 5 microM, Vmax = 9.5 mumol.min-1.mg kinase-1). The incorporation of about 1.0 mol phosphate/subunit at Ser40 decreased the affinity of dopamine binding by a factor of 10. Conversely, the addition of stoichiometric amounts of Fe(II) and dopamine to the apoenzymes reduced both the affinity and stoichiometry of phosphorylation by cAMP-dependent protein kinase by 2-3-fold. These data provide evidence for a mutual interaction between the presumed regulatory and catalytic domains of hTH, and show that activation of the enzyme by phosphorylation and inactivation by binding of catecholamines are related events, which probably represent important mechanisms for the regulation of the enzyme activity in vivo.
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PMID:Regulation of recombinant human tyrosine hydroxylase isozymes by catecholamine binding and phosphorylation. Structure/activity studies and mechanistic implications. 135 68

Recombinant rat PC12 tyrosine hydroxylase, also called tyrosine 3-monooxygenase [L-tyrosine, tetrahydropteridine:oxygen oxidoreductase (3-hydroxylating), EC 1.14.16.2], purified from Escherichia coli is in an activated form with a low Km for the tetrahydrobiopterin cofactor and a pH optimum of 6.5. Pretreatment with low levels of the derived product, dopamine, inhibits catalytic activity, increases the Km for the cofactor, and shifts the pH curve towards a more acidic pH optimum. Labeled dopamine binds to tyrosine hydroxylase with high affinity (Kd = 1 microM) but low stoichiometry (r = 0.08 mol/mol of enzyme subunit). The binding of dopamine results in the appearance of a blue-green chromophore with lambda max at approximately 660 nm, which is consistent with the formation of a catecholamine-iron complex. In the absence of dopamine, the recombinant enzyme cannot be further activated by phosphorylation with cAMP-dependent protein kinase, although as much as 1 mol of phosphate is incorporated per mol of subunit. In contrast, the enzyme pretreated with dopamine is activated by phosphorylation in the same fashion and to the same extent as the native hydroxylase. The results suggest that the high-affinity binding of catecholamine products is a pivotal post-translational modification that determines the state of enzyme activation and the response to phosphorylation.
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PMID:Regulation of recombinant rat tyrosine hydroxylase by dopamine. 135 65

Flavonols are dietary compounds widely distributed in plants and characterized by a 2-phenyl-benzo(alpha)pyrane nucleus possessing hydroxyl and ketone groups at positions 3 and 4, respectively. Kaempferol, quercetin, and myricetin are flavonols that are further mono-, di-, or trihydroxylated on the phenyl ring, respectively. To test whether these ingested flavonols might exert a direct secretory effect on intestinal epithelial cells, monolayers of the T84 colonocyte cell line were mounted in Ussing chambers and examined for ion transport response. Twenty minutes after addition of 100 microM quercetin to either the serosal or mucosal side, the short-circuit current change was maximal at 16.6 microA/cm2. Kaempferol was less potent than quercetin, while myricetin and glycosylated quercetin (rutin) did not induce secretion. The secretion induced by quercetin did not seem to be mediated by the reactive oxygen species generated by quercetin through auto-oxidation and/or redox cycling (superoxide, hydrogen peroxide, and the hydroxyl radical) because it was neither enhanced by iron, nor inhibited by desferroxamine B or catalase (alone or in combination with superoxide dismutase). Like vasoactive intestinal peptide, quercetin induced a secretory response that was inhibited by barium chloride and bumetanide, and which exhibited synergism with carbachol. Quercetin also stimulated a modest increase in intracellular cAMP levels and the phosphorylation of endogenous protein substrates for cAMP-dependent protein kinase. Thus, quercetin is a potent stimulus of colonocyte secretion that resembles secretagogues which act via a cAMP-mediated signaling pathway.
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PMID:Stimulation of secretion by the T84 colonic epithelial cell line with dietary flavonols. 164 52

The mitochondrial sulfurtransferase, rhodanese, has been analyzed for phosphate content. Significant amounts of protein-bound phosphate (30-40%) were measured in the six rhodanese preparations examined. Chromatographic experiments followed by phosphate analyses done on two of the preparations indicated that rhodanese A and rhodanese B, two enzyme forms that were previously resolved on DEAE-Sephadex by Blumenthal and Heinrikson (Blumenthal, K., and Heinrikson, R. L. (1971) J. Biol. Chem. 240, 2430-2437), correspond to dephospho- and phosphorhodanese, respectively. The phosphorylation of rhodanese by [gamma-32P]ATP is catalyzed by cAMP-dependent protein kinase. The stoichiometry of 32P incorporation based on the amount of dephosphorhodanese in the enzyme preparation approaches 1.0. The phosphorylation site is accessible in rhodanese that is free of substrate sulfur but not in the covalent enzyme-sulfur intermediate which is formed as an obligatory step during the course of catalysis. Because the cellular localization of cAMP-dependent protein kinase makes it unlikely as the physiologic modulator of rhodanese activity, liver extracts have been tested for a rhodanese kinase that does not require cAMP. Rhodanese kinase activity which is independent of cAMP is observed in extract fractions resolved by Affi-Gel Blue chromatography and freed from endogenous rhodanese by chromatography on Sephadex G-100. These results together with previous findings from this and other laboratories have led to a working model of a bicyclic cascade system that can modulate the rate of mitochondrial respiration. The essence of the model is a transduction and amplification of cellular signals into the altered covalent phosphorylation of rhodanese. Rhodanese, in turn, serves as a converter enzyme which directly alters the rate of the respiratory chain and, thus, ATP production by the reversible sulfuration of key iron-sulfur centers. The model, when expanded to include signal pathways initiated by hormones or neurotransmitters, represents a mechanism by which mitochondria can recognize and meet changing energy demands.
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PMID:Bovine mitochondrial rhodanese is a phosphoprotein. 249 22

Adrenodoxin is an iron-sulfur protein which functions as a carrier of reducing equivalents in steroid hydroxylation reactions catalyzed by specific cytochromes P-450 in steroidogenic tissues such as adrenal cortex. Purified bovine adrenocortical adrenodoxin was shown to be selectively phosphorylated upon incubation with purified cAMP-dependent protein kinase, whereas other protein kinases were ineffective. The phosphorylation reaction was completed within 45 min at 30 degrees C and resulted in the optimal incorporation of 1 mol phosphate/mol adrenodoxin. Apoadrenodoxin, lacking the iron-sulfur cluster, was also phosphorylated under similar conditions. An apparent Km of 55 microM with a Vmax of 0.3 pmol 32P incorporated min-1 mg adrenodoxin-1 was calculated. Phosphorylation resulted in a striking change in several molecular properties of adrenodoxin, such as electrophoretic behavior and hydroxyapatite affinity, thus providing the possibility of clearly separating phosphorylated from unphosphorylated adrenodoxin. In addition, phosphoadrenodoxin became refractory to mild trypsin degradation, whereas this was not the case with apoadrenodoxin. The phosphorylated site of adrenodoxin was identified as a serine residue; study of peptide products resulting from CNBr and proteolytic cleavages of phosphoadrenodoxin suggested that Ser-88 was the target of the phosphorylation reaction. The influence of phosphorylation upon adrenodoxin activity was examined using cholesterol side-chain cleavage and 11 beta-hydroxylase (11 beta) systems, reconstituted from purified components. Phosphorylation of adrenodoxin resulted in an average twofold decrease in its Km values for the two specific cytochromes P-450 involved. This effect was paralleled by a positive relationship between the degree of adrenodoxin phosphorylation and its ability to support the overall activity of reconstituted side-chain cleavage and 11 beta-hydroxylase systems. Although it remains to be examined whether adrenodoxin is phosphorylated in the intact cell, the present observations suggest that it represents a potential target in the hormonal regulation of the adrenocortical differentiated functions, especially by stimulatory agents acting through a cyclic-AMP-dependent mechanism, such as adrenocorticotropin.
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PMID:Phosphorylation of bovine adrenodoxin. Structural study and enzymatic activity. 282 99

Cell-specific differences occur in the primary structure of ferritin. For example, red cell and liver ferritin from bullfrog tadpoles differ by 1.5 times in serine content. To determine if cell-specific differences in ferritin primary structure are expressed in the tetraeicosomer, which thus might distinguish the proteins in a functional state, phosphorylation in vitro was employed as a probe using [gamma-32P]ATP and the catalytic subunit from the cAMP-dependent protein kinase of bovine skeletal muscle. Subunits of both proteins in the tetraeicosomers were phosphorylated. Based on tryptic peptide maps, five regions common to both red cell and liver apoferritin were phosphorylated, as confirmed for two peptides by amino acid analyses. [32P]Apoferritin from red cells yielded an additional four 32P-fragments by mapping, at least three of which were unique by amino acid analysis and, in one case, might represent a 32P-Fe complex bound by a fragment of the iron-binding site. One peptide appeared to be unique to liver apoferritin. High concentrations of ATP yielded one additional peptide common to liver and red cell and one red cell-specific peptide in the tryptic peptide maps. The maximum moles of 32P/molecule were 13 +/- 4 and 6 +/- 2, respectively, for red cell and liver apoferritin, which corresponded within experimental error to the number of 32P-tryptic peptides. The level of phosphorylation was, on the average, not more than one site/subunit. Furthermore, above certain levels of phosphorylation, some subunits in the assemblage of 24 appeared to be unavailable as substrates, possibly because of charge repulsion or conformational changes. The possibility that post-translational modifications of ferritin which amplify cell-specific structural features occur in vivo with cytoplasmic components, e.g. protein kinases, is considered in terms of the physiological availability of iron from different iron storage cells and developmental changes in iron storage.
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PMID:Cell-specific properties of red cell and liver ferritin from bullfrog tadpoles probed by phosphorylation in vitro. 660 21

The cDNA of human amidophosphoribosyltransferase (EC 2.4.2.14, ATase), which is the supposed regulatory allosteric enzyme of de novo purine nucleotide biosynthesis, has been cloned from human hepatoma (HepG2) cDNA library. The predicted open reading frame encodes a protein of 517 amino acids with a deduced molecular weight (Mr) of 57,398, which is consistent with the molecular mass of 56 kDa on SDS-polyacrylamide gel electrophoresis (SDS-PAGE) of the ATase subunit purified from human placenta. The derived amino acid sequence exhibits 93, 82, 41, 37, and 33% identity with the sequences of rat, chicken, Bacillus subtilis, Escherichia coli, and Saccharomyces cerevisiae ATases, respectively. Southern blot analysis suggested that the ATase gene exists as multiple copies. ATase mRNA (3.5 kb) is ubiquitously expressed in various human tissues. Comparison with rat and chicken ATases showed that two cysteine residues for an iron-sulfur cluster were conserved. Four consensus phosphorylation sites for cAMP-dependent protein kinase were found.
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PMID:Molecular cloning of human amidophosphoribosyltransferase. 838 Jun 92

The cDNA of rat amidophosphoribosyltransferase (EC 2.4.2.14, ATase), which is the supposed regulatory allosteric enzyme of de novo purine nucleotide biosynthesis, has been cloned by polymerase chain reaction. The predicted open reading frame encodes a protein of 517 amino acids with a deduced molecular weight of 57,436 including a supposed 11-amino acid propeptide. The 16 amino acid residues next to the propeptide were identical to the N-terminal amino acid microsequence of a purified rat liver ATase, which is consistent with the cleavage of the propeptide from the proenzyme in rat liver. The derived amino acid sequence is the first sequence reported for a mammalian ATase and it exhibits 81, 41, 36, and 31% identity with the sequences of chicken, Bacillus subtilis, Escherichia coli, and Saccharomyces cerevisiae ATases, respectively. The molecular weight (M(r)) of 57,436 suggests a tetrameric structure of native ATase with a M(r) of 240,000-248,000. Southern blot analysis suggested that the ATase gene exists as a single copy in the rat genome. Northern blot analysis revealed that ATase is expressed at a high level in brain, heart, liver, and stomach. The ATase mRNA in brain, heart, and stomach was 3.5 kilobases (kb) and in liver the 3.5-kb band was observed as well as an additional band of 4.2 kb. Reverse transcription-polymerase chain reaction analysis showed that ATase is ubiquitously expressed in all tissues examined. Comparison with chicken ATase showed that 2 cysteine residues for an iron-sulfur cluster were conserved. Three conserved and two non-conserved consensus phosphorylation sites for cAMP-dependent protein kinase were found.
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PMID:Molecular cloning of rat amidophosphoribosyltransferase. 846 58

In cultured rat hepatocytes the degradation of phosphoenolpyruvate carboxykinase mRNA might be regulated by protein(s), which by binding to the mRNA alter its stability. The 3'-untranslated region of phosphoenolpyruvate carboxykinase mRNA as a potential target was used to select RNA-binding protein(s) from rat liver by the use of gel retardation assays. A cytosolic protein was isolated, which bound to the phosphoenolpyruvate carboxykinase mRNA 3'-untranslated region and other in vitro synthesized RNAs. The protein was purified to homogeneity; it had an apparent molecular mass of 400 kDa and consisted of identical subunits with an apparent size of 24.5 kDa. Sequence analysis of a tryptic peptide from the 24.5-kDa protein revealed its identity with rat ferritin light chain. Binding of ferritin to RNA was abolished after phosphorylation with cAMP-dependent protein kinase and was augmented after dephosphorylation with alkaline phosphatase. Weak binding was observed in extracts from okadaic acid-treated cultured hepatocytes compared with untreated cells. Preincubation of ferritin with an anti-phosphoserine or an anti-phosphothreonine antibody attenuated binding to RNA, while an anti-phosphotyrosine antibody generated a supershift indicating that phosphoserine and phosphothreonine but not phosphotyrosine residues were in close proximity to the RNA-binding region. Ferritin is the iron storage protein in the liver. Binding of ferritin to RNA was diminished in the presence of increasing iron concentrations, whereas the iron chelator desferal was without effect. It is concluded that ferritin might function as RNA-binding protein and that it may have important functions in the general regulation of cellular RNA metabolism.
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PMID:Purification of a RNA-binding protein from rat liver. Identification as ferritin L chain and determination of the RNA/protein binding characteristics. 924

The cystic fibrosis transmembrane conductance regulator (CFTR) gene encodes an apical membrane Cl- channel regulated by protein phosphorylation. To identify cAMP-dependent protein kinase (PKA)-phosphorylated residues in full-length CFTR, immobilized metal-ion affinity chromatography (IMAC) was used to selectively purify phosphopeptides. The greater specificity of iron-loaded (Fe3+) nitrilotriacetic (NTA). Sepharose compared to iminodiacetic acid (IDA) metal-chelating matrices was demonstrated using a PKA-phosphorylated recombinant NBD1-R protein from CFTR. Fe(3+)-loaded NTA Sepharose preferentially bound phosphopeptides, whereas acidic and poly-His-containing peptides were co-purified using the conventional IDA matrices. IMAC using NTA Sepharose enabled the selective recovery of phosphopeptides and identification of phosphorylated residues from a complex proteolytic digest. Phosphopeptides from PKA-phosphorylated full-length CFTR, generated in Hi5 insect cells using a baculovirus expression system, were purified using NTA Sepharose. Phosphopeptides were identified using matrix-assisted laser desorption mass spectrometry (MALDI/MS) with post-source decay (PSD) analysis and collision-induced dissociation (CID) experiments. Phosphorylated peptides were identified by mass and by the metastable loss of HPO3 and H3PO4 from the parent ions. Peptide sequence and phosphorylation at CFTR residues 660Ser, 737Ser, and 795Ser were confirmed using MALDI/PSD analysis. Peptide sequences and phosphorylation at CFTR residues 700Ser, 712Ser, 768Ser, and 813Ser were deduced from peptide mass, metastable fragment ion formation, and PKA consensus sequences. Peptide sequence and phosphorylation at residue 753Ser was confirmed using MALDI/CID analysis. This is the first report of phosphorylation of 753Ser in full-length CFTR.
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PMID:Evidence for phosphorylation of serine 753 in CFTR using a novel metal-ion affinity resin and matrix-assisted laser desorption mass spectrometry. 938 46


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