Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.31 (beta-glucuronidase)
 7,680 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Purified preparations of human polymorphonuclear leucocytes contain a protein kinase in the cytosol which is stimulated by cyclic AMP and cyclic IMP but not by other cyclic nucleotides. The holoenzyme had a molecular weight of 66000 estimated by gel filtration; when it was incubated with histone or cyclic AMP, it dissociated into two smaller subunits of molecular weight 45000 and 30000; the former remained cyclic AMP-sensitive, whereas the latter had become independent of added cyclic AMP. By means of substrate-affinity chromatography on histone-Sepharose 4B, cyclic [3H5AMP-binding activity (regulatory or R subunit) could be resolved into two peaks of enzyme activity, one again independent of added cyclic AMP, with a molecular weight of 30000 (catalytic or C subunit). Also by means of substrate-affinity chromatography it was possible to resolve 'specific' polymorphonuclear leukocyte histone phosphatases from 'non-specific' phosphomonesterases capable of dephosphorylating histone previously phosphorylated by the protein kinase. Specific histone phosphatase displayed greatest affinity for histone-Sepharose 4B, followed by acid p-nitrophenyl phosphatase, and the unretained acid beta-glucerophosphatase. Polymorphonuclear leucocyte histone phosphatase, purified approx. 40-fold, was further resolved from the other phosphatases by gel filtration on Sephadex G-150 from which it was eluted with apparent molecular weights of 45000 and 18700. The apparent Km values for dephosphorylation of histone are 4.3 X 10-6M and 3.6 X 10-6M. Most (69%) of cytoplasmic histone phosphatase was found in the cell sap, whereas 20% remained tightly associated with polymorphonuclear leucocyte lysosomes from which it could not be solubilized by treatments (Triton X-100, freeze-thawing) that released approx. 70% of lysosomal beta-glucuronidase or acid phosphatases. Although both soluble and particulate enzymes required 5-10 mM-Mn2 for maximal activation, and showed a pH maximum of 6.5-7.0, only the particulate enzyme was partly inhibited by ammonium molybdate. Polymorphonuclear leucocyte histone phosphatases were neither inhibited nor stimulated by those cyclic nucleotides that greatly stimulate the protein kinase of the same subcellular fraction
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PMID:Protein kinase and phosphatases from human polymorphonuclear leucoytes. 23 86

Arachidonic acid metabolism in resident rat alveolar macrophages and in those activated with complete Freund's adjuvant (CFA) was studied. Adult Sprague-Dawley rats were injected with 0.05 ml CFA, and macrophages were harvested 10 days later. Macrophages were labeled overnight with carbon 14-labeled arachidonic acid, washed, and then stimulated with calcium ionophore A23187 (IoA), phorbol myristate acetate (PMA), or zymosan for 30 minutes. Prostaglandins, thromboxane, and leukotrienes were extracted from the medium and analyzed by radioimmunoassay or radio high-pressure liquid chromatography. Cell lipids were analyzed by radio thin-layer chromatography. Medium and cell beta-glucuronidase activity and protein kinase C activity of the membrane fraction were also assayed. We found (1) lower leukotriene B4 (LTB4) production in stimulated resident macrophages when compared with resident macrophages after IoA stimulation--the suppressed LTB4 production was reversed by PMA; (2) unchanged or higher LTB4 production in activated macrophages when compared with resident macrophages after zymosan stimulation; (3) inhibition of zymosan-stimulated LTB4 production by staurosporine, a protein kinase C inhibitor, in both groups; and (4) lower diacylglycerol (DAG) production in activated macrophages when compared with resident macrophages after IoA stimulation, but not after zymosan stimulation. These results suggest that the reduced response of activated macrophages to IoA is due to decreased production of an endogenous protein kinase C activator. This hypothesis was further supported by the observation that protein kinase C activation in response to IoA was lower in activated macrophages than in resident macrophages. In contrast, zymosan stimulation resulted in higher protein kinase C activation in activated macrophages when compared with resident cells. We hypothesize that protein kinase activation is necessary for leukotriene production and that the preserved ability of zymosan to activate PKC via DAG accounts for the high leukotriene production in zymosan-activated macrophages. We also found that stimulated thromboxane production was higher in activated than resident cells, regardless of the stimulus, and that thromboxane production was not affected by staurosporine. Thus alterations of eicosanoid metabolism in immunologically activated macrophages depend on the stimulus used and the type of eicosanoid examined. Furthermore, leukotriene biosynthesis in rat alveolar macrophages may be regulated by protein kinase C.
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PMID:Production of leukotrienes and thromboxane by resident and activated rat alveolar macrophages: a possible role of protein kinase C. 132 31

We studied the effect of adenosine nucleotides on several aspects of the functional activation of human peripheral blood polymorphonuclear leukocytes (PMN). Radiolabeled ATP bound to PMN in a manner suggesting the existence of specific binding sites because: 1) binding was reversed (92 +/- 6%) by 100-fold excess concentrations of unlabeled ATP but minimally by either ADP (43 +/- 12%) or GTP (37 +/- 8%); and 2) binding saturation was achieved (i.e., specific binding did not increase) above 250 microM ATP. Binding studies revealed that significant ATP hydrolysis occurred, even at low temperatures and in the presence of phosphatase inhibitors. Adenosine nucleotides activated signal transduction mechanisms in PMN because: 1) 1 to 100 microM ATP and 5'-adenylylimidodiphosphate (AMP-PNP) stimulated increased production of 1,2-diacylglycerols; 2) ATP (0.5 to 500 microM) and ADP (0.1 to 10 mM) induced increased insoluble protein kinase (PKC) activity in a dose-dependent manner when used at concentrations greater than 50 microM; 3) ATP (greater than or equal to 50 microM) induced a shift in the solubility of phorbol receptors from mostly soluble (89% in untreated cells) to mostly insoluble (68%), whereas ADP, GTP, and GDP were effective at higher concentrations; and 4) greater than or equal to 50 microM ATP stimulated increased phosphorylation of endogenous PMN proteins. AMP-PNP induced PKC activity and phosphoprotein changes that were qualitatively similar to those observed when PMN were treated with ATP, suggesting that extracellular ATP hydrolysis is not required for signal transduction to activate PKC. Functionally, ATP stimulated the secretion of specific (but not azurophil) granules because vitamin B12-binding protein and low levels of lysozyme, but not beta-glucuronidase, were released; qualitatively similar results were obtained by using AMP-PNP. These results suggest that certain adenosine nucleotides employed at physiologically relevant concentrations stimulate increased 1,2-diacylglycerol production, PKC activity, granule secretion, and endogenous phosphoprotein formation in a manner that is independent of extracellular ATP hydrolysis.
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PMID:Extracellular adenosine nucleotides stimulate protein kinase C activity and human neutrophil activation. 215 72

3'5'-cGMP activated beta-glucuronidase, beta-galactosidase, beta-glucosidase and N-acetyl-beta-glucosaminidase in blood platelets, while 2'3'-cGMP, 3,5'-cGMP, N2O2'-dipalmitoyl and 5'-GMP did not affect the activity of these glycosidases. The guanylate cyclase system appears to be involved in activation of blood platelets glycosidases since it is well known that 3'5'-cGMP activates the thrombocyte protein kinase.
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PMID:[The role of the modification of cyclic purine nucleotide molecule in the regulation of platelet acid glycosidase activity]. 282 26

beta-Glucuronidases purified from human hepatoma and from normal liver could serve as a substrate for a cAMP-dependent protein kinase. The rate of phosphorylation reaction of the hepatoma beta-glucuronidase was rapid, whereas that of the normal liver beta-glucuronidase was slow and much lower. Stoichiometry of phosphorylation was 4.3 and 0.46 mol of phosphate/mol of the beta-glucuronidase from the hepatoma and normal liver, respectively. Tryptic peptide mapping of 32P-labeled beta-glucuronidase from hepatoma identified two distinct phosphopeptides (X and Y). The peptide from hepatoma hydrolase was phosphorylated predominantly at the X, while the peptide Y was the major phosphopeptide in the hydrolase of normal liver. Analysis of phosphoamino acids revealed two sites, phosphoserine and phosphothreonine. beta-Glucuronidase from hepatoma consisted of a major subunit with molecular mass of 64,000 (64 kDa) and a minor subunit with 76 kDa, whereas the hydrolase from normal liver had almost exclusively 64 kDa subunit. 32P-labeled beta-glucuronidase indicated that the 64 kDa subunit was phosphorylated both in hepatoma and normal liver beta-glucuronidases.
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PMID:Phosphorylation of beta-glucuronidases from human normal liver and hepatoma by cAMP-dependent protein kinase. 283 20

beta-Glucuronidase purified from human hepatocellular carcinoma consisted of a major subunit with molecular weight of 64,000 (64K-Da) and a minor 76K-Da subunit, whereas the hydrolase from normal liver had almost exclusively 64K-Da subunit. beta-Glucuronidase from the hepatoma and normal liver could serve as a substrate for a cAMP-dependent protein kinase. The rate of phosphorylation reaction of the hepatoma beta-glucuronidase was rapid, whereas that of the normal liver beta-glucuronidase was slow and much lower. Stoichiometry of beta-glucuronidase was 4.3 mol and 0.46 mol of phosphate per mol of the beta-glucuronidase from the hepatoma and normal liver, respectively. Sodium dodecyl sulfate polyacrylamide gel electrophoresis of 32P-labeled beta-glucuronidase indicated that the 64K-dalton subunit was phosphorylated both in hepatoma and normal liver beta-glucuronidase. Tryptic peptide mapping of 32P-labeled beta-glucuronidase from hepatoma identified two distinct phosphopeptides (X and Y). The peptide from hepatoma hydrolase was phosphorylated predominantly at the X, while the peptide Y was the major phosphopeptide in the hydrolase of normal liver. Two-dimensional analysis of phosphoamino acids revealed two sites, phosphoserine and phosphothreonine.
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PMID:[Cancer-associated alterations of human hepatocellular carcinoma beta-glucuronidase--study on phosphorylation by 3', 5'-cyclic AMP dependent-protein kinase]. 283 6

The degranulation reactions of human neutrophils induced by 1-oleoyl-2-acetylglycerol (OAG), phorbol 12-myristate 13-acetate (PMA), and calcium ionophore A23187 or their combinations, were studied. OAG in the absence of the Ca2+-ionophore A23187 stimulated the releases of both lysozyme and lactoferrin, constituents of the specific granules, but did not stimulate the release of beta-glucuronidase, an enzyme of the azurophil granules. Electron microscopy revealed a selective decrease in the numbers of the specific granules in this case. The combined effects of A23187 at a concentration higher than 0.1 microM and OAG were essentially additive. W-7, known to be an inhibitor of both Ca2+-activated phospholipid-dependent protein kinase (C-kinase) and calmodulin, inhibited the degranulation induced by OAG or PMA, while it inhibited the reaction induced by A23187 less markedly. The release of lysozyme reached a plateau at about 0.1 microM A23187 and increased again at higher concentrations of A23187. The observations suggest that degranulation can be induced by the activation of the C-kinase, and the degranulation by A23187 at low concentrations may be due to the activation of the C-kinase; the effects of A23187 at high concentrations, however, could not be explained only in terms of the activation of the C-kinase.
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PMID:The role of Ca2+ and Ca2+-activated phospholipid-dependent protein kinase in degranulation of human neutrophils. 300 50

Two protein kinase genes (atpk1 and atpk2) were isolated from Arabidopsis thaliana genomic DNA with a probe generated by polymerase chain reaction (PCR) using oligonucleotide primers encoding conserved eukaryotic protein kinase sequences. atpk1 and atpk2 are organized in a head-to-tail tandem array on chromosome 3 and have about 80% nucleotide sequence identity. atpk1 encodes a hydrophilic polypeptide of 465 amino acids, M(r) = 52,554. The centrally located catalytic domain contains all the conserved residues characteristic of eukaryotic protein kinases, with greatest similarity to the catalytic domains of 70-kDa ribosomal S6 protein kinase, protein kinase C, and protein kinase A. The C-terminal 75 residues also show homology to protein kinase C and S6 protein kinase. In contrast, the N-terminal 130 residues have no homology to any known protein, and thus may represent a new class of protein kinase regulatory domain. Other motifs found in the Atpk1 protein include two putative autophosphorylation sites, a pseudosubstrate site, two acidic domains, a lysine-rich domain, and two putative PEST sequences, which may contribute to the regulation of protein kinase activity. RNA-blot hybridization showed that atpk1 encoded a 1.8-kb mRNA. Analysis of atpk1 promoter/beta-glucuronidase reporter gene fusions in transgenic plants showed that atpk1 was expressed in all tissues and at all developmental stages, with the strongest expression observed in metabolically active tissues, suggesting that atpk1 is involved in the control of plant growth and development. The first intron of atpk1 functions as an enhancer in atpk1 expression.
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PMID:atpk1, a novel ribosomal protein kinase gene from Arabidopsis. I. Isolation, characterization, and expression. 791 97

Extracellular ATP and ATP gamma S (1-1000 microM) stimulated cyclic AMP (cAMP) production in undifferentiated HL-60 cells. The potency order for adenine nucleotides and adenosine was ATP gamma S > ATP > > ADP > 3 AMP = Adenosine. Indomethacin (50 microM) had no effect on ATP-induced cAMP production. ATP and ATP gamma S also suppressed cell growth and induced differentiation as revealed by fMLP-stimulated beta-glucuronidase release 48 h after exposure. The potency order for the induction of fMLP-stimulated beta-glucuronidase release by adenine nucleotides and adenosine was ATP gamma S > 3 ATP > ADP > AMP = Adenosine approximately 0. The protein kinase A inhibitor Rp-8-Br-cAMPS (10-200 mM) suppressed ATP-induced differentiation but had no effect on ATP-dependent growth suppression. UTP which, like ATP, activates P2U receptors on HL-60 cells, had no effect on cAMP production, cell growth, or differentiation. The data suggest the existence of a novel receptor for ATP on undifferentiated HL-60 cells that is coupled to the activation of adenylate cyclase and cAMP-dependent differentiation.
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PMID:Extracellular ATP triggers cyclic AMP-dependent differentiation of HL-60 cells. 922 56

Extracellular ATP and ATPgammaS (1-1000 microM) stimulated cyclic AMP (cAMP) production in undifferentiated HL-60 cells. The potency order for adenine nucleotides and adenosine was ATPgammaS > ATP >> ADP > or = AMP = Adenosine. Indomethacin (50 microM) had no effect on ATP-induced cAMP production. ATP and ATPgammaS also suppressed cell growth and induced differentiation as revealed by fMLP-stimulated beta-glucuronidase release 48 h after exposure. The potency order for the induction of fMLP-stimulated beta-glucuronidase release by adenine nucleotides and adenosine was ATPgammaS > or = ATP > ADP > AMP = Adenosine approximately 0. The protein kinase A inhibitor Rp-8-Br-cAMPS (10-200 microM) suppressed ATP-induced differentiation but had no effect on ATP-dependent growth suppression. UTP which, like ATP, activates P2U receptors on HL-60 cells, had no effect on cAMP production, cell growth, or differentiation. The data suggest the existence of a novel receptor for ATP on undifferentiated HL-60 cells that is coupled to the activation of adenylate cyclase and cAMP-dependent differentiation.
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PMID:Extracellular ATP triggers cyclic AMP-dependent differentiation of HL-60 cells. 912 25


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