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:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Partially purified plasma membranes were obtained from chick-embryo muscle cells grown in tissue culture. The purification procedure involved homogenization in buffered isotonic sucrose followed by differential and sucrose density gradient centrifugations. The activities of five plasma-membrane markers, as well as microsomal and mitochondrial markers, were followed throughout the purification. When cultures were labeled with [(125)I]alpha-bungarotoxin, which binds to the surface of cultured muscle cells, the distributions of bound alpha-bungarotoxin and Na(+),K(+)-ATPase (EC 3.6.1.3) activity were nearly identical. The activities of these two plasma-membrane markers were maximal in the upper two fractions of the sucrose density gradient and were purified 5- to 7-fold with respect to total particulate protein. These fractions contained 20-30% of the Na(+),K(+)-ATPase activity and bound alpha-bungarotoxin, 4% of the microsomal marker TPNH-dependent cytochrome c reductase, 0.2% of the mitochondrial marker succinate-dependent cytochrome c reductase, 2.7% of the cellular RNA, and 0.02% of the DNA. The activity of the commonly used plasma-membrane marker, 5'-nucleotidase (EC 3.1.3.5), was low in the upper two sucrose gradient fractions and was maximal in a more dense fraction. The distributions of the other two plasma-membrane markers, leucyl beta-naphthylamidase and phosphodiesterase I, were intermediate between Na(+),K(+)-ATPase and 5'-nucleotidase. The distributions of all markers were similar in preparations from cultures containing mononucleated myogenic cells, multinucleated myotubes, fibroblasts, or all three cell types. Modification of the procedure to include homogenization in the absence of sucrose resulted in a 3.4-fold purification of the membranes containing 5'-nucleotidase, which were shifted to a lower density.
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PMID:Plasma membranes from cultured muscle cells: isolation procedure and separation of putative plasma-membrane marker enzymes. 436 82

The activity of 3 plasma membranes marker enzymes (5'-nucleotidase, Mg++-ATPase and alkaline phosphodiesterase-I) was determined in plasma membranes isolated from liver of control and of clofibrate-treated rats. A complete indentity of plasma membranes enzyme activity in the 2 groups of experimental animals was observed for the 3 enzymes studied.
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PMID:Effect of clofibrate on the enzyme activity of rat liver plasma membranes. 610 23

The effect of Ca2+ and calmodulin on (CaM) on the activation of Ca2+-dependent Mg2+-activated ATPase (Ca2+,Mg2+-ATPase; ATP phosphohydrolase, EC 3.6.1.3) has been carried out because of the finding that the CaM dependence of the activation varies with the concentration of free Ca2+, similarly to brain phosphodiesterase and adenylate cyclase. The study was carried out in the absence of chelating agents because they strongly interfere in the enzyme kinetics. Three main conclusions can be drawn (i) CaM-Ca3 and CaM-Ca4 together are the biochemically active species in vitro. (ii) These species bind in a non-cooperative way to the CaM-binding site of the enzyme with a dissociation constant of 6 x 10(-10) M or 1.1 x 10(-8) M, depending on whether Ca2+ saturates the substrate binding site of the enzyme or not. (iii) The binding of CaM-Ca3 to the enzyme lowers the dissociation constant of the enzyme for Ca2+ at the substrate binding site from 51.5 to 2.8 microM. Contrary to general belief, CaM does not induce pronounced positive cooperativity in the binding of Ca2+ to the enzyme. Such a cooperativity is seen only when the enzyme is incompletely saturated with the activator, but it disappears in the presence of saturating concentrations of CaM-Ca3. The rate equation proposed here accurately predicts the extent of enzyme activation over a wide range of Ca2+ and CaM concentration. In healthy erythrocytes the concentrations of Ca2+ and CaM are such that the Ca pump works with a minimal dissipation of energy, but a small increase in the intracellular Ca2+ concentration leads to a strong amplification of the pumping activity.
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PMID:Activation of human erythrocyte Ca2+-dependent Mg2+-activated ATPase by calmodulin and calcium: quantitative analysis. 612 73

Sarcolemma (SL) vesicles, isolated from pig heart, contain both a Ca2+-calmodulin-dependent protein kinase (CaM-PK) and a Ca2+-dependent Mg2+-ATPase (Ca2+/Mg2+)-ATPase). Some of their properties have been compared: their affinity for Ca2+ ions, dependence on exogenous calmodulin (CaM) and sensitivity to the anti-CaM drug calmidazolium (R24571). The properties of Ca2+-CaM-dependent brain phosphodiesterase (PDE) have also been examined. R24571 appeared to be the most potent inhibitor from brain PDE. For the three enzymes studied, exogenously added CaM was able to antagonize the R24571 inhibition, although the efficiency to counteract was rather low in the case of the SL Ca2+/Mg2+-ATPase. R24571 decreased the affinity of the Ca2+/Mg2+-ATPase for Ca2+ ions (KCa 0.35 versus 0.75 microM) and exerted an inhibition non-competitive with Ca2+ ions on the other CaM-dependent enzymes. Membrane-bound CaM, which is involved in controlling the Ca2+/Mg2+-ATPase, appeared to be present in a stoichiometry varying from 1:1 to 1:4 compared to the 32P-intermediate of the ATPase. R24571 treatment of SL vesicles selectively solubilized a number of proteins in the molecular range of 13-20 kD, which may include CaM. The results suggest that different mechanisms are involved in the CaM control of the two SL enzymes studied.
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PMID:Inhibition of Ca2+-dependent protein kinase and Ca2+/Mg2+-ATPase in cardiac sarcolemma by the anti-calmodulin drug calmidazolium. 613 71

A high affinity Ca2+-stimulated, Mg2+-dependent ATPase (Ca2+-Mg2+-ATPase) was identified in microsomes and plasma membrane vesicles isolated from rat hepatocytes. The distribution of this enzyme was similar to that of the plasma membrane marker enzymes alkaline phosphodiesterase and 5'-nucleotidase. The Ca2+-Mg2+-ATPase had an apparent half-saturation constant of approximately 75 nM for Ca2+. After incubation of rat hepatocytes with 25 nM vasopressin for 3 min, the activity of Ca2+-Mg2+-ATPase was decreased 15-30%. The effect of vasopressin on the activity of this enzyme was near maximal after incubating hepatocytes with vasopressin for only 15 sec. The concentration of vasopressin needed for half-maximal inhibition of this enzyme in hepatocytes was approximately 6 nM. Treatment of the hepatocytes with 10 microM phenylephrine caused about a 10% decrease in ATPase activity while 10 nM glucagon or 200 microU/ml insulin did not affect the enzyme. These findings suggest that inhibition of the Ca2+-Mg2+-ATPase activity may be part of the mechanism by which vasopressin and alpha-adrenergic agonists elevate cytosolic Ca2+ in hepatocytes.
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PMID:Regulation of Ca2+-Mg2+-ATPase activity in hepatocyte plasma membranes by vasopressin and phenylephrine. 613 76

Plasma membranes of vertebrate lens fiber cells contain large numbers of gap junctions that may provide pathways for metabolic cooperation. Characterization of fiber cell gap junctions is thus necessary to understand this function. In this study, plasma membrane fractions were isolated from bovine lens according to established techniques, but without urea, detergents, or proteolytic enzymes. Electron microscopy indicated that isolated plasma membranes with gap junctions form double-membrane vesicles, and gap junctions comprised approximately 35% of the total membrane area in the crude fraction. These vesicles were impermeable to cationized ferritin, suggesting that they were sealed, and may be useful for permeability studies. Treatment of the crude fraction with 2.5% beta-mercaptoethanol or dithiothreitol caused reversible separation of junctional membranes, suggesting that disulfide bonds may be important in maintaining gap junction structure. Fractions with varying proportions of gap junctions were isolated using linear sucrose density gradient centrifugation. The proportional area of gap junction membrane versus total membrane in the various fractions ranged from 10% to at least 51%. The following plasma membrane enzymes were assayed in all fractions: Mg++-ATPase, Ca++-ATPase, alkaline phosphatase, phosphodiesterase, 5'-nucleotidase, and Na+, K+-ATPase. There was no correlation between enzyme activity and gap junction enrichment. This suggests that these enzymes are not associated with fiber cell gap junctions.
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PMID:Biochemical and structural characterization of membrane fractions from bovine lens. 613 51

A light vesicle fraction, apparently derived from the plasma membrane, was obtained following breakage of Chinese hamster ovary (CHO) cells by means of a fluid pump disrupting device. The final preparation was enriched approx. 40-fold over the homogenate in K+,Na+-stimulated ATPase and phosphodiesterase I, but only approx. 10-fold in 125I specific radioactivity after lactoperoxidase-catalyzed iodination. This preparation was compared with another plasma membrane fraction purified as large sheets via a two-phase centrifugation procedure. Two-dimensional polyacrylamide gel electrophoresis followed by Coomassie blue staining indicated that both fractions were fairly similar in polypeptide composition, although a few consistent differences were evident. However, staining of glycoproteins by the periodic acid-Schiff technique or by overlaying with 125I-labeled concanavalin A showed that the vesicle fraction was highly enriched in groups of high molecular weight, acidic glycoproteins which stain only weakly with Coomassie blue. These glycoproteins also bound 125I-labeled ricin I agglutinin and wheat germ agglutinin. They appear to be the major receptors for wheat germ agglutinin on the CHO cell surface. After surface labeling of cells by the 125I-lactoperoxidase technique, the membrane sheet fraction contained a large number of iodinated polypeptides, whereas labeling in the vesicle fraction was restricted almost entirely to the high molecular weight, acidic glycoproteins. It is proposed that the vesicle fraction constitutes a specific domain of the cell surface which is coated on its exterior by this group of glycoproteins. These components probably mask underlying proteins of the plasma membrane from external labeling.
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PMID:Isolation of a domain of the plasma membrane in Chinese hamster ovary cells which contains iodinatable, acidic glycoproteins of high molecular weight. 615

The hypothesis that dioctyl sodium sulfosuccinate (DSS) induces intestinal fluid accumulation by inhibiting Na,K-ATPase activity and/or by increasing mucosal prostaglandin E2 (PGE2) content was tested in rats. Eighteen hours after its intragastric administration, DSS (260 mg/kg body weight) significantly decreased jejunal and colonic Na,K-ATPase activity--22.0 1.8 (SE) and 25.1 +/- 3.3 compared with 42.1 +/- 1.6 and 37.0 +/- 2.9 mumol . mg protein-1 . h-1, respectively, in saline-treated rats. DSS increased jejunal and colonic PGE2 content--155 +/- 15 (SE) and 273 +/- 40, compared with 109 +/- 9 and 175 +/- 23, pg/mg wet weight, respectively, in control rats. Although jejunal adenylate cyclase and phosphodiesterase activities were not affected by DSS (520 mg/kg body weight), they were significantly stimulated in the colon. Mucosal cyclic AMP content was similar in rats treated with DSS and saline. Patchy histological changes confined to surface absorptive cells were induced by DSS in both the jejunum and the colon. These findings suggest that inhibition of intestinal Na,K-ATPase activity and increase in mucosal PGE2 content might contribute to the net water accumulation induced in the rat intestine by DSS.
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PMID:Effect of dioctyl sodium sulfosuccinate on cyclic AMP and prostaglandin E2 contents, and Na,K-ATPase, adenylate cyclase and phosphodiesterase activities in rat intestine. 616 3

Using slices of mouse or rat cerebral cortex incubated with [3H]adenosine or [3H]adenine and/or [14C]GABA we have examined factors affecting the release of these compounds, and especially the influence of methylxanthines. Although release of purines and GABA could be induced by ouabain (10(-4) M), or p-hydroxymercuribenzoate (5 x 10(-4) M) no release was produced by ethacrynic acid (10(-3) or 10(-4) M) phenytoin (10(-3) M), noradrenaline or SC 13504. Release is probably not therefore related to (Na+, K+) ATPase or Mg2+-ATPase inhibition. At concentrations of 10(-3) and 10(-4) M, caffeine, theophylline, aminophylline and isobutyl-methylxanthine (IBMX) markedly depressed the release of purines evoked by ouabain. Non-xanthine inhibition of phosphodiesterase had much weaker though statistically significant effects. The methylxanthines had no significant effect on GABA release. It is suggested that the results can be explained on the basis of a positive feedback system in which released adenosine activates membranal adenylate cyclase, and the increased concentration of cyclic AMP which results form or origin of much of the adenosine released subsequently. However, we cannot exclude the existence of an intracellular receptor for methylxanthines which causes directly the inhibition of purine release.
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PMID:Methylxanthines modulate adenosine release from slices of cerebral cortex. 616 26

Activities of marker enzymes for various cell components were studied with extracts of adriamycin-, aclacinomycin A- and bleomycin-resistant cells and with partially purified plasma membrane fraction of aclacinomycin A-resistant cells, in comparison with those of the parental cells. Alkaline phosphodiesterase and Na+-K+-ATPase activities were observed to alter in the drug-resistant sublines, but other enzymes showed similar activities in the resistant cells to those in the parental cells. Alkaline phosphodiesterase activities in all the resistant sublines were higher than that in the parental cells. Na+K+-ATPase activities of anthracycline-resistant sublines were lower and that in bleomycin-resistant cell line was higher than that of the parental cells. The adriamycin-resistant cells exhibited the same level of alkaline phosphodiesterase activity with the aclacinomycin A-resistant cells: Vmax was the same with, and the affinity was twice stronger than the parental cells. The bleomycin-resistant cells showed ca. 30% Vmax in comparison with the sensitive cells, and 17 fold higher affinity than the parental cells. The current results, concerning changes of membrane-associated enzymes in drug-resistant sublines of L5178Y cells, support the assumption that the resistance is due to alteration of plasma membrane transport systems.
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PMID:Alteration of membrane-associated enzymes in drug-resistant sublines of mouse lymphoblastoma L5178Y cells. 617 69


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