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:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous evidences reported by us and by other authors revealed the presence of IgG in sera of Schistosoma mansoni-infected patients to immunodominant antigens which are enzymes. Besides their immunological interest as possible inductors of protection, several of these enzyme antigens might be also interesting markers of infection in antibody-detecting immunocapture assays which use the intrinsic catalytic property of these antigens. It was thus thought important to define some enzymatic and immunological characteristics of these molecules to better exploit their use as antigens. Four different enzymes from adult worms were partially characterized in their biochemical properties and susceptibility to react with antibodies of infected patients, namely alkaline phosphatase (AKP, Mg2+, pH 9.5), type I phosphodiesterase (PDE, pH 9.5), cysteine proteinase (CP, dithiothreitol, pH 5.5) and N-acetyl-beta-D-glucosaminidase (NAG, pH 5.5). The AKP and PDE are distinct tegumental membrane-bound enzymes whereas CP and NAG are soluble acid enzymes. Antibodies in infected human sera differed in their capacity to react with and to inhibit these enzyme antigens. Possibly, the specificity of the antibodies related to the extent of homology between the parasite and the host enzyme might be in part responsible for the above differences. The results are also discussed in view of the possible functional importance of these enzymes.
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PMID:Parasite enzymes as a tool to investigate immune responses. 134 26

By inserting appropriate peptide ligands into surface loops on globular proteins, we expect to develop probes for the location, accessibility, and steric and electrostatic environment of these ligand-binding sites on their membrane-bound receptors. Three residues in a loop on the surface of E. coli alkaline phosphatase were substituted by an 18-residue peptide containing the receptor-binding segment of somatostatin-14 without significantly affecting the catalytic properties of the enzyme. This hybrid protein was then used to investigate the ligand-binding site of somatostatin receptors. Tryptic cleavage of the hybrid protein within the inserted sequence, and binding of the hybrid protein to antisomatostatin antibodies demonstrated the surface accessibility of the guest peptide. Both the wild-type enzyme and the hormone-enzyme hybrid displaced 125I-labeled somatostatin from rat brain membrane receptors only at high concentrations. However, chemical cationization of the hybrid protein, which again did not disturb the phosphatase activity, enhanced its receptor-binding potency to a level only 23 times lower than that of somatostatin itself and 280 times higher than that of the cationized wild-type protein. This alkaline phosphatase/somatostatin hybrid protein appears, therefore, to be a suitable starting point for the development of probes for the steric and electrostatic environment of the ligand-binding site of somatostatin receptors.
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PMID:Alkaline phosphatase-somatostatin hybrid proteins as probes for somatostatin-14 receptors. 135 57

The purification of detergent-solubilized membrane-bound phosphatases from Zymomonas mobilis using novel adsorbents is described. The prepared adsorbents have a hydrophobic core with functional groups attached. These functional groups may either increase or decrease the hydrophobicity of the adsorbent, or participate in other forms of interactions. Adsorption of acid phosphatase (ACP), alkaline phosphatase (ALP) and ATPase to these adsorbents was salt-promoted. Desorption was achieved by decreasing the salt concentration or by displacement with increasing concentration of Triton X-100. The results indicate that chromatography on multifunctional adsorbents that are predominantly hydrophobic in character is a procedure that can have a general applicability in purification of membrane proteins.
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PMID:The use of multifunctional adsorbents to purify membrane-bound phosphatases from Zymomonas mobilis. Purification of acid phosphatase, alkaline phosphatase and ATPase. 136 73

The antiprotozoal drug metronidazole, when administered orally at a dose level of 100 mg/kg body wt. daily for 7 days to rats, brought about significant elevation of renal brush-border-membrane-bound hydrolytic enzymes, such as alkaline phosphatase, maltase, sucrase, and leucine aminopeptidase (LAP). Kinetic analysis of the enzymes (substrate saturation) indicated that the drug produced an increase in the maximum of apparent initial enzyme velocity (Vmax), while the substrate affinity constant (Km) remained unaltered. These changes were not recovered to the normal level even after the drug regimen was stopped and the animals were allowed to recover for a period of 7 days. Lipid analysis of brush border membrane (BBM) revealed a significant elevation in the cholesterol, phospholipid, and ganglioside levels, while no marked change was recorded in triglyceride, free fatty acid and plasmalogen. Study of the temperature-dependent parameters of the enzymes showed that metronidazole induced a shift in the transition temperature (To) in LAP with nearly total reversibility in the recovery group. No such change was seen in the other enzymes. However, there also was a lowering in the energy of activation (Ea) below To, which returned to normal after the treatment was withdrawn.
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PMID:Changes in membrane-bound hydrolases by metronidazole in rat renal brush border. 141 Aug 3

EDTA treatment of intestinal brush border membranes (BBM) and epithelial cell supernatant completely inhibited alkaline phosphatase (AP) activity in suckling rat intestine. AP activity was fully regained upon dialysis of the preparations against Zn2+ and to a lesser extent against Co2+, Ca2+ and Mn2+ ions. Other metal ions (Cd2+ and Mg2+) tested were essentially ineffective in restoring the enzyme activity. Considerable differences were observed in kinetic characteristics of the membrane-bound and soluble AP activities in response to various metal ions. There were apparent differences in Km, Vmax, energy of activation (Ea) and thermal stability of the soluble and membrane-bound AP activities, after metal ion substitutions. Nearly 35% AP activity was solubilized on sodium dodecyl sulphate treatment of brush borders (membrane protein: detergent ratio 1:3; w/w). Dialysis of detergent solubilized BBM against different metal ions reconstituted AP activity in the particulate fraction: the order of effectiveness was Zn greater than Ca greater than Mn greater than Co. The kinetic properties of the reconstituted AP were essentially similar to the non-integrated enzyme activity in response to various divalent metal ions examined. But there were apparent differences in Km, Vmax, Ea and thermal stability of the reconstituted AP activity compared to native brush border enzyme. The results suggest the unique requirement of Zn ions for stability and catalytic activity of the soluble and membrane-bound AP activity in suckling rat intestine.
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PMID:Effect of divalent metal ions on soluble and membrane-bound alkaline phosphatase activity in suckling rat intestine. 145 47

Metronidazole (Flagyl), an antibiotic commonly used in treating intestinal infections, when administered orally at a dose level of 100 mg/kg body weight daily for 7 days to rats brought about a significant elevation of the uptake of end-product nutrients like D-glucose, L-alanine, L-aspartic acid and L-leucine in the intestinal segments. Brush border membrane-bound hydrolytic enzymes, i.e. sucrase, lactase, maltase, alkaline phosphatase and leucine aminopeptidase levels, were also elevated. Substrate kinetic analysis of the uptake of nutrients as well as the enzymes indicated that the drug increased the maximum of apparent initial velocity, while the substrate affinity constants did not change. Studies of the temperature-dependent parameters of the nutrient uptake and the enzyme activity revealed that metronidazole did not induce any shift in the transition temperature (T(o)) for the uptake but the energy of activation (Ea) was reduced in all the cases except those of maltase and leucine aminopeptidase, which registered an increase in Ea and a marginal shift in T(o), respectively. A significant elevation was seen in the levels of membrane cholesterol, phospholipid, ganglioside and plasmalogen in metronidazole-treated animals, while triglycerides and the non-esterified fatty acids remained unaffected. The effects produced by metronidazole treatment persisted in the animals, which were allowed a recovery period of 7 days after the drug regimen.
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PMID:Effect of the antiprotozoal agent metronidazole (Flagyl) on absorptive and digestive functions of the rat intestine. 147 60

Alkaline phosphatase is anchored to the membrane via glycosylphosphatidylinositol (GPI). Mannose residues of the GPI glycan are suggested to be derived from dolichol-P-mannose. In the present study we examined the effect of 2-fluoro-2-deoxy-D-glucose (F-Glc), an inhibitor of dolichol-P-mannose synthesis, on the biosynthesis and processing of alkaline phosphatase in JEG-3 cells. In control cells, a proform precursor (64.5 kDa) with a hydrophobic peptide domain at the COOH terminus was immediately processed into an intermediate form (63 kDa) by proteolytic removal of the COOH-terminal extension and replacement with the GPI anchor, and then to a mature form (66 kDa) by terminal glycosylation of its N-linked oligosaccharides. In contrast, when cells were treated with F-Glc (1 mM), the protein was synthesized as a proform of 61 kDa. The reduction in its molecular mass was mostly due to the inhibition in maturation of N-linked oligosaccharides by F-Glc. The 61-kDa proform identified by antibodies to the COOH-terminal peptide was detectable even at 3 h after the synthesis, and was gradually processed to doublet forms of 58-59 kDa which were finally secreted into the medium. None of these forms were labeled with [3H]ethanolamine and [3H]stearic acid, components of the GPI anchor, and expressed on the cell surface as a membrane-bound form. Taken together, these results suggest that the inhibition of the GPI synthesis causes a prolonged accumulation of the proform, which is then gradually processed into secretory forms by proteolytic removal of the COOH-terminal hydrophobic peptide.
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PMID:Aberrant processing of alkaline phosphatase precursor caused by blocking the synthesis of glycosylphosphatidylinositol. 153 Sep 33

Studies on the toxic effects of dehydro-L-ascorbic acid (DHAA) have been extended to include evaluations over time periods up to 3 hr. and to test for specific effects on a membrane transport protein, a membrane-bound enzyme and a soluble intracellular enzyme. In studies on cultured corneal endothelial cells, DHAA concentrations of 1, 2, and 5 mM over 3 hr. had an inhibitory effect on subsequent uptake of DHAA present at a tracer level. Surviving fragments of human placenta and alkaline phosphatase activity of the placental brush-border membrane were susceptible to the effect of DHAA at a high concentration (10 mM). Because intracellular metabolism of DHAA was not affected, and an increase in membrane permeability was not detected, it is concluded that a specific membrane transport protein might be the site of DHAA-induced damage. These studies support the concept that the oxidized form of ascorbic acid (vitamin C) has potential toxic effects on biological systems and suggests that proteins that mediate transport and metabolism may be sites where DHAA causes damage.
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PMID:Short term effects of oxidized ascorbic acid on bovine corneal endothelium and human placenta. 157 46

A putative reservoir of functional plasma membrane proteins, the secretory vesicle identified by latent alkaline phosphatase and tetranectin, has previously been demonstrated based on indirect evidence (Borregaard, N., Miller, L. J., and Springer, T. A. (1987) Science 237, 1204-1206; Borregaard, N., Christensen, L., Bjerrum, O. W., Birgens, H. S., and Clemmesen, I. (1990) J. Clin. Invest. 85, 408-416). Difficulties in separating plasma membranes from this entity by density gradient centrifugation has prohibited discriminative dynamic and quantitative studies of secretory vesicles and plasma membranes. By combining density centrifugation with free flow electrophoresis we overcame this obstacle. Freshly prepared unperturbed human neutrophils were subjected to nitrogen cavitation followed by density centrifugation on Percoll gradients. Light membrane fractions containing plasma membranes and secretory vesicles were applied to high voltage free flow electrophoresis on an Elphor VaP 22. Plasma membrane vesicles, identified by HLA class I antigen mixed enzyme-linked immunosorbent assay (Bjerrum, O. W., and Borregaard, N. (1990) Scand. J. Immunol. 31, 305-313) and 125I applied to cells before cavitation, were clearly separated from secretory vesicles. Electron microscopy revealed a morphology typical of plasma membranes in the former fraction and a population of vesicles with markedly different appearance in the latter. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis profiles demonstrated distinct differences in protein patterns between the two fractions. Superoxide generating capacity induced by sodium dodecyl sulfate and cytosol, an entity traditionally ascribed to the plasma membrane, was largely confined to fractions containing secretory vesicles. Thus, the majority of membrane-bound NADPH oxidase components of light membranes of human neutrophils colocalize with secretory vesicles.
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PMID:Separation of human neutrophil plasma membrane from intracellular vesicles containing alkaline phosphatase and NADPH oxidase activity by free flow electrophoresis. 163 31

Cytochrome c2 is a periplasmic redox protein involved in both the aerobic and photosynthetic electron transport chains of Rhodobacter sphaeroides. The process of cytochrome c2 maturation has been analyzed in order to understand the protein sequences involved in attachment of the essential heme moiety to the cytochrome c2 polypeptide and localization of the protein to the periplasm. To accomplish this, five different translational fusions which differ only in the cytochrome c2 fusion junction were constructed between cytochrome c2 and the Escherichia coli periplasmic alkaline phosphatase. All five of the fusion proteins are exported to the periplasmic space. The four fusion proteins that contain the NH2-terminal site of covalent heme attachment to cytochrome c2 are substrates for heme binding, suggesting that the COOH-terminal region of the protein is not required for heme attachment. Three of these hybrids possess heme peroxidase activity, which indicates that they are functional as electron carriers. Biological activity is possessed by one hybrid protein constructed five amino acids before the cytochrome c2 COOH terminus, since synthesis of this protein restores photosynthetic growth to a photosynthetically incompetent cytochrome c2-deficient derivative of R. sphaeroides. Biochemical analysis of these hybrids has confirmed CycA polypeptide sequences sufficient for export of the protein (A. R. Varga and S. Kaplan, J. Bacteriol. 171:5830-5839, 1989), and it has allowed us to identify regions of the protein sufficient for covalent heme attachment, heme peroxidase activity, docking to membrane-bound redox partners, or the capability to function as an electron carrier.
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PMID:Regions of Rhodobacter sphaeroides cytochrome c2 required for export, heme attachment, and function. 164 73


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