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)

Cimetidine has been demonstrated to impair microsomal oxidative drug metabolizing and other enzyme systems in mouse liver. The inhibition is rapid, occurring after a single administration and also found to be dose-dependent. It is more significant after daily administration for 15 days. Enzyme inhibition by ranitidine, another H2-receptor antagonist was comparatively less at all the concentrations of the drug tested. An increased activity of alkaline phosphatase, glutamate-pyruvate and glutamate-oxaloacetate transaminase was observed in liver with cimetidine administration, whereas that of lactate and succinate dehydrogenase was inhibited only after administration of 2000 mg cimetidine per kg body weight. Except alkaline phosphatase other enzymes were unaffected after ranitidine administration. Analysis of lipid classes in liver showed that phospholipid, triglycerides and free fatty acid contents were significantly decreased in drug administration while cholesterol level showed very little or no change. Microsomal and soluble protein contents were significantly increased which probably indicate that the inhibition in the enzyme activity by histamine H2-receptor antagonists may be a lipid mediated process and not resulted from the reduced availability of the enzyme protein.
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PMID:Interaction of H2-receptor antagonists, cimetidine and ranitidine with microsomal drug metabolizing and other systems in liver. 179 70

An alkaline phosphatase was isolated from rabbit seminal plasma by ion-exchange chromatography, gel-filtration and preparative isoelectric focusing. Enzyme inhibition with Na2-EDTA was mostly effectively reverted by means of Mg2+, Zn2+ and Ca2+ in the incubation medium. The use of a monospecific antiserum against the seminal plasma alkaline phosphates permitted to identify through immunofluoresceine the ductus epididymis, deferens and its ampullae as the main site of synthesis of this protein.
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PMID:Genital tract proteins in the male rabbit: II. Alkaline phosphatase--enzyme action and site of synthesis. 636 85

Reversible inhibition, irreversible inhibition, and activation of calf intestinal alkaline phosphatase (EC 3.1.3.1) have been studied by capillary electrophoresis. The capillary electrophoretic enzyme-inhibitor assays were based on electrophoretic mixing of inhibitor and enzyme zones in a substrate-filled capillary. Enzyme inhibition was indicated by a decrease in product formation detected in the capillary by laser-induced fluorescence. Reversible enzyme inhibitors could be quantified by Michaelis-Menten treatment of the electrophoretic data. Reversible, competitive inhibition of alkaline phosphatase by sodium vanadate and sodium arsenate has been examined, and reversible, noncompetitive inhibition by theophylline has been studied. The K(i) values determined for these reversible inhibitors using capillary electrophoresis are within the range of values reported in the literature for the same enzyme-inhibitor combinations. Irreversible inhibition of alkaline phosphatase by EDTA at concentrations of 1.0mM and above has been observed. Activation of alkaline phosphatase has also been observed for EDTA at concentrations from 20 to 400 microM.
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PMID:Studies of reversible inhibition, irreversible inhibition, and activation of alkaline phosphatase by capillary electrophoresis. 1220 38

A technique for separating and detecting enzyme inhibitors was developed using CE with an enzyme microreactor. The on-column enzyme microreactor was constructed using NdFeB magnet(s) to immobilize alkaline phosphatase-coated superparamagnetic beads (2.8 microm diameter) inside a capillary before the detection window. Enzyme inhibition assays were performed by injecting a plug of inhibitor into a capillary filled with the substrate, AttoPhos. Product generated in the enzyme microreactor was detected by LIF. Inhibitor zones electrophoresed through the capillary, passed through the enzyme microreactor, and were observed as negative peaks due to decreased product formation. The goal of this study was to improve peak capacities for inhibitor separations relative to previous studies, which combined continuous engagement electrophoretically mediated microanalysis and transient engagement electrophoretically mediated microanalysis to study enzyme inhibition. The effects of electric field strength, bead injection time and inhibitor concentrations on peak capacity and peak width were investigated. Peak capacities were increased to >or=20 under optimal conditions of electric field strength and bead injection time for inhibition assays with arsenate and theophylline. Five reversible inhibitors of alkaline phosphatase (theophylline, vanadate, arsenate, L-tryptophan and tungstate) were separated and detected to demonstrate the ability of this technique to analyze complex inhibitor mixtures.
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PMID:Improved peak capacity for CE separations of enzyme inhibitors with activity-based detection using magnetic bead microreactors. 2002 13