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)

A differentiation inducer (sodium butyrate) encapsulated in liposomes that are in turn covalently linked to anti-Lex monoclonal antibody, SH1 (IgG3 isotype), was successfully targeted to human colonic adenocarcinoma HRT-18 and HT29 cells expressing Lex antigen in vitro as well as in vivo in athymic nu/nu mice. Tumor cell growth was significantly inhibited and was associated with changes in cell morphology and increases in membrane-bound alkaline phosphatase and gamma-glutamyltranspeptidase, indicating the occurrence of butyrate-induced differentiation.
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PMID:Antibody-mediated targeting of differentiation inducers to tumor cells: inhibition of colonic cancer cell growth in vitro and in vivo. A preliminary note. 291 49

Hyphal cells of Neurospora crassa and Aspergillus nidulans, grown in Sabouraud glucose broth or in a defined medium with xanthine or its catabolites as the nitrogen source, contained single membrane-bound organelles cytochemically identified as microbodies. Modified Gomori procedures at the ultrastructural level revealed putative alkaline phosphatase activity sites in thin sections of cells of both species of fungi. Microbody membranes displayed electron opaque deposits (lead phosphate) which were absent in control preparations either lacking the substrate (beta-glycerophosphate) or the lead capture ion. Inhibition of this enzymic activity was achieved in parallel incubations fortified with the inhibitor levamisole. Cells grown in media containing limiting levels of inorganic phosphate revealed additional alkaline phosphatase activity at and along the nuclear membrane and endoplasmic cisternae. Hexagonal inclusions found in the cytoplasm of N. crassa (but not A. nidulans) and believed to arise from microbody precursors were without demonstrable cytochemical staining for microbody marker oxidases.
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PMID:Localization of alkaline phosphatase activity at microbody membranes of Neurospora crassa and Aspergillus nidulans. 294 78

The specificity of cytosolic protein phosphotyrosine (PPT) phosphatases was investigated using different peptides and proteins that were phosphorylated on tyrosine residues by the EGF receptor kinase. The acidic phosphoproteins, serum albumin, casein, and myosin light chains, were dephosphorylated by the PPT phosphatases with apparent Km values of 1.2 to 12.5 microM and apparent velocities of 0.2 to 18 mumol/min/mg. In contrast, [Tyr(32P)]histone and the phosphotyrosine peptides [Val5]angiotensin and RR-src, a peptide with sequence Arg-Arg-Leu-Ile-Glu-Asp-Ala-Glu-Tyr-Ala-Ala-Arg-Gly, were unreactive with the PPT phosphatases. However, each of these unreactive phosphopolypeptides was dephosphorylated under the same conditions by calf-intestine alkaline phosphatase. The data reveal how PPT phosphatase activity has been ascribed to different cellular enzymes. When acidic phosphotyrosine proteins were used as substrates in assays for PPT phosphatase activity the cytosolic enzymes were isolated, whereas when phosphotyrosine histones were used as substrates only the membrane-bound alkaline phosphatase was detected. Apparently the protein tyrosine kinase and the protein tyrosine phosphatases do not have the same specificity, so substrates such as histone, angiotensin, or RR-src are phosphorylated but not hydrolyzed. Therefore, these polypeptides would be ideal for the characterization of protein tyrosine kinases in cellular extracts.
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PMID:Specificity of protein phosphotyrosine phosphatases. Comparison with mammalian alkaline phosphatase using polypeptide substrates. 298 3

In vitro studies indicate that low concentrations of ethanol can have direct effects on bone formation and resorption. Bone resorption was increased when embryonic chick tibiae were exposed to ethanol at 0.03-0.3% (v/v), and bone formation was inhibited when tibiae were exposed to 0.2% ethanol in the presence of NaF or parathyroid hormone (P less than 0.01 for each). Ethanol also had direct effects on isolated bone cells in vitro, increasing both cAMP and PGE2 production (P less than 0.001 for each), and affecting cell proliferation in a biphasic, time- and dose-dependent manner. After 24 h of exposure, 0.03% ethanol increased bone cell proliferation (P less than 0.001), but 0.3% ethanol was inhibitory (P less than 0.01). Paradoxically, mitogenic doses of ethanol prevented the effects of two other mitogens, NaF and human skeletal growth factor, to increase bone cell proliferation (P less than 0.001). But how were these effects produced? Several observations suggest that these direct effects of ethanol on skeletal tissues in vitro were mediated by changes in bone cell membrane fluidity. (a) Dimethyl sulfoxide, ethylene glycol, and lecithin, which act, like ethanol, to increase membrane fluidity, mimicked the effects of ethanol on bone cell proliferation. Dimethyl sulfoxide also mimicked the effect of ethanol to increase cAMP (P less than 0.001). (b) Cholesterol, which decreases cell membrane fluidity, acted oppositely to ethanol and enhanced the mitogenic response to human skeletal growth factor (P less than 0.001). (c) Preincubation of calvarial cells with ethanol or with cholesterol altered the in situ reaction kinetics of the membrane-bound enzyme, alkaline phosphatase. Together, these data demonstrate that ethanol has direct effects on skeletal tissue in vitro, and suggest that those effects may be secondary to changes in bone cell membrane fluidity.
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PMID:Direct effects of ethanol on bone resorption and formation in vitro. 298 96

An alkaline 5'-nucleotidase with properties similar to those of membrane-bound 5'-nucleotidase was recovered in soluble form in the postmicrosomal supernatant fraction (cytosol) of rat liver. The enzyme seems to constitute a quantitatively distinct fraction, since the activity in postmicrosomal supernatants was increased by a further 10% by additional homogenization of livers. Lysosomal acid phosphatase activity increased similarly, whereas other membrane-bound marker enzymes alkaline phosphatase, phosphodiesterase I and glucose-6-phosphatase showed no increase when homogenization of liver tissue was continued. Gel-permeation chromatography and pH-dependence studies indicated that enzyme activity in the supernatant fraction with 0.3 mM-UMP or -AMP as substrate at pH 8.1 was about 85 or 100% specific respectively. In regenerating liver the enzyme recovered in soluble form showed decreased specific activity, in contrast with alkaline phosphatase measured for comparison. The nucleotidase activity per mg of cytosolic protein was 2.1 nmol/min with AMP as substrate. The total activity measured in the postmicrosomal supernatant was 1.5% of the homogenate activity measured in the presence of detergent.
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PMID:The presence and activity in normal and regenerating rat liver postmicrosomal supernatant fraction of an enzyme with properties similar to those of membrane-bound 5'-nucleotidase. 302 68

A simple method is described for achieving a good recovery and a partial purification of the membrane-bound 5'-nucleotidase (5'-N) from mouse lymphocytes. The experimental procedure is based upon plasma membrane isolation on polycationic beads and selective solubilization of the enzyme activity from bead-bound plasma membranes. With this method, more than 95% of the 5'-N activity detectable in the whole cell homogenates can be routinely recovered in a single fraction showing a 5'-N specific activity which is at least 60 times higher than that found in the crude homogenate. This method also provides a complete separation of 5'-N from the membrane-bound alkaline phosphatase (AP), as well as from any other interfering non-specific phosphatase. Since this method is rapid and highly reproducible even when small amounts of lymphocytes are available, it may be useful for detecting changes in 5'-N activity in the different T- and B-lymphocyte subpopulations.
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PMID:Mouse lymphocyte enzymatic markers. A rapid method for achieving selective solubilization and efficient recovery of the membrane-bound 5'-nucleotidase. 303 49

Polyacrylamide gel electrophoresis of alkaline phosphatase may yield abnormally migrating fractions; these include high-molecular-mass alkaline phosphatase, which remains at the gel origin, and immunoglobulin-alkaline phosphatase complexes, which have a mobility approximately 1/3 that of liver isoenzyme. We performed a retrospective study of 19 patients whose sera exhibited atypical alkaline phosphatase fractions, defined as bands whose mobility was slower than bone, liver, or intestinal alkaline phosphatase; 17 had a mobility approximately 1/3 that of liver isoenzyme and 16 also exhibited gel origin enzyme activity or high-molecular-mass bands. The strong association of the atypical and high-molecular-mass alkaline phosphatases suggests that they may be structurally related, both consisting of either immunoglobulin-enzyme complexes or membrane-alkaline phosphatase complexes. This hypothesis is supported by (1) one serum available for investigation containing alkaline phosphatase-immunoglobulin complexes in both abnormally migrating fractions, but on detergent treatment showing no evidence of membrane-bound enzyme; (2) detergent treatment of serum from patients with only high-molecular-mass alkaline phosphatase creating bands with a mobility of approximately 1/3 that of the liver isoenzyme.
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PMID:Association of high-molecular-mass and electrophoretically atypical alkaline phosphatases. 312 Dec 11

This study examines the use of alkaline phosphatase (AP) as a reporter enzyme. We constructed a plasmid containing the cDNA which encodes the bone/liver/kidney rat AP under the control of the simian virus 40 (SV40) early promoter and used it to transfect Chinese hamster ovary, SV40-transformed African Green Monkey kidney 7, and rat osteosarcoma 25/1 mammalian cells. AP activity in these cells, measured three days later, was 40-400-fold above background. When AP and chloramphenicol acetyltransferase (CAT) plasmids were cotransfected, the detection of AP activity by a simple spectrophotometric assay was at least as sensitive as the detection of CAT activity using a radioactive substrate. Moreover, since mammalian AP is a membrane-bound ectoenzyme, transfected cells can be visualized by histochemical staining. This approach was used to estimate transfection efficiency. The convenient methods for AP detection should make it a useful reporter enzyme.
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PMID:Alkaline phosphatase as a reporter enzyme. 316 44

A fusion between tsr (encoding the inner membrane protein Tsr) and phoA (encoding the periplasmic protein alkaline phosphatase, AP) generates a membrane-bound hybrid protein (Tsr-AP 2) with AP enzymatic activity. The hybrid protein is proteolytically unstable and is broken down to yield a smaller, soluble species with AP activity. We devised a genetic screen to distinguish between cells containing only membrane-bound AP and those containing soluble AP. The screen depends on diffusion of soluble AP away from cells with a leaky outer membrane to produce a halo of AP activity around colonies on solid growth medium. Several mutants lacking this halo show reduced degradation of Tsr-AP 2. One mutant is also defective in breakdown of five other abnormal periplasmic proteins but not of two cytoplasmic proteins. The mutation in this strain, degP4::Tn5, defines a locus distinct from previously identified loci that affect protein stability or protease activities. This strain may be useful for preventing the breakdown of unstable foreign proteins in Escherichia coli.
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PMID:An Escherichia coli mutation preventing degradation of abnormal periplasmic proteins. 327 19

BC3H1 myocytes release membrane-bound alkaline phosphatase to the incubation medium upon stimulation with insulin, following a time course that is consistent with the generation of dimyristoylglycerol and the appearance of a putative insulin mediator in the extracellular medium. The use of specific blocking agents shows, however, that alkaline phosphatase release and dimyristoylglycerol production are independent processes and that the blockade of either event inhibits the production of insulin mediator. These experiments suggest a new model of insulin action.
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PMID:Phosphatidylinositol-glycan anchors of membrane proteins: potential precursors of insulin mediators. 328 5


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