EC:3.1.3.1 - FACTA Search

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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)

Alkaline phosphatase and 5'-nucleotidase are covalently linked to phosphatidylinositol in bovine fat globule membrane, as demonstrated by their release following treatment with phospholipase C specific for phosphatidylinositol. The failure of this treatment to liberate phosphodiesterase I may indicate that it has a variant linkage resistant to release. In a test of exposure at the membrane surface, alkaline phosphatase and phosphodiesterase I, but not 5'-nucleotidase, were released from fat globule membrane by treatment with proteinase K. These apparent differences in accessibilities of membrane surface proteins suggest that attachment to phosphatidylinositol does not necessarily impart greater exposure to proteins with which it is linked.
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PMID:Differential release of proteins from bovine fat globule membrane. 216 62

We explored the biochemical basis for the disorder pseudohypophosphatasia (PsHYPT) in one patient by examining the substrate specificity and localization of alkaline phosphatase (ALP) in cultured dermal fibroblasts. Despite substantial ALP activity, in cell homogenates, toward the artificial substrate 4-methyl-umbelliferyl phosphate (4-MUP), there was a marked deficiency in ALP activity toward the natural substrates pyridoxal 5'-phosphate (PLP) and phosphoethanolamine (PEA), indicating altered substrate specificity. Furthermore, although 4-MUP phosphatase (4-MUP-P'tase) activity was predominantly localized as an ecto-enzyme, the small amount of PLP phosphatase (PLP-P'tase) activity was intracellular. This differential localization was apparent in intact cells, since (1) brief acidification of the medium at 4 degrees C inactivated a majority of the 4-MUP-P'tase activity but only 15% of the PLP-P'tase activity (in contrast to greater than 85% inactivation of both in homogenates), (2) greater than 70% of the 4-MUP-P'tase activity but only 30% of the PLP-P'tase activity was released by phosphatidylinositol-specific phospholipase C (PI-PLC) digestion, and (3) degradation of extracellular PLP was less than 35% of that of disrupted cells. Both 4-MUP- and PLP-P'tase activities were predominantly in a lipid-anchored form that could be converted to a soluble, lipid-free form by PI-PLC digestion. Our findings suggest that the clinical and biochemical presentation of this PSHPT patient results from the production of two aberrant ALP species. One form of ALP has appropriate ectoorientation but is preferentially deficient in activity toward natural substrates; the other ALP species has appropriate substrate specificity but is sequestered from substrates by its intracellular location.
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PMID:Pseudohypophosphatasia: aberrant localization and substrate specificity of alkaline phosphatase in cultured skin fibroblasts. 217 30

1. Liver plasma membranes originating from the sinusoidal, lateral and canalicular surface domains of hepatocytes were covalently labelled with sulpho-N-hydroxysuccinamide-biotin. After solubilization in Triton X-114, treatment with a phosphatidylinositol-specific phospholipase C (PI-PLC), two-phase partitioning and 125I-streptavidin labelling of the proteins resolved by PAGE, six major polypeptides (molecular masses 110, 85, 70, 55, 38 and 35 kDa) were shown to be anchored in bile canalicular membrane vesicles by a glycosyl-phosphatidylinositol (G-PI) 'tail'. 2. Permeabilized 'early' and 'late' endocytic vesicles isolated from liver were also examined. Two polypeptides (110 and 35 kDa) were shown to be anchored by a G-PI tail in 'late' endocytic vesicles. 3. Analysis of marker enzymes in bile-canalicular vesicles treated with PI-PLC showed that 5'-nucleotidase and alkaline phosphatase, but not leucine aminopeptidase and ecto-Ca2(+)-ATPase activities were released from the membrane. A low release and recovery of alkaline phosphodiesterase activity was noted. The cleavage from the membrane of 5'-nucleotidase as a 70 kDa polypeptide was confirmed by Western blotting using an antibody to this enzyme. 4. Antibodies raised to proteins released from bile-canalicular vesicles by PI-PLC treatment, and purified by partitioning in aqueous and Triton X-114 phases, localized to the bile canaliculi in thin liver sections. Antibodies to proteins not hydrolysed by this treatment stained by immunofluorescence the sinusoidal and canalicular surface regions of hepatocytes. 5. Antibodies generated to proteins cleaved by PI-PLC treatment of canalicular vesicles were shown to identify, by Western blotting, a major 110 kDa polypeptide in these vesicles. Two polypeptides (55 and 38 kDa) were detected in MDCK and HepG-2 cultured cells. 6. Since two of the six G-PI-anchored proteins targeted to the bile-canalicular plasma membrane were also detected in 'late' endocytic vesicles, the results suggest that a junction where exocytic and endocytic traffic routes meet occurs in a 'late' endocytic compartment.
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PMID:Priority targeting of glycosyl-phosphatidylinositol-anchored proteins to the bile-canalicular (apical) plasma membrane of hepatocytes. Involvement of 'late' endosomes. 217 97

The effect of guanosine 5'-[gamma-thio]triphosphate (GTP[S]) on PtdIns and PtdIns(4)P kinase activities was measured in rat liver plasma membranes. The addition of [32P]ATP resulted in the rapid incorporation of 32P into PtdIns(4)P and PtdIns(4,5)P2, with maximal levels reached within 30 s. GTP[S] (25-500 microM) increased the rate and magnitude of [32P]PtdIns(4)P and [32P]PtdIns(4,5)P2 formation by 50 and 120% respectively. Similar stimulatory effects were induced by guanosine 5'-[beta gamma-imido]triphosphate, GTP, GDP and guanosine 5'-[beta-thio]diphosphate. The stimulation of PtdIns phosphorylation by GTP[S] occurred in the presence of 2 mM-EGTA, a condition which fully inhibited phosphoinositide-specific phospholipase C. GTP[S] did not stimulate phosphomonoesterase activity, and its action was not due to the binding of magnesium. However, the overall ATP-hydrolysing activity of the membrane preparation was inhibited by GTP[S] and the other guanine nucleotides. There was a direct correlation between the extent of this inhibition and the stimulation of polyphosphoinositide formation. The results indicate that stimulation of polyphosphoinositide formation by guanine nucleotides in rat liver plasma membranes can be accounted for by an inhibition of ATP hydrolysis. These data are inconsistent with a specific GTP-binding protein (G-protein)-mediated stimulation of PtdIns or PtdIns(4)P kinase.
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PMID:Effect of guanine nucleotides on polyphosphoinositide synthesis in rat liver plasma membranes. 217 1

As assessed by incorporation into liposomes and by adsorption to octyl-Sepharose, the integrity of the membrane anchor for the purified tetrameric forms of alkaline phosphatase from human liver and placenta was intact. Any treatment that resulted in a dimeric enzyme precluded incorporation and adsorption. An intact anchor also allowed incorporation into red cell ghosts. The addition of hydrophobic proteins inhibited incorporation into liposomes to varying degrees. Alkaline phosphatase was 100% releasable from liposomes and red cell ghosts by a phospholipase C specific for phosphatidylinositol. There was no appreciable difference in the rates of release of placental and liver alkaline phosphatases, although both were approximately 250 x slower in liposomes and 100 x slower in red cell ghosts than the enzyme's release from a suspension of cultured osteosarcoma cells. Both enzymes were released by phosphatidylinositol phospholipase C as dimers and would not reincorporate or adsorb to octyl-Sepharose. However, the enzyme incorporated, resolubilized by Triton X-100, and cleansed of the detergent by butanol treatment was tetrameric by gradient gel electrophoresis, was hydrophobic, and could reincorporate into fresh liposomes. A monoclonal antibody to liver alkaline phosphatase inhibited the enzyme's incorporation into liposomes, and abolished its release from liposomes and its conversion to dimers by phosphatidylinositol phospholipase C.
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PMID:Incorporation of human liver and placental alkaline phosphatases into liposomes and membranes is via phosphatidylinositol. 217 99

Two alternative procedures are described for the quantitative determination of phosphatidylcholine in a flow-injection system utilizing immobilized enzymes. Phospholipase C from Bacillus cereus and phospholipase D from cabbage were covalently bound to the surface of controlled-pore glass beads and the enzyme-derivatized beads were packed in small columns. In the first procedure, the phospholipase C column was connected with a second column containing coimmobilized alkaline phosphatase and choline oxidase. In the alternative procedure, the column packed with immobilized phospholipase D was connected with a column packed with immobilized choline oxidase. The hydrogen peroxide produced through the action of choline oxidase in both flow-injection systems was detected amperometrically. Both procedures are suitable for an accurate and rapid quantitation of phosphatidylcholine. The sensitivity of the method based on phospholipase C and alkaline phosphatase is higher than that using phospholipase D. Quantitation of phosphatidylcholine at the nanomole level can be easily obtained using the first method.
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PMID:Determination of phosphatidylcholine in a flow injection system using immobilized enzyme reactors. 220 Mar 5

The activities of three isoforms of the endothelin (ET) family peptides, ET-1, ET-2 and ET-3, were studied in cultured osteoblastic cells from neonatal rat calvariae. All three isoforms induce stimulation of DNA synthesis and reductions in cellular alkaline phosphatase activity in a dose-dependent manner with the rank order of potency: ET-1 congruent to ET-2 greater than ET-3. The 125I-labeled ET binding and affinity-cross linking experiments show the presence of a single class of the ET binding sites with a more than 10-fold higher affinity for ET-1 and ET-2 as compared to ET-3. The endothelins dose-dependently stimulate the production of inositol phosphates and induce mobilization of Ca2+ with the similar relative potency to that for the receptor binding. These results indicate that osteoblastic cells possess the endothelin receptor with a high affinity for ET-1 and ET-2 that is coupled to phospholipase C, and that the endothelins modulate cellular functions via this receptor.
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PMID:The effects of the endothelin family peptides on cultured osteoblastic cells from rat calvariae. 220 4

To clarify its physiologic role, alkaline phosphatase (ALP) was examined in normal skin fibroblasts and was shown to be the tissue-nonspecific (TNS) isoenzyme type (as evidenced by heat and inhibition profiles) and to be active toward millimolar concentrations of the putative natural substrates phosphoethanolamine (PEA) and pyridoxal-5'-phosphate (PLP). Fibroblast ALP has a low-affinity activity, with a distinctly alkaline pH optimum (9.3), toward 4-methylumbelliferyl phosphate (4-MUP), PEA, and PLP but a more physiologic pH optimum (8.3) toward physiologic concentrations (micromolar) of PEA and PLP. Normal fibroblast ALP is linked to the outside of the plasma membrane, since in intact cell monolayers (1) dephosphorylation rates of the membrane-impermeable substrates PEA and PLP in the medium at physiologic pH were similar to those observed with disrupted cell monolayers, (2) brief exposure to acidic medium resulted in greater than 90% inactivation of the total ALP activity, and (3) digestion with phosphatidylinositol-specific phospholipase C (PI-PLC) released about 80% of the ALP activity. Hypophosphatasia fibroblasts were markedly deficient (2%-5% control values) in alkaline and physiologic ALP activity when 4-MUP, PLP, and PEA were used as substrate. The majority of the detectable ALP activity, however, appeared to be properly lipid anchored in ecto-orientation. Thus, our findings of genetic deficiency of PEA- and PLP-phosphatase activity in hypophosphatasia fibroblasts, as well as our biochemical findings, indicate that TNS-ALP acts physiologically as a lipid-anchored PEA and PLP ectophosphatase.
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PMID:Alkaline phosphatase (tissue-nonspecific isoenzyme) is a phosphoethanolamine and pyridoxal-5'-phosphate ectophosphatase: normal and hypophosphatasia fibroblast study. 222 Aug 17

1. We determined the organ of origin and possible mechanism of translocation into the circulation of alkaline phosphatase (ALPase) in the diabetic rat. 2. Experimental diabetes was induced by injection of streptozotocin, resulting in a 8.2-fold elevation in serum ALPase activity. In this case, the major ALPase isozyme detected in serum was intestinal ALPase. 3. In in vitro experimental systems, ALPase was readily released from the duodenal plasma membrane by bacterial phosphatidylinositol-specific-phospholipase C (PI-PLase C) but little if any was released from the ileal membrane. 4. Serum and ileal ALPases were identical in terms of molecular size, whereas duodenal ALPase clearly differed from the serum enzyme. 5. Based on an investigation of the sugar moiety, more of the fraction having higher concanavalin A affinity was found in serum ALPase than with in the case of either of the intestinal ALPases. Serum and intestinal ALPases also differed slightly regarding isoelectric points. 6. Consequently, these data suggest that the serum ALPase of the diabetic rat is derived from ileal ALPase, and it is unlikely that the appearance of ALPase in the circulation is simply the result of solubilization by the action of PI-PLase C or phospholipase D.
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PMID:Translocation of intestinal alkaline phosphatase in streptozotocin-induced diabetic rats. 225 56

We have isolated a set of complementary DNA (cDNA) clones that together encode the alkaline phosphatase of human colon cancer LS174T cells. These clones include two cDNAs isolated from a conventionally prepared oligodeoxythymidylate-primed lambda ZAP cDNA library and three cDNA clones prepared by using the polymerase chain reaction. The deduced amino acid sequence of the alkaline phosphatase primary transcript contains 532 amino acids. This enzyme is similar to, but not identical with, placental alkaline phosphatase (PLAP); it exhibits 12-19 amino acid substitutions when compared to the various alleles of PLAP. Also, it is similar to PLAP in that it is apparently attached to the cell membrane by a phosphatidylinositol-containing anchor as judged by the ability of phosphatidylinositol-specific phospholipase C to release it from membranes. It is different from PLAP however, in terms of its signal sequence which only contains 19 amino acids as compared to 22 for PLAP. Moreover, the 3'-untranslated region of the LS174T cell alkaline phosphatase message diverges considerably from the PLAP message. The LS174T cell alkaline phosphatase cDNAs are actually much more similar to the "germ cell" alkaline phosphatase gene than they are to PLAP. Only 7 amino acid substitutions exist between the LS174T cell enzyme and the alkaline phosphatase encoded by the germ cell alkaline phosphatase genomic DNA clone isolated by Millan and Manes (Proc. Natl. Acad. Sci. USA, 85: 3024-3028, 1988). Furthermore, the 3'-untranslated region of the LS174T cell alkaline phosphatase message is very similar to the sequence immediately downstream of the coding region of the germ cell alkaline phosphatase genomic DNA clone. Thus, these results indicate that this colon cancer cell alkaline phosphatase is likely to represent an allelic variant encoded at the germ cell alkaline phosphatase locus.
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PMID:Molecular cloning of complementary DNAs encoding alkaline phosphatase in human colon cancer cells. 229 57

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