Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin 4 (IL-4) is a potent, pleiotropic lymphokine that affects a variety of cells, especially those of hematopoietic origin. Although murine and human IL-4 are homologous proteins, they display a species specificity in which murine IL-4 acts only upon mouse cells, and human IL-4 only upon human cells. We have used a mutagenesis strategy to define both the structural determinants of this specificity and a receptor binding domain of murine IL-4. To do this, we developed convenient solid-phase binding assays for mouse and for human IL-4, each utilizing receptor-immunoglobulin fusion proteins and alkaline phosphatase-tagged ligands. These were employed to assess the receptor binding activities of wild type and mutant forms of IL-4. In a separate biological assay, we measured the ability of each version of IL-4 to induce proliferation of a cultured mouse T-cell line. By replacing regions of mouse IL-4 with homologous segments of human IL-4, we found that the amino-terminal 16 residues and the carboxyl-terminal 20 residues of murine IL-4 are required for species-specific receptor binding as well as for T-cell proliferation. A major portion of the amino acid sequence between these regions can be substituted between mouse and human without loss of receptor binding or biological activity. Further, alanine-scanning mutagenesis revealed specific residues in the amino- and carboxyl-terminal regions (Glu-12, Ile-14, Leu-104, Asp-106, Phe-107, and Leu-111) that bear side chains critical for function. An analysis of the carboxyl-terminal region of murine IL-4 and its comparison with carboxyl-terminal regions of other related cytokines suggest an evolutionary conservation of structural and functional features.
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PMID:A receptor binding domain of mouse interleukin-4 defined by a solid-phase binding assay and in vitro mutagenesis. 160 64

N-(2-Hydroxypropyl)methacrylamide (HPMA) copolymers containing doxorubicin (DOX) and galactosamine can be targeted to the hepatocyte galactose receptor for organ-specific chemotherapy of primary and metastatic liver cancer. Here we report the dose-dependent pharmacokinetics of this macromolecular conjugate. Following intravenous administration to mice most efficient liver targeting was seen at low dose (0.05 mg DOX kg-1), with receptor saturation observed using higher bolus doses. Repeated low dose bolus injections did not cause down-regulation of the galactose receptor and targeted drug delivery rates of greater than or equal to 2 micrograms DOX g-1 liver h-1 were achieved. DOX is released from such conjugates intracellularly via action of lysosomal proteinases. It was shown that isolated rat liver lysosomal enzymes (Tritosomes) can release unmodified DOX from the peptidyl side chain Gly-Phe-Leu-Gly at a rate greater than or equal to 3 micrograms DOX g-1 liver h-1 i.e. the hydrolytic capacity is greater than the observed rate of drug delivery to the liver lysosomes in vivo. Although most conjugate would be captured by normal hepatocytes following intravenous administration, it was shown that the human hepatoma cell line HepG2 retains the galactose receptor, accumulating and processing the conjugate efficiently. Potential dose limiting toxicities of such drug conjugates could include cardio- or hepatotoxicity. Administration of conjugate reduced the 15 min heart level of DOX approximately 100-fold compared with that observed for an equivalent dose of free drug. Preliminary experiments showed that plasma levels of alkaline phosphatase, alanine transaminase and asparate transaminase did not change following administration of HPMA copolymer-daunorubicin (DNR) (10 mg DNR kg-1) indicating no significant heptatoxicity.
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PMID:N-(2-hydroxypropyl)methacrylamide copolymers targeted to the hepatocyte galactose-receptor: pharmacokinetics in DBA2 mice. 164 46

A prominent galactose-1-phosphatase was isolated from rat brain and partially purified by chromatography on diethylaminoethyl-Sephacel, hydroxylapatite, and Sephacryl S-300 columns. The galactose-1-phosphatase was separated from alkaline phosphatase, and from two forms of glucose-1-phosphatase. The three columns gave a 10-fold increase in specific activity to 290 mol/min/mg of protein, with a yield of 15%. Of the eight sugar phosphates tested, galactose-1-phosphate was the best substrate for the purified enzyme, followed by glucose-1-phosphate, which was hydrolyzed 40% as rapidly as galactose-1-phosphate. Galactose-1-phosphatase had an optimum pH of 8.5 and a Km value of 2.5 mM for galactose-1-phosphate hydrolysis. Mg2+ was required for activity, and supported half-maximal activity at a concentration of 1.25 mM. Phosphate was the only potent inhibitor found ATP, arsenate, and vanadate caused moderate inhibition of 10 mM levels, whereas AMP, L-homoarginine, and L-phenylalanine stimulated enzyme activity. Galactose-1-phosphatase was determined to have a Stokes radius of 30 A and a sedimentation coefficient of 4.1S. These values were used to calculate a molecular weight of 50,200 and a frictional ratio showing the enzyme to be a globular protein. It is hypothesized that a similar phosphatase may play a role in reducing brain galactose-1-phosphate concentrations in patients with galactosemia.
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PMID:Galactose-1-phosphatase in rat brain. 164 51

Phytase (myo-inositol hexakisphosphate phosphohydrolase; EC 3.1.3.8 or 3.1.3.26) was purified from rat intestinal mucosa. The purified enzyme preparation exhibited two protein bands on SDS-polyacrylamide gel electrophoresis with estimated molecular masses of 70 kDa and 90 kDa. Rabbit antisera prepared against the 90K subunit cross-reacted with the 70K subunit on immunoblotting. The peptide maps of the 70K and 90K subunits were similar, and the N-terminal amino acid sequences of the two subunit proteins were almost identical. Treatments to remove sugar moieties from the proteins showed that the two subunit proteins had different oligosaccharide chains, although the difference in their molecular masses was not due to the difference in their oligosaccharide compositions. The purified enzyme also showed activity of alkaline phosphatase (orthophosphoric monoester phosphohydrolase; EC 3.1.3.1), but the properties of the two enzyme activities were different; the optimum pH for phytase activity was 7.5, while that for alkaline phosphatase was 10.4. Phytase activity did not necessarily require divalent cations, while Mg2+ was essential for alkaline phosphatase activity. Phenylalanine, a specific inhibitor of intestine-type alkaline phosphatase had no effect on the phytase activity.
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PMID:Purification and characterization of phytase from rat intestinal mucosa. 165 10

Subcellular fractionation studies in resting human neutrophils indicated a bimodal distribution for cytochrome b. A major peak of cytochrome b co-sedimented with gelatinase under different experimental conditions. This localization was partially overlapped with specific granules (using lysozyme and lactoferrin as specific granule markers), but clearly resolved from azurophilic granules, plasma membrane, mitochondria, as well as from a novel alkaline phosphatase-rich intracellular organelle. A minor localization of cytochrome b was found in fractions enriched in both the plasma membrane marker 5'-nucleotidase and alkaline phosphatase. A significant portion of ubiquinone cell content co-fractionated with the gelatinase-containing granules. After phorbol myristate acetate (PMA)-cell stimulation, cytochrome b was mobilized to fractions showing respiratory burst activity and enriched in 5'-nucleotidase activity. This mobilization paralleled secretion of gelatinase and lysozyme to the extracellular medium. Furthermore, neutrophil stimulation with fluoride in the absence of cytochalasin B induced release of gelatinase and generation of superoxide anion with only minimal release of lysozyme. Preincubation of cells with the anion channel blocker 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (DIDS) prevented lysozyme release, but had only a minor effect on the release of gelatinase and did not inhibit the superoxide anion generation elicited by N-formyl-methionyl-leucyl-phenylalanine or PMA. These results suggest a main location of cytochrome b in mobilizable gelatinase-containing granules, which can constitute a subpopulation of specific granules. Furthermore, these findings show that the gelatinase-containing granule is functionally involved in the respiratory burst in neutrophils and that membrane fusion between plasma membrane and the gelatinase-containing granule occurs during activation of cells.
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PMID:Cytochrome b co-fractionates with gelatinase-containing granules in human neutrophils. 165 2

The biochemical parameters Na+/K(+)-ATPase, alkaline phosphatase, oxygen consumption, and lactic acid level were evaluated in the small intestine mucosa of male Wistar rats during in situ perfusion of the rat with sodium nitrite. Sodium nitrite was poorly absorbed (10% of the administered dose), but it inhibited the activity of Na+/K(+)-ATPase and alkaline phosphatase. It had no effect on the lactic acid level, pointing to normal oxygen in the intestine, evidently reducing the utilization of oxygen by this tissue. Using metabolism inhibitors added to the perfusion fluid in the concentrations: ouabaine 0.1 mM, NaN3 (sodium azide) 1 mM, L-phenylalanine 50 mM and during functional ischaemia of the intestine produced by occlusion of the superior mesenteric artery for the time of the perfusion, it was possible to find the site of action and the direction of the toxic influence of sodium nitrite.
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PMID:Studies on the mechanism of the toxic action of sodium nitrite on intestinal absorption in rats. 165 36

Polyacrylamide gel electrophoresis utilizing sodium dodecyl sulfate followed by specific staining for alkaline phosphatase was accomplished using sera from patients with osteosarcoma, polyostotic fibrous dysplasia, metastatic bone tumor, and idiopathic hyper-alkalinephosphatasemia. Alkaline phosphatase activity of the sera was uniformly demonstrated at a molecular weight of 60,000. L-homoarginine more strongly inhibited the alkaline phosphatase activity than did L-phenylalanine. Alkaline phosphatase activity was markedly inactivated by heating. Regarding substrate specificity, the hydrolysis of p-nitro-phenylphosphate occurred at a lower rate than did that of phenylphosphate. By contrast, the hydrolysis of alpha- and beta-glycerophosphate occurred at a higher rate than did that of phenylphosphate. As seen from the data presented here, the serum alkaline phosphatase samples obtained from these patients with skeletal disorders have several common characteristics.
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PMID:[Identification of serum alkaline phosphatase from human bone]. 169 Jul 86

Nascent precursors of phosphatidylinositol-glycan (PI-G)-linked membrane proteins contain a hydrophobic COOH-terminal sequence of 15-30 residues that is eliminated during processing to yield a newly exposed COOH terminus to which the PI-G moiety is added. There is no consensus as to the primary structure of the terminal peptide but there is a specific requirement for the amino acid destined to become the COOH terminus. In nascent human placental alkaline phosphatase (PLAP), the PI-G tail is attached to Asp-484. Site-directed mutants with glycine, alanine, cysteine, serine, or asparagine (category I) at residue 484 become PI-G tailed, appear in the plasma membrane, and are enzymatically active when expressed in COS cells. Although mutants with glutamic acid, glutamine, proline, tryptophan, leucine, valine, phenylalanine, threonine, methionine, and tyrosine (category II) are expressed equally well, only small amounts appear on the plasma membrane. Furthermore, they are not PI-G tailed and have little alkaline phosphatase activity. Studies with truncated PLAP-489 rule out nonspecific conformational changes in category II mutant proteins as a reason for their failure to be processed in COS cells and point to a specific COOH-terminal processing enzyme. Direct evidence that the selectivity for category I amino acids is enzymatically determined was obtained in a cell-free translation/processing system by using rabbit reticulocyte lysate and CHO cell rough microsomal membranes. In this in vitro system, both category I and category II mutants of PLAP-513 were translated, glycosylated, and cleaved by NH2-terminal signal peptidase. However, an additional and selective cleavage at residue 484 was observed only with category I mutants.
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PMID:Selectivity at the cleavage/attachment site of phosphatidylinositol-glycan anchored membrane proteins is enzymatically determined. 170 Apr 20

Two specific alkaline phosphatase forms were identified in the integument of wild-type Ceratitis capitata during transition of larvae to pupae. The separation was achieved by DEAE-cellulose chromatography; alkaline phosphatase 1 and alkaline phosphatase 2 were eluted in 0.1 and 0.4 M KCl, respectively. Both isoenzymes have a molecular weight of approximately 180,000. The pH curve reveals two peaks for both alkaline phosphatases: one at 9.4 and the other at 11.0. The two isoenzymes at both pH optima catalyze the hydrolysis of phosphotyrosine and beta-glycerophosphate, but not phosphoserine, phosphothreonine, ATP, or AMP. However, at pH 9.4, alkaline phosphatase 1 is more effective than ALPase 2 and exhibits a preference for phosphotyrosine. The divalent cations Mn2+, Mg2+, and Ba2+ activate the enzymes, while Cu2+ and Zn2+ are inhibitors for both isoenzymes. Both isoenzymes are inactivated by EDTA. The effect of amino acids on enzyme activity was also tested. Alkaline phosphatase 1 is inhibited by L-tyrosine, while alkaline phosphatase 2 is unaffected. L-Phenylalanine has no effect on either isoenzyme. Both isoenzymes are inhibited by urea and 2-mercaptoethanol. Simultaneous addition of urea and 2-mercaptoethanol reveals that ALPase 1 is more sensitive to these inhibitors than ALPase 2.
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PMID:Integumental phosphatase isoenzymes from white puparia of Ceratitis capitata: isolation and characterization. 172 27

p19 is a highly conserved 19-kDa cytosolic protein that undergoes phosphorylation in mammalian cells upon activation of several distinct signal transduction pathways. Its expression is widespread but developmentally regulated. To determine the in vivo phosphorylation site(s) of p19, the protein was purified from bovine brain and resolved into the unphosphorylated form (p19) and a mixture of the two predominant phospho-forms (pp19). Proteolytic fragments of p19 and pp19 were examined by liquid chromatography/mass spectrometry (LC/MS). We detected ion masses corresponding to fragments spanning the entire amino acid sequence as deduced from the cDNA except for those predicted to contain an unmodified amino terminus. Instead, the digests revealed ions corresponding to peptides lacking the initiator methionine and containing an N-acetylated alanine at the amino terminus. The analysis of pp19, but not that of p19, revealed two sets of ions representing peptides whose m/z values differed by 80 atomic mass units, the incremental mass of a phosphate residue. These putative phosphate-bearing peptides were sensitive to alkaline phosphatase treatment. Using combined trypsin and V8 protease digestions, the phosphorylation sites were mapped to Ser-25 and Ser-38, in the peptides Leu-Ile-Leu-Ser*-Pro-Arg and Phe-Pro-Leu-Ser*-Pro-Pro-Lys, respectively. Interestingly, both phosphoserines are in a very similar sequence context, suggesting that a single proline-directed serine protein kinase, possibly p34cdc2, is responsible for phosphorylation of both sites in vivo.
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PMID:Analysis of phosphoprotein p19 by liquid chromatography/mass spectrometry. Identification of two proline-directed serine phosphorylation sites and a blocked amino terminus. 173 1


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