Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have cloned the cDNA for Mo3, an activation Ag expressed by human monocytes and myelomonocytic cell lines after stimulation by PMA, LPS, muramyl dipeptide, certain cytokines, and cAMP agonists. We have previously shown that Mo3 expression in vivo is associated predominantly with macrophages in inflammatory sites. Mo3 is a highly glycosylated protein of about 50 kDa in monocytes and U-937 cells and is anchored to the plasma membrane by glycosyl-phosphatidylinositol linkage. We purified Mo3 protein by cleavage from the U-937 cell surface with phosphatidylinositol-specific phospholipase C, followed by affinity chromatography using a mAb. An internal peptide sequence was determined and used to design oligonucleotide probes for screening an expression cDNA library. Nucleotide sequencing indicated that the complete coding sequence encodes 335 amino acids, including a predicted signal peptide of 22 residues and a hydrophobic C-terminal portion that is probably cleaved during formation of the GPI linkage. The resulting mature protein of about 290 amino acids is consistent with the 29-kDa molecular mass of deglycosylated Mo3. A Northern blot of RNA from U-937 cells revealed a 1.5-kb band that was induced by PMA treatment. Mo3 cDNA was transfected into Cos cells and surface expression of Mo3 was detected by ELISA using various anti-Mo3 mAb. We performed a computer search of the National Biomedical Research Foundation database and found that Mo3 is identical to the human receptor for the urokinase plasminogen activator (uPA-R). Purified soluble Mo3, as well as anti-Mo3 antibodies, were able to block uPA binding to its receptor on U-937 cells, indicating that Mo3 is indeed uPA-R. The use of these anti-Mo3 antibodies may be helpful in assessing the role of uPA-R in processes such as inflammation and tumor invasion.
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PMID:cDNA for Mo3, a monocyte activation antigen, encodes the human receptor for urokinase plasminogen activator. 131 22

Low density lipoproteins (LDL) bound to the surface of Schistosoma mansoni may protect the parasite from assault by the immune system and provide essential lipids for the parasite in human schistosomiasis. Here we have characterized the LDL binding sites on the surface of schistosomula by comparing the binding of fluorescently labeled LDL to the parasite with LDL binding proteins as seen by ligand blotting before and after enzymatic treatment of viable parasites. Ligand blotting revealed two LDL binding bands, 17.8 +/- 0.8 and 15.7 +/- 0.6 kDa, in intact schistosomula. Trypsinization eliminated all of the specific and approximately two-thirds of the total LDL binding capacity of schistosomula in a time and concentration-dependent manner. LDL did not bind to any bands on blots of trypsinized, viable worms. Specific LDL binding was also eliminated by phosphatidylinositol-specific phospholipase C (PIPLC). PIPLC treatment removed both LDL binding bands from the worms and caused the appearance of an LDL binding band, 16.6 +/- 0.3 kDa, in the culture medium. LDL binding to the parasite recovered within 24 to 48 h after trypsinization but the recovery was inhibited by either monensin or puromycin. Both LDL binding bands reappeared in ligand blots of cultured worms within 24 h; the reappearance was blocked by puromycin but not by monensin. These studies suggest that the specific binding of human LDL to schistosomula is mediated by GPI-linked low molecular weight proteins that are continually synthesized and transported to the parasite surface.
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PMID:Characterization of human low density lipoprotein binding proteins on the surface of schistosomula of Schistosoma mansoni. 132 38

Biosynthetic labelling experiments performed on P primaurelia strain 156, expressing the temperature-specific G surface antigen, 156G SAg, demonstrated that the purified 156G SAg contained the components characteristic of a GPI-anchor. [3H]ethanolamine, [3H]myo-inositol, [32P]phosphoric acid and [3H]myristic acid could all be incorporated into the surface antigen. Myristic acid labelling was lost after treatment in vitro with Bacillus thuringiensis phosphatidylinositol-specific phospholipase C (PI-PLC). After complete digestion by pronase, a fragment containing the intact GPI-anchor of 156G surface antigen was isolated. This fragment was shown to be hydrophobic and glycosylated and to possess an epitope found specifically in the GPI component of GPI-anchored proteins. The role of the GPI-tail in anchoring the 156G surface antigen into the membrane was assessed by determining that purified 156G molecules with the GPI-anchor could be incorporated into lipid vesicles and red cell ghosts whereas the 156G molecules lacking the GPI-anchor, as result of treatment with B thuringiensis PI-PLC, could not. It has also been shown that the membrane-bound form and the soluble form, obtained after cleavage of the 156G SAg lipid moiety either by an endogenous PI-PLC or by a bacterial PI-PLC, displayed identical circular dichroic spectra.
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PMID:Structural comparisons between the soluble and the GPI-anchored forms of the Paramecium temperature-specific 156G surface antigen. 133 31

Previous studies have shown that thrombin-activated platelets interact through the P-selectin with neutrophils and monocytes. To identify other types of leukocytes capable of such an interaction, eosinophils, basophils, and lymphocytes were isolated from whole blood. Binding of these cells to activated platelets was examined in a double immunofluorescence assay and the results show that activated platelets not only bind to neutrophils and monocytes, but also to eosinophils, basophils, and subpopulations of T lymphocytes. Using monoclonal antibodies (MoAbs) specific for subsets of T cells, we could further demonstrate that the T cells which bind activated platelets are natural killer (NK) cells and an undefined subpopulation of CD4+ and CD8+ cells. All these interactions were dependent on divalent cations and were completely inhibited by an MoAb against P-selectin. Thus, P-selectin mediates the binding of activated platelets to many different types of leukocytes. Studies with leukocytes treated with proteases or neuraminidase have shown that the structures recognized by P-selectin are glycoproteins carrying sialic acid residues. Because the loss of binding of activated platelets to neuraminidase-treated neutrophils was almost complete, but only partial to treated eosinophils, basophils, and monocytes, the latter cell types may have different P-selectin ligands in addition to those present on neutrophils. We found that two previously identified ligands for P-selectin, the oligosaccharides Le(x) and sialyl-Le(x), had little or no inhibitory effect on adhesion of activated platelets to leukocytes and that binding was not inhibited by MoAbs against these oligosaccharides. In addition, there was no correlation between the expression of Le(x) on several cell types and their capacity to bind activated platelets. In contrast, the expression of sialyl-Le(x) on cells was almost perfectly correlated with their ability to bind activated platelets. Thus, while Le(x) cannot be a major ligand for P-selectin, a possible role for sialyl-Le(x) in P-selectin-mediated adhesion processes cannot be dismissed. Finally, activated platelets were found to bind normally to monocytes and neutrophils of patients with paroxysmal nocturnal hemoglobulinuria (PNH) and to neutrophils from which phosphatidyl inositol (PI)-linked proteins had been removed by glycosylphosphatidyl inositol-specific phospholipase C (GPI-PLC) digestion. This suggests that at least part of the P-selectin ligands on these cells are not GPI-anchored.
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PMID:P-selectin mediates Ca(2+)-dependent adhesion of activated platelets to many different types of leukocytes: detection by flow cytometry. 137 47

In the present study we have used the Tcr7 monoclonal antibody (mAb) previously characterized as directed against Trypanosoma cruzi 24-25-kDa specific antigens, both are immunogenic in man and during experimental T cruzi infections. We have demonstrated that mAb Tcr7 was able to recognize two in vitro translation products of molecular weights of 24 and 25 kDa. This suggested the holoproteic nature of these two related antigens bearing at least a common epitope and allowed us to use Tcr7 for an immunoscreening of a lambda ZAPII T cruzi cDNA library. Indeed, we have obtained several positive clones and completely sequenced the largest one which encoded theoretically for a protein of 23.7 kDa. The sequence analysis revealed a nearly perfect homology between this clone and one already described by other investigators and was shown to express a major flagellar protein of T cruzi able to bind calcium. Using different overlapping peptides derived from the sequence of the cDNA clone, we have localized the immunoreactivity of mAb Tcr7 mainly on several primary sequences present in the N-terminal part of the sequence, suggesting that the mAb could recognize a discontinuous epitope. Moreover, the immunoelectron microscopy allowed us to show that the antigen(s) carrying the epitope reacting with mAb Tcr7 is (are) released in association with membrane vesicles which protruded from the parasite surface and the flagellar pocket. This new mechanism of antigen shedding is likely to be independent of phospholipase C-mediated release of GPI-anchored molecules.
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PMID:Cloning and sequencing of a 24-kDa Trypanosoma cruzi specific antigen released in association with membrane vesicles and defined by a monoclonal antibody. 138 Dec 53

Ascidian eggs release N-acetylglucosaminidase rapidly into the seawater following fertilization. This glycosidase is detected seconds after fertilization, and histochemical tests suggest the cell surface as the prefertilization storage site (Lambert, C. C. (1989). Development 105, 415-420). Living eggs of Ascidia ceratodes, A. callosa, and A. paratropa all cleave a fluorogenic substrate in seawater. Following cell surface biotinylation and activation of the eggs, enzyme activity binds to streptavidin further substantiating the cell surface localization. The released glycosidase has a molecular weight of 180 kDa by size exclusion chromatography and exhibits bands at 62 and 70 kDa by SDS-PAGE, suggesting a possibly multimeric enzyme. The enzyme is released by a glycophosphatidylinositol-specific phospholipase C and HNO2 deamination, both of which are specific indicators of linkage to the cell surface via phosphatidylinositol. The enzyme from unfertilized eggs is quite hydrophobic in Triton X-114 phase partition experiments but becomes hydrophyllic after release by activation or deamination. All of these observations are consistent with the glycosidase being anchored to the cell surface via a GPI anchor that is cleaved at fertilization to yield the soluble form of the enzyme which helps protect the egg against polyspermy. We discuss the possible role of a cell surface PLC in this release.
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PMID:Glycolipid linkage of a polyspermy blocking glycosidase to the ascidian egg surface. 142 36

Four major glycolipids were extracted from Toxoplasma gondii tachyzoites which were metabolically labeled with tritiated glucosamine, mannose, palmitic and myristic acid, ethanolamine, and inositol. Judging from their sensitivity to a set of enzymatic and chemical tests, these glycolipids share the following properties with the glycolipid moiety of the glycosylphosphatidylinositol anchor (GPI anchor) of the major surface protein, P30, of T. gondii: 1) a nonacetylated glucosamine-inositol phosphate linkage; 2) sensitivity toward phosphatidylinositol-specific phospholipase C and nitrous acid; 3) identity of HF-dephosphorylated GPI glycan backbone between three glycolipids and the HF-dephosphorylated core glycan of the GPI anchor of the major surface protein P30; 4) the presence of a linear core glycan structure blocked by an ethanolamine phosphate residue(s). Taken together with the nature of radiolabeled precursors incorporated into these glycolipids, the data indicate that these GPIs are involved in the biosynthesis of the GPI-membrane anchors of T. gondii.
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PMID:A family of glycolipids from Toxoplasma gondii. Identification of candidate glycolipid precursor(s) for Toxoplasma gondii glycosylphosphatidylinositol membrane anchors. 153 1

The isoform of Fc gamma RIII (CD16) expressed on PMN has a GPI membrane anchor, and in paroxysmal nocturnal hemoglobinuria (PNH) there is a deficiency in Fc gamma RIII expression on PMN. Contrary to expectation, however, CD16 expression is preserved (albeit at reduced levels) in all affected PNH PMN that completely lack the GPI-anchored proteins DAF (CD55) and CD59. Fc gamma RIII negative PMN are not observed in any of the six PNH patients examined in this study. Analysis of the molecular weight of both glycosylated and deglycosylated Fc gamma RIII from PMN with reduced Fc gamma RIII expression indicates no variations in size relative to normal donor Fc gamma RIIIPMN. Indeed, the Fc gamma RIII expressed at intermediate levels is phosphatidylinositol-specific phospholipase C (PI-PLC)-sensitive. Thus, there is no evidence suggestive of expression of a transmembrane isoform and all data indicate that Fc gamma RIIIPMN on affected cells in PNH is a GPI-linked isoform. With Fc gamma RIIIPMN expression preserved at reduced levels on affected cells in PNH, PMN from PNH patients retain the capacity to internalize the Fc gamma RIIIPMN-specific probe E-ConA (at reduced levels) as well as IgG-opsonized erythrocytes. Reduced expression of GPI-anchored molecules on PNH PMN is not restricted to Fc gamma RIIIPMN since intermediate levels of CD59 were observed in the PNH PMN that were decay-accelerating factor (DAF)-negative and Fc gamma RIIIPMN intermediate. In addition, discordant expression of GPI-linked molecules in individual cells is not restricted to PMN since DAF+/CD14- monocytes were observed in one PNH patient. These data suggest that, when analyzed on an individual cell level, the GPI anchor defect in PNH is not absolute and must involve either a hierarchy of access of different protein molecules to available GPI anchors, distinct anchor biochemistries for the different proteins, or differential regulation of protein-anchor assembly.
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PMID:Preferential expression of human Fc gamma RIIIPMN (CD16) in paroxysmal nocturnal hemoglobinuria. Discordant expression of glycosyl phosphatidylinositol-linked proteins. 170 1

Several proteins including bovine erythrocyte acetylcholinesterase are anchored in the membrane through glycoinositol phospholipids containing an alkyl linkage at the sn-1 position of the glycerol. However, the existence of 1-alkyl-2-acyl-sn-glycero-3-phosphoinositol (alkylacyl-GPI) in biological systems has not been demonstrated. In this study, we identified the presence of alkylacyl-GPI in bovine erythrocytes by the following criteria: (1) TLC-Rf value, (2) radyllyso-GPI was produced after phospholipase A2 treatment of the diradyl-GPI, and (3) benzoate derivatives of alkylacylglycerols produced by phospholipase C hydrolysis of diradyl-GPI had the same retention time as that of authentic alkylacylglycerobenzoates on normal-phase HPLC. Diradyl-GPI consisted of 5-10% alkylacyl-GPI. Reverse-phase HPLC analysis of alkylacylglycerobenzoates derived from bovine erythrocyte alkylacyl-GPI showed a multiplicity of species with 18:0-20:4 (11.7%), 16:0-18:1 + 18:0-18:2 (34.9%), and 18:0-18:1 (19.4%) being the major components. Composition of alkyl chains of alkylacyl-GPI from bovine erythrocytes was similar to the reported value for alkylacylglycerols isolated from the glycoinositol phospholipid anchor of bovine erythrocyte acetylcholinesterase. Based on these results, we suggest that alkylacyl-GPI serves as a precursor for the glycoinositol phospholipid of the anchored proteins.
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PMID:Occurrence of ether-containing inositol phospholipids in bovine erythrocytes. 182 38

The molecular nature and possible presence of a glycan-phosphatidylinositol anchor (GPI-anchor) in CA125 molecules was investigated. Serial lectin affinity chromatography and N- or O-glycanase treatment to reduce antigenicity showed that CA125 contained certain N- and O-glycosylated sugar chains in the molecule, like a glycoprotein. CA125 released from ovarian cancer tissues increased time-dependently following phosphatidylinositol-specific phospholipase C (PI-PLC) treatment, concomitant with the release of tissue-unspecific alkaline phosphatase. Western blotting of CA125 treated by PI-PLC showed a single band of 90 kD instead of the 162- and 76-kD bands of the native antigen. Further, ovarian cancer tissues subjected to PI-PLC treatment lost the immunohistochemical localization of CA125 with OC125 antibody. Consequently, it is strongly suggested that CA125 is a glycoprotein that has both N- and O-linked sugar chains and a membranous GPI-anchoring moiety, and further, that its 90-kD form is the antigen without the GPI-anchor.
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PMID:Molecular nature and possible presence of a membranous glycan-phosphatidylinositol anchor of CA125 antigen. 196 50


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