EC:3.1.4.3 - FACTA Search

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

Evidence is presented concerning the existence on mouse peritoneal macrophages of two separate and distinct Fc receptors, one for cytophilic monomeric IgG (mIgG) and the other for polymeric IgG. The latter Fc receptor recognizes both heat-aggregated IgG and antigen-complexed IgG. The major findings of our studies are: (a) the different susceptibility of the two Fc receptor types by pronase, trypsin or phospholipase C; (b) the independent modulation of these two binding sites on the cell membrane; (c) the inability of mIgG to inhibit the binding of particulate antigen-complexed IgG ligand; (d) the ability of mIgG molecules which are devoid of the cytophilic property to attach to the macrophage surface upon their polymerization induced by heating or antigen. The results are discussed in terms of "cytophilic" and "opsonic" Fc receptor types which may provide different functional abilities for normal macrophages.
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PMID:IgG-binding sites on macrophage cell membrane. I. Identification of two distinct Fc receptors on mouse peritoneal macrophages. 54 79

By using radiolabeled myeloma proteins specific for each of two distinct Fc receptor activities on macrophage-like murine cell lines ("aggregated IgG FcR" activity and "monomer IgG2a FcR" activity), we have been able to detect solubilized FcR of both types in detergent lysates of these cells. The two solubilized Fc receptors can be distinguished and physically separated from one another by means of affinity chromatography and by sucrose gradient centrifugation. They also differ in their sensitivity to phospholipase C. The detergent solubilized monomer IgG2a FcR can be removed from solution with a Sepharose IgG2a column, has an S value of 4 to 5 and is resistant to phospholipase C. The solubilized aggregated IgG FcR does not bind to insolubilized IgG2a, has an S value of greater than 19, and is sensitive to phospholipase C treatment. We conclude from these studies that two different cell membrane macromolecules are responsible for the Fc receptor activities observed in macrophage-like cell lines.
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PMID:Physicochemical separation of two distinct Fc receptors on murine macrophage-like cell lines. 68 52

Crosslinking of the low affinity immunoglobulin G (IgG) Fc receptor (Fc gamma R type III) on natural killer (NK) cells initiates antibody-dependent cellular cytotoxicity. During this process, Fc gamma R stimulation results in the rapid activation of phospholipase C (PLC), which hydrolyzes membrane phosphoinositides, generating inositol-1,4,5-trisphosphate and sn-1,2-diacylglycerol as second messengers. We have recently reported that PLC activation after Fc gamma R stimulation can be inhibited by a protein tyrosine kinase (PTK) inhibitor. Based on the paradigm provided by the receptor tyrosine kinases, we investigated whether PLC-gamma 1 and/or PLC-gamma 2 are expressed in NK cells, and whether the PLC-gamma isoforms are tyrosine phosphorylated in response to Fc gamma R stimulation. Immunoblotting analyses with PLC-gamma 1- and PLC-gamma 2-specific antisera demonstrate that both isoforms are expressed in human NK cells. Furthermore, Fc gamma R crosslinking triggers the tyrosine phosphorylation of both PLC-gamma 1 and PLC-gamma 2 in these cells. Phosphorylation of both isoforms is detectable within 1 min, and returns to basal level within 30 min. Pretreatment with herbimycin A, a PTK inhibitor, blocked the Fc gamma R-induced tyrosine phosphorylation of PLC-gamma 1 and PLC-gamma 2, and the subsequent release of inositol phosphates. These results suggest that Fc gamma R-initiated phosphoinositide turnover in human NK cells is regulated by the tyrosine phosphorylation of PLC-gamma. More broadly, these observations demonstrate that nonreceptor PTK(s) activated by crosslinkage of a multisubunit receptor can phosphorylate both PLC-gamma isoforms.
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PMID:Fc gamma receptor activation induces the tyrosine phosphorylation of both phospholipase C (PLC)-gamma 1 and PLC-gamma 2 in natural killer cells. 128 Dec 18

We report a case of transient neonatal neutropenia due to a maternal iso-immunization against a non polymorphic region of the glycosylphosphatidylinositol-linked Fc receptor type III (CD16) on granulocytes. The mother's granulocytes were typed NA1-negative, NA2-negative and CD16-negative with human and monoclonal antibodies whereas her lymphocytes express the CD16 molecule. Expression of other markers were comparable to the controls. Flow cytometric analysis showed that maternal antibody recognized the granulocytes but not the lymphocytes from blood bank donors and that its binding was decreased on normal, phospholipase C-treated, granulocytes. The binding of commercial CD16 monoclonal antibodies was also dramatically decreased on normal granulocytes pre-incubated with maternal serum. The CD16 specificity of the antibody was confirmed by negative reactions with another CD16-deficient granulocytes. This observation leads us to conclude that cell-lineage specific differences of CD16 molecules are recognized by the patient's antibody. Moreover, we confirm that the absence of the FcRIII (CD16) on granulocytes is not associated with any pathology or susceptibility to infections and that, in the children, the blockade of this receptor by the maternal antibody only led to moderate neutropenia.
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PMID:Iso-immune neonatal neutropenia due to an anti-Fc receptor III (CD16) antibody. 138 83

The low-affinity Fc receptor for immune-complexed IgG (Fc gamma RIII; CD16) present on in vitro cultured human monocytes are encoded by an Fc gamma RIII-2 gene that, by cDNA sequence analysis, is identical to that expressed on tissue macrophages and on natural killer cells. In macrophages, Fc gamma RIII-2 encodes a glycoprotein of 52-62 kDa, with a peptide backbone of 33 kDa identical to that of the homologous receptor on natural killer cells. Like this and unlike in polymorphonuclear neutrophils, Fc gamma RIII (CD16) on cultured monocytes is insensitive to phosphatidylinositol-specific phospholipase C, is not allelic for the neutrophil NA alloantigens NA-1/NA-2, is not recognized by a monoclonal antibody (1D3) detecting an epitope present only on neutrophil Fc gamma RIII (CD16) and functions to trigger cytotoxicity upon ligand binding.
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PMID:Fc gamma RIII (CD16) on human macrophages is a functional product of the Fc gamma RIII-2 gene. 182 35

We have evaluated the mechanism by which crosslinking human platelet Fc receptor (FcR) for IgG triggers platelet aggregation and the platelet release reaction. Platelet FcR was crosslinked by incubating purified human platelets with anti-FcRII monoclonal antibody and F(ab')2 anti-mouse Ig. The resultant [Ca2+]i increase, monitored by Fura-2 and measured in the absence of extracellular Ca2+, reached a peak of 750 +/- 50 nmol/L. The effects of cyclooxygenase inhibitors, aspirin and indomethacin, and a phospholipase A2 inhibitor, dibromoacetophenone, were examined. Regardless of the inhibitor, at least 25% of the [Ca2+]i increase remained. Thrombin (0.2 U/mL) stimulated an immediate [Ca2+]i increase that reached 1.95 +/- 0.8 mumol/L. The [Ca2+]i increase generated by thrombin was only slightly reduced by these inhibitors. Crosslinking the FcRII of platelets resulted in a fivefold increase in the production of [3H]inositol phosphates, (IP) which, in the absence of extracellular Ca2+ was insensitive to aspirin. The activation of a [Ca2+]i increase along with the measured increases in IP indicate that FcRII crosslinking leads to the activation of phospholipase C (PLC). In contrast to thrombin, platelet activation via FcRII depends to a large extent on arachidonic acid metabolites. However, neither cyclooxygenase nor phospholipase A2 inhibitors completely blocked FcRII-stimulated [Ca2+]i increase. These observations led us to propose that crosslinking of platelet FcRII initially activates PLC.
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PMID:Signal transduction by the platelet Fc receptor. 214 75

It has previously been demonstrated that chicken red cells have a receptor with the capacity to bind aggregated IgG, IgM 7 S or antigen-complex IgG. This receptor was isolated from Nonidet P-40 soluble extracts of chicken red cells by immunoadsorption with either immobilized aggregated IgG or monomeric IgM (IgM 7 S) and further gel filtration through a Sephacryl S-300 column. The Fc binding material was characterized as a glycoprotein with a molecular weight of 30,000 which retained its Fc receptor activity after the isolation procedure. This was demonstrated by its capacity to inhibit the binding of 125I-IgM 7 S or 125I-labelled aggregated IgG to chicken red cells. After Bacillus cereus phospholipase C treatment the Fc receptor activity remained unchanged, but the molecular weight (15,000) did not, suggesting that the phospholipids cleaved by this treatment were not essential for the interactions of the receptor with specific ligands. However, this Fc-binding component was shown to have a molecular weight of 13,000 and a diminished Fc receptor activity after reduction with dithiothreitol, suggesting the presence of at least one disulphide bridge, necessary to maintain the total ligand-binding activity.
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PMID:Isolation and partial characterization of biologically active Fc receptor of chicken red cells. 382 81

The effect of phospholipase C treatment on the binding activity of the Fc receptor of guinea pig macrophage was studied to analyze the interaction of the Fc receptor with membrane phospholipids necessary for the activity. It was confirmed by subcellular fractionation that the receptor is localized on the plasma membrane. Treatment of the whole cell or isolated plasma membrane with phospholipase C of Clostridium perfringens diminished the binding of soluble IgG2-immune complex to Fc receptors on the cell or membrane. On the other hand, phospholipase C of Bacillus cereus did not affect the activity when it acted on the whole cell but it did diminish the activity when it acted on the isolated plasma membrane. Analysis of the phospholipids of untreated and treated macrophages or plasma membrane showed that phosphatidylcholine molecules, particularly those located in the membrane (not accessible to attack from the cell surface by phospholipase C of B. cereus), appear to be crucial for efficient interaction of macrophage Fc receptors with immune complex. Ligand-binding experiments with macrophages showed that the diminished binding activity was due to a decrease of the avidity for immune complex, but did not seem to be due to a decrease in the number or affinity of Fc receptors for monomeric IgG2. Taken together with the previous results which demonstrated that Fc receptors which had apparently lost the activity due to delipidation could be reconstituted with phosphatidylcholine but not with most other phospholipids, the results seem to indicate that the diminution of the binding activity to the immune complex of macrophage or its plasma membrane caused by phospholipase C treatment is due to the impairment of multivalent interaction between Fc receptor molecules on the membrane and IgG2 molecules in the immune complex, probably as a result of the loss of interaction of the head groups of phospholipids with Fc receptor molecules and the change in membrane properties resulting from the increase of diglycerides.
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PMID:Structural studies of Fc receptors. V. Effect of phospholipase C treatment on the binding activities of the Fc receptor of macrophage or its isolated plasma membrane. 608 72

The Fc receptor activity in placental extracts prepared using EDTA and 2-mercaptoethanol was assayed using an indirect hemagglutination technique with sheep erythrocytes sensitized with rabbit IgG. The agglutinating activity of the extract was not affected by storage at -70 degrees C, by rapid freezing and thawing, by treatment with periodic acid, formaldehyde, neuraminidase, trypsin, pronase, or phospholipase C. Papain abolished the activity, indicating that the receptor is a protein. Reduction and alkylation had no effect on the agglutinating activity, indicating that -S-S-bonds are not important for binding. In the presence of 0.6 M NaCl the agglutinating activity was abolished, indicating that electrostatic interactions are of significance. The solubilized Fc receptor shows so many similarities to the previously studied in situ Fc receptor that they are probably identical.
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PMID:Properties of the solubilized placental receptor for IgG. 621 64

To analyze the interaction of the macrophage Fc receptor with phospholipids, we established an experimental system for delipidation of Fc receptor fraction and reconstitution of the Fc receptor activity in phospholipid vesicles. The separation of FcR from membrane phospholipids was achieved by ion exchange chromatography on DEAE-cellulose of the anionic detergent-lysate of the crude membrane fraction of guinea pig macrophages in the presence of detergent. The separation was based on the difference in charge between the complex of FcR and the anionic detergent and that of phospholipids and the detergent. The FcR fraction free of phospholipids showed no FcR activity as assessed in terms of its ability to inhibit the binding of labeled soluble immune complex of IgG2 antibody to macrophages, but the same fraction showed a definite activity when associated with phospholipids. This fraction was shown to contain a component of 44,000 daltons that is susceptible to surface-labeling and binds to IgG2-Sepharose in the affinity chromatography, indicating this component to be the Fc receptor. Reconstitution experiments with this fraction showed that phosphatidylcholine is the most effective phospholipid to reconstitute the FcR activity among those tested. Phosphatidylserine, phosphatidylinositol, and sphingomyelin were ineffective, while phosphatidylethanolamine showed a moderate effect. The inactivating effect of phospholipase C treatment on the Fc receptor activity of the membrane was shown to be due to the cleavage of phospholipids in the membrane but not due to modification of the Fc receptor molecule itself.
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PMID:Structural studies of Fc receptors. IV. Structure required for phospholipids for reconstitution of the delipidated Fc receptor of macrophages. 674 94

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