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)

CD59 is a 18-20-kDa membrane glycoprotein that inhibits formation of the membrane attack complex of complement (C) on homologous cells. In the present study we analyzed the expression and function of CD59 on human endothelial cells. Immunohistochemical analysis of renal cortex demonstrated a predominant expression of CD59 on peritubular capillary endothelial cells and glomerular endothelial cells. Flow cytometry analysis showed that human umbilical vein endothelial cells (HUVEC) expressed CD59 and the fluorescence intensity was approximately four times that of peripheral blood lymphocytes. CD59 is detected on sodium dodecyl sulfate-polyacrylamide gel electrophoresis as a single 20-kDa molecule in 2% deoxycholate extracts of HUVEC. CD59 was released from the surface of HUVEC by phosphatidylinositol-specific phospholipase C, demonstrating that it is attached to the cell membrane by means of a glycolipid anchor. The functional activity of CD59 expressed on HUVEC was studied. Blocking of CD59 antigen with F(ab')2 fragments of polyclonal anti-CD59 enhanced markedly the susceptibility of HUVEC to C-mediated lysis. This effect was dependent on the amount of blocking antibodies added. Northern blot analysis revealed the presence of three species of mRNA expressed in HUVEC, which hybridized to a cDNA probe specific for CD59, with sizes of about 800, 1400 and 2000 bp. These findings suggest that CD59 may be important in protection of endothelial cells against C-mediated damage at local sites of inflammation, thereby maintaining the vascular integrity in vivo.
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PMID:CD59 expressed by human endothelial cells functions as a protective molecule against complement-mediated lysis. 137 60

The membrane attack complex (MAC) of complement in humans is regulated by several membrane-bound proteins; however, no such proteins have so far been described in other species. Here we report the isolation and characterization of a rat erythrocyte membrane glycoprotein of molecular mass 21 kDa which inserts into cell membranes and is a potent inhibitor of the rat MAC. This protein, here called rat inhibitory protein (RIP), was first partially purified by column chromatography from a butanol extract of rat erythrocyte membranes. Monoclonal antibodies (Mabs) were raised against RIP and used for its affinity purification. Affinity-purified RIP was shown to inhibit in a dose-dependent manner the cobra venom factor (CVF)-mediated 'reactive' lysis of guinea pig erythrocytes by rat complement. Conversely, the anti-RIP MAbs 6D1 and TH9 were shown to markedly enhance the CVF-mediated lysis of rat erythrocytes by rat complement. RIP acted late in the assembly of the MAC (at or after the C5b-8 stage) and was releasable from the membranes of rat erythrocytes by phosphatidylinositol-specific phospholipase C. These features, together with its size, deglycosylation pattern and N-terminal amino acid sequence, lead us to conclude that RIP is the rat homologue of the human MAC-inhibitory protein CD59 antigen.
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PMID:Isolation and characterization of a membrane protein from rat erythrocytes which inhibits lysis by the membrane attack complex of rat complement. 137 9

GP130 (renamed contactin) has previously been identified by its detergent insolubility and retention with the actin-containing "membrane skeleton" isolated from chicken neurons and brain. The contactin sequence predicted a transmembrane and cytoplasmic domain for the molecule. Recently, F11 was shown to have an identical sequence except for the C terminus, and it was predicted to be linked to the plasma membrane by a glycosylphosphatidylinositol (GPI) group. Here we describe that GP130 can be released both from brain membranes and the detergent-insoluble membrane skeleton by a phosphoinositol-specific phospholipase C (PI-PLC) indicating that F11 and GP130/contactin are probably identical and that surprisingly the lipid anchor is partly or totally responsible for its non-ionic detergent insolubility. The "membrane skeleton" is a rich source of GPI-linked glycoproteins as judged by 1) most glycoproteins can be released by a PI-PLC and 2) most [3H]ethanolamine-labeled glycoproteins are present in, or enriched in the membrane skeleton. Thus, detergent insolubility appears to be a characteristic of GPI-anchored glycoproteins. No evidence has been obtained that GP130/F11 is released or secreted in vivo or in culture. In addition, GP130/F11 has an unusually long half-life in culture of greater than 3 days. The structure of the neuronal membrane skeleton and the potential function of GPI-anchored glycoproteins is discussed.
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PMID:Solubility and posttranslational regulation of GP130/F11--a neuronal GPI-linked cell adhesion molecule enriched in the neuronal membrane skeleton. 138 8

In response to concanavalin A, cytoplasmic calcium movement was observed in human platelets, both in the presence of 1 mM Ca2+ or 1 mM EGTA in the medium. Concanavalin A also caused the activation of inositide turnover and the production of inositol phosphates, suggesting that activation of phospholipase C occurs. The mechanism by which concanavalin A stimulates phospholipase C does not depend on GTP-binding transducers, because it was not inhibited by GDP beta S, while experiments performed in the presence of cytochalasin B suggested a role for membrane glycoprotein IIb-IIIa-cytoskeleton interaction in this process. Ca(2+)-proteases and Na+/H+ antiport also seemed to be related to concanavalin A-induced phospholipase C activation, as suggested by experiments performed in the presence of leupeptin and amiloride.
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PMID:Stimulation of human platelets with concanavalin A involves phospholipase C activation. 157 30

Schistosoma mansoni parasites recovered from the blood stream were found to be nonactivators of the alternative complement pathway (ACP) when exposed to sera of homologous but not heterologous host species. Schistosomes could be converted into activators of the homologous ACP by treatment with phospholipase C. Antibodies to either human or guinea pig decay accelerating factor (DAF), a 70-kDa glycosylphosphatidylinositol anchored membrane glycoprotein which controls ACP activation on the mammalian cell plasma membrane, bound to the surface of immature schistosomes and immunoprecipitated a molecule of similar molecular mass from detergent extracts of surface iodinated parasites. Phospholipase C treatment drastically reduced the reactivity of the worms with the anti-DAF antibodies. These data suggest that schistosomes evade the ACP by inserting functional host DAF into their surfaces, possibly through adsorption of the molecule's lipophilic diacyglycerol membrane anchor moiety into the outer lipid bilayer of the parasite.
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PMID:Host-specific evasion of the alternative complement pathway by schistosomes correlates with the presence of a phospholipase C-sensitive surface molecule resembling human decay accelerating factor. 169 Jul 76

The Leu-8 molecule, the human homologue of the murine MEL-14 peripheral lymph node homing receptor, is expressed on neutrophils in both species and may be important in localization of cells to sites of inflammation. Most circulating human neutrophils express the Leu-8 molecule, and activation of neutrophils with phorbol myristate acetate causes a rapid decline in Leu-8 membrane fluorescence staining within 15 minutes. Northern blot analysis of total cellular RNA from neutrophils demonstrated two species of Leu-8 messenger RNA, a major one of 2.4 kb and a minor one of 1.9 kb. Because two different Leu-8 cDNA clones were obtained from human lymphocytes that were predicted to encode both transmembrane and phosphatidylinositol (PI)-anchored forms of the molecule, experiments were conducted to determine whether Leu-8 is anchored to neutrophils by a PI-anchor. There was a slight decrease in expression of Leu-8 on neutrophils when they were treated with PI-specific phospholipase C (PI-PLC). However, Leu-8 was abundant on neutrophils obtained from a patient with paroxysmal nocturnal hemoglobinuria. To determine the fate of the Leu-8 molecule during cell activation, neutrophils were labeled with 125I-anti-Leu-8. During activation antibody was rapidly lost from the cell surface and was not internalized, suggesting that Leu-8 is released from the cell membrane during cell activation. When cell extracts of neutrophils were compared with extracts of lymphoid cells by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblotting, the Leu-8 species expressed on neutrophils had a significantly higher and more variable relative mobility (70 to 120 Kd for neutrophils v 70 Kd for Jurkat T cells). In addition, Leu-8 molecules were detected in the supernatants of activated neutrophils. These results indicate that human neutrophils express a high-molecular-weight form of the Leu-8 molecule that has a conventional transmembrane anchor and is rapidly released from the membrane during activation. The loss of the Leu-8 membrane glycoprotein during activation may be a mechanism for rapid alteration of neutrophil adhesion characteristics.
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PMID:Human neutrophils release the Leu-8 lymph node homing receptor during cell activation. 170 70

Decay-accelerating factor (DAF) is a 70-kD membrane glycoprotein that regulates autologous complement activation, by preventing assembly of alternative or classical C3/C5 convertases, and has been shown to have a wide tissue distribution. In this study, DAF antigen has been demonstrated at the intercellular spaces of normal human epidermis with monoclonal antibody against DAF using the peroxidase-anti-peroxidase method. The amount of DAF was greater at the granular layer than the basal cell layer as judged by intensity of the staining. Western blot analysis of DAF in the epidermis showed a 55-kD band, whereas that of buffy coat cells was approximately 67 kD. When DAF of the epidermis was treated with neuraminidase, the molecular weight was reduced to 53 kD, whereas that of buffy coat cells was 56 kD. These results indicated that the content of sialic acid of DAF in the epidermis was different from that of buffy coat cells. In phosphatidylinositol-specific phospholipase C (PIPLC)-treated normal human skin, DAF was not demonstrated in the epidermis, whereas DAF remained unchanged on the elastic fibers. After the treatment of the epidermis by PIPLC, DAF was released into the buffer shown by Western blot analysis. These results suggested that DAF on the epidermis was anchored to keratinocyte via phosphatidylinositol (PI), whereas the anchoring mechanism of DAF on the elastic fibers was not through PI.
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PMID:Characterization of decay-accelerating factor (DAF) in human skin. 170 21

The hypothesis that von Willebrand factor (vWF) binding to platelet membrane glycoprotein Ib (GpIb) initiates intracellular pathways of platelet activation was studied. We measured the biochemical responses of intact human platelets treated with ristocetin plus vWF multimers purified from human cryoprecipitate. vWF plus ristocetin causes the breakdown of phosphatidylinositol 4,5-bisphosphate, the production of phosphatidic acid (PA), the activation of protein kinase C (PKC), increase of ionized cytoplasmic calcium ([Ca2+]i), and the synthesis of thromboxane A2. PA production, PKC activation, and the rise of [Ca2+]i stimulated by the ristocetin-induced binding of vWF multimers to platelets are inhibited by an anti-GpIb monoclonal antibody, but are unaffected by anti-GpIIb-IIIa monoclonal antibodies. Indomethacin also inhibits these responses without impairing platelet aggregation induced by vWF plus ristocetin. These results indicate that vWF binding to platelets initiates specific intraplatelet signaling pathways. The mechanism by which this occurs involves an arachidonic acid metabolite-dependent activation of phospholipase C after vWF binding to platelet membrane GpIb. This signal then causes PKC activation and increases of [Ca2+]i, which promote platelet secretion and potentiate aggregation.
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PMID:von Willebrand factor binding to platelet GpIb initiates signals for platelet activation. 193 45

We previously described the production of monoclonal antibodies against a preparation of membrane glycoproteins from human brain [Berglund et al. (1987) J. Neurochem. 48, 809-815]. One of the glycoproteins, recognized by monoclonal antibody CF3, was specifically expressed in the brain. We now report the isolation and characterization of this glycoprotein, called glycoprotein 135 (Gp135). Gp135 was purified by means of lentil lectin affinity chromatography and immunoaffinity chromatography, using monoclonal antibody CF3, from a crude membrane extract of human brain cortex. Gp135 was shown to consist of a glycosylated single polypeptide chain with an apparent molecular mass of 135 kDa. The size of the polypeptide moiety was estimated to 115 kDa following N-glycanase digestion. The glycoprotein is anchored in the membrane by a glycosylphosphatidylinositol tail, as shown by phospholipase C digestion and liposome incorporation experiments. Amino acid sequence analysis of the amino terminal, and of an internal peptide obtained by V8 protease digestion of the glycoprotein, revealed a strong similarity to three previously described glycoproteins from chicken (contactin and F11) and mouse (F3) brains. These glycoproteins belong to the immunoglobulin superfamily and are implicated in cell adhesion phenomena in the developing brain. Gp135 may be the human counterpart to one or several of these glycoproteins.
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PMID:Isolation and characterization of a membrane glycoprotein from human brain with sequence similarities to cell adhesion proteins from chicken and mouse. 202 73

The responses to alpha- and gamma-thrombin were studied in normal and Bernard-Soulier platelets labelled with [32P]phosphate, to investigate the relationship between thrombin binding to the platelet membrane glycoprotein Ib (GPIb) and thrombin-induced platelet activation. For this purpose we conducted parallel studies of the kinetics of platelet aggregation, granule secretion, hydrolysis of polyphosphoinositides, formation of phosphatidic acid, phosphorylation of the myosin light chain (p20) and of the 43 kDa protein (p43), and thromboxane B2 formation. Like alpha-thrombin, gamma-thrombin activated control platelets via all the above metabolic responses, but only after a prolonged lag. In Bernard-Soulier platelets, alpha-thrombin induced polyphosphoinositide hydrolysis and phosphatidic acid formation, p20 and p43 phosphorylation, thromboxane B2 formation, secretion and to a lesser extent aggregation, but only after a prolonged lag. The metabolic responses of Bernard-Soulier platelets to gamma-thrombin were very similar to those of control platelets. We have previously showed that GPIb which is not present in Bernard-Soulier platelets binds alpha- but not gamma-thrombin. The present results indicate that thrombin binding to GPIb is not directly coupled either with the activation of phospholipase C specific to polyphosphoinositides, or with the activation of protein kinase C and phospholipase A2. However, thrombin binding to GPIb appears to promote an early mechanism which accelerates all the platelet responses.
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PMID:The common pathway for alpha- and gamma-thrombin-induced platelet activation is independent of GPIb: a study of Bernard-Soulier platelets. 216 23

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