EC:3.1.4.3 - FACTA Search

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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)

The neu/erbB-2 protooncogene encodes a transmembrane tyrosine kinase homologous to receptors for polypeptide growth factors. The oncogenic potential of the presumed receptor is released through multiple genetic mechanisms including a point mutation, truncation of non-catalytic sequences and overexpression. The latter mechanism appears to be relevant to human cancers as elevated expression of the neu/erbB-2 gene is frequently observed in solid tumors of various adenocarcinomas. It is therefore conceivable that strategies aimed at the biochemical mechanism of action of the neu/erbB-2 tyrosine kinase may contribute to the treatment of certain human cancers. To this aim we undertook a multiple research approach consisting of the following directions: (i) The neu/erbB-2 ligand--a systematic screening of potential biological sources of the hypothetical hormone molecule, that presumably binds to the neu/erbB-2 protein, resulted in detection of a candidate activity in the medium of certain cultured transformed cells. Partial purification indicated that the factor is a 30-35 kDa glycoprotein. Further studies revealed several biochemical characteristics of the factor that may be helpful for complete purification and structural analysis of this novel hormone. (ii) Signal transduction by neu/erbB-2--using a chimeric receptor approach and various mutants we found that all the oncogenic forms of the neu/erbB-2 are constitutively coupled, both physically and functionally, to a multi-protein complex of signaling molecules. The latter includes the phosphatidylinositol-specific phospholipase C gamma and a phosphatidylinositol kinase. Thus, the metabolism of inositol lipids is probably a major biochemical pathway utilized by the neu/erbB-2 tyrosine kinase. (iii) Tumor inhibitory antibodies--we generated a panel of monoclonal antibodies to the presumed receptor. Surprisingly, some antibodies almost completely inhibited the growth of tumor cells in athymic mice, whereas one antibody significantly accelerated the rate of tumor growth in animals. Interestingly, the inhibitory antibodies conferred a mature phenotype to cultured breast cancer cells, implicating terminal differentiation in tumor retardation.
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PMID:Signal transduction by the neu/erbB-2 receptor: a potential target for anti-tumor therapy. 135 18

Murine T cells synthesize and express a cell-surface glycophospholipid anchored 40 kDa and a secreted water-soluble 39 kDa Qa-2 polypeptide. We have examined the biosynthetic pathways which lead to the production of the membrane-bound and water-soluble isoforms of the Qa-2 molecule. Using the detergent TX-114, both detergent (membrane)-bound and soluble Qa-2 polypeptides can be identified in cell lysates and can be distinguished by charge and molecular weight. Two membrane-bound forms, a 40-kDa Endo H resistant cell-surface form and a 38 kDa-Endo H sensitive form can be identified, both of which can be biosynthetically labeled with 3H-ethanolamine and can be converted to water soluble forms by digestion with a phosphatidylinositol specific phospholipase C. In addition, several water soluble polypeptides at 39, 37, 35 kDa, and a minor species at 33 kDa were identified, none of which radiolabel with 3H-ethanolamine. While the 39-kDa polypeptide was Endo H resistant, the other isoforms were sensitive to Endo H digestion. Pulse chase experiments and molecular weights of the deglycosylated core polypeptides suggest a precursor to product relationship between the intracellular water-soluble species and the mature 39-kDa secreted Qa-2 molecule. This relationship is supported by the observation that murine L cells transfected with the Qa-2 encoding class I gene Q7 fail to express membrane-bound Qa-2 molecules yet synthesize both intracellular water-soluble and secreted Qa-2 molecules. These findings argue for a pathway in which secreted soluble Qa-2 molecules are derived from intracellular precursors.
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PMID:Biosynthesis of glycophospholipid bound and secreted murine class I Qa-2 polypeptides. 196 Dec 2

We have purified carbonic anhydrase (CA) IV from human lung membranes to apparent homogeneity in a form which is catalytically active and stable to storage. It has an apparent molecular mass of 35 kDa, is insensitive to endoglycosidases, and seems to contain no N-linked or O-linked oligosaccharide chains. Reduction of disulfide linkages led to altered migration on sodium dodecyl sulfate-polyacrylamide gel electrophoresis and loss of catalytic activity. CA IV resembles CA II in being a "high activity" isozyme, relatively resistant to inhibition by halide ions and sensitive to inhibition by sulfonamides. Application of this purification to human kidney membranes produced homogeneous enzyme with nearly identical properties. Amino acid compositions of both lung and kidney CA IV were similar, as were tryptic peptide patterns resolved on high performance liquid chromatography (HPLC). Amino-terminal sequences of native enzyme from lung and kidney were identical, as were amino-terminal sequences of the three major tryptic peptides resolved on reverse phase HPLC. Isoelectric focusing revealed microheterogeneity in enzyme from both sources. Antibody raised to human lung CA IV reacted equally strongly with CA IV from kidney, but very weakly or not at all with other CAs. Treatment of lung membranes and kidney membranes with phosphatidylinositol-specific phospholipase C released over half of the membrane-bound CA IV, suggesting that at least half of the CA IV in both organs is anchored to membranes by phosphatidylinositol-glycan linkages.
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PMID:Carbonic anhydrase IV from human lung. Purification, characterization, and comparison with membrane carbonic anhydrase from human kidney. 211 24

In a recent report, a construction containing the alpha chain-variable region (V alpha) coding sequence of a cDNA clone derived from a diphtheria toxoid-specific human T cell (P28), fused to a human immunoglobulin kappa light chain constant region (Ck), was used stably to transfect a murine myeloma cell. In the present study, these transfected cells were employed as an immunogen to raise a mAb, termed 1C5V alpha, specific both for the V alpha Ck chimeric protein secreted by the transfectant and the P28 T cell antigen receptor-V alpha region. mAb 1C5V alpha specifically immunoprecipitates the V alpha Ck protein as a family of 32-35 kDa bands present in the 35S-methionine-labeled culture supernatant from the transfected cells. It specifically binds clone P28. Surface molecules recognized by mAb 1C5V alpha are physically linked to the CD3 molecules since cell treatment with either 1C5V alpha or anti-CD3 mAbs caused the simultaneous down-regulation of the CD3/TCR molecular complex. This link is further supported by immunoprecipitation experiments. Thus, both the 1C5V alpha and the anti-CD3 mAbs precipitate the 16-28 kDa CD3 molecules and the disulfide-linked form of P28 TCR from 125I-labeled P28 T cells. Studies performed in order to define whether a stimulus directly acting on the TCR-V alpha region may trigger the intracellular events observed during human T cell activation showed that (a) mAb 1C5V alpha efficiently triggers the phospholipase C transduction pathway revealed by an accelerated phosphoinositides turn-over and an increased production of phosphorylated derivatives of inositol phosphates; (b) mAb 1C5V alpha induces an up-regulation of IL2R mRNA, accompanied by a slight increase of IL2 and IFN alpha mRNA transcripts evidently amplified in the presence of PMA; (c) soluble mAb 1C5V alpha is strongly mitogenic together with PMA. These results provide the first evidence for the structural authenticity of a secreted water-soluble chimeric form of the variable region of a human TCR alpha chain. They further demonstrate that such chimeric proteins may be valuable tool to further dissect the various functional structure of the human TCR.
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PMID:A human TCR-Ig chimeric protein used to generate a TCR alpha chain variable region-specific mAb. 214 29

We have purified the phosphatidylinositol-phospholipase C enzyme from the bacterium Bacillus thuringiensis. This enzyme is able to release in soluble form molecules which are anchored to membranes via a glycan-phosphatidylinositol group. It exhibits a molecular weight of 33-35 kDa. We raised polyclonal antisera against the molecule and used them in immunoblot as well as radioimmunoassays for enzyme detection. This last technique should facilitate monitoring of chromatographic steps during enzyme purification. We coupled antibodies to Sepharose beads in order to remove the enzyme from incubation media. This reagent also proved to be particularly useful in control experiments designed to ascertain that the observed release of molecules is due to the action of the phosphatidylinositol-phospholipase C enzyme and not to spontaneous release or to cleavage by nonspecific hydrolases. A search for cross-reactive molecules in other bacterial strains or mammalian tissues gave negative results. This leads to the conclusion that a great diversity exists between phosphatidylinositol-phospholipases C, even among different bacterial strains.
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PMID:Antibody against Bacillus thuringiensis phosphatidylinositol-phospholipase C: some examples of its potential uses. 216 7

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

Phosphatidylinositol-specific phospholipase C was purified in a 27% yield from the culture medium of Bacillus cereus by a combination of ammonium sulfate precipitation and ion-exchange and hydrophobic interaction chromatography. The purified enzyme was free of other phospholipase C-type activities and exhibited a high specific activity of approximately 1,300 units/mg. Amino acid composition analysis and sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated a molecular weight of about 35 kDa. The sequence of the first 29 N-terminal amino acids was also determined.
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PMID:Phosphatidylinositol-specific phospholipase C from Bacillus cereus: improved purification, amino acid composition, and amino-terminal sequence. 249 36

Lipocortin I, a 35-kDa protein, has been detected in terminally differentiated monocytes and neutrophils. This calcium-phospholipid binding protein appears to be identical to a 35-kDa protein that can serve as a substrate for the EGF-receptor/tyrosine kinase. We have used the human myelocytic cell line HL-60 to explore whether differentiation of hematopoietic cells is associated with changes in the level of lipocortin I. We find that differentiation of HL-60 cells toward the macrophage lineage by the addition of phorbol esters or vitamin D3 or toward neutrophils with dibutyryl cyclic AMP or dimethyl sulfoxide is accompanied by an increase in the cellular content of lipocortin I. In comparison, treatment of HL-60 cells with bryostatin 1, a compound that activates protein kinase C but does not differentiate HL-60 cells, did not effect the level of 35 kDa protein. We have developed a radioimmunoassay to quantitate this protein by using a polyclonal antibody to a synthetic amino terminal peptide of the 35-kDa protein. This antibody recognizes purified pig lung 35-kDa protein as well as a single 35-kDa protein in HL-60 and A-431 cells as determined by Western blotting and immune precipitation. Differentiated HL-60 cells contain 2.6-fold the amount of 35-kDa protein found in undifferentiated HL-60 cells. Our findings that the addition of phorbol esters to HL-60 cells results in an increase in the mRNA for the 35-kDa protein and in an increase in the incorporation of 35S-methionine into the protein suggest that transcriptional activation or increased stability of the mRNA is responsible for the increased rate of synthesis and accumulation of lipocortin I during differentiation of these cells. In the absence of added divalent cations, we have determined that in differentiated HL-60 cells 79% of lipocortin I protein is located in the cytosol while 21% of the total cellular protein is bound to the particulate fraction. The 35-kDa protein can be removed from the particulate fraction by incubation with chelators or treatment with phospholipase A2 or phospholipase C. Addition of the calcium ionophore A23187 to intact differentiated HL-60 cells causes the 35-kDa protein to associate with the particulate fraction of the cell, suggesting that modulation of intracellular calcium levels may play a role in changing the intracellular location of this protein.
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PMID:Differentiation of HL-60 cells is associated with an increase in the 35-kDa protein lipocortin I. 297 67

Polarized epithelial cell monolayers contain two distinct plasma membrane domains as delineated by the presence of tight junctions--i.e., an apical surface that faces the external environment and a basolateral surface that functions both in cell-cell contact and cell-substrate attachment. Central to the understanding of epithelial cell polarity is the question of how such cell-surface specializations are generated. A different class of membrane glycoproteins has recently emerged that may yield new insight into the mechanism underlying the biogenesis of this polarity. Members of this class contain a large extracellular protein domain linked to the membrane via glycosyl-phosphatidylinositol. Using a polarized renal epithelial cell line (Madin-Darby canine kidney), we identified endogenous glycosyl-phosphatidylinositol-anchored proteins through release by a phosphatidylinositol-specific phospholipase C. Six glycosyl-phosphatidylinositol-anchored proteins of 110, 85, 70, 55, 38, and 35 kDa were identified and appeared to be restricted to the apical surface. Our data are consistent with the notion that the glycosyl-phosphatidylinositol membrane anchor may contain the necessary information for "targeting" to the apical surface.
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PMID:Polarized apical distribution of glycosyl-phosphatidylinositol-anchored proteins in a renal epithelial cell line. 297 57

An isoform of the phosphatidylinositol-transfer protein (PI-TP) was identified in the cytosol fraction of bovine brain. This protein, designated PI-TP beta, has an apparent molecular mass of 36 kDa and an isoelectric point of 5.4. The N-terminal amino acid sequence (21 residues) is 90% similar to that of bovine brain PI-TP, henceforth designated PI-TP alpha (molecular mass 35 kDa and pI 5.5). As observed for PI-TP alpha, PI-TP beta has a distinct preference for phosphatidylinositol over phosphatidylcholine. In addition, it expresses a high transfer activity towards sphingomyelin. PI-TP alpha lacks this activity completely. By indirect immunofluorescence we demonstrated that, in Swiss mouse 3T3 fibroblasts, PI-TP beta is preferentially associated with the Golgi system whereas PI-TP alpha is predominantly present in the cytoplasm and the nucleus. In cytosol-depleted HL60 cells, both PI-TP alpha and PI-TP beta were equally effective at reconstituting guanosine 5'-[gamma-thio]triphosphate-mediated phospholipase C beta activity.
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PMID:An isoform of the phosphatidylinositol-transfer protein transfers sphingomyelin and is associated with the Golgi system. 765 6

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