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)

A large number of mammalian proteins are anchored to the cell membrane by a glycosylphosphatidylinositol (GPI) anchor. Biosynthetic intermediates of the GPI anchor have been identified in mammalian cells. The early GPI precursors are sensitive to phosphatidylinositol (PI)-specific phospholipase C (PLC). However, all of the later GPI precursors, which contain 1 or more mannose residues, are PI-PLC-resistant, suggesting that there is another unidentified precursor. Here, we report the identification of this missing link. This GPI precursor can only be labeled with glucosamine and inositol, and is resistant to PI-PLC but sensitive to GPI-phospholipase D. It accumulates in large quantity only in mutants which are defective in the addition of the first mannose residue to the elongating GPI core. Thus, fatty acylation of glucosaminylphosphatidylinositol, to render it PI-PLC-resistant, is an obligatory step in the biosynthesis of mammalian GPI anchor precursors.
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PMID:Identification of a missing link in glycosylphosphatidylinositol anchor biosynthesis in mammalian cells. 131 4

The alpha isoform of phosphatidylinositol-specific phospholipase C (alpha-PI-PLC, Mr 62,000) was purified from bovine brain. Enzyme activity was dependent on calcium, sodium cholate and showed the anticipated specificity for the phosphatidylinositols. Calcium interaction with this protein, investigated by gel filtration chromatography, showed no detectable binding at calcium concentrations adequate to activate the enzyme. Association of alpha-PI-PLC with phospholipid vesicles was studied by light scattering, fluorescence energy transfer and gel-filtration chromatography. The enzyme readily associated with vesicles of high charge density, with vesicles of crude acidic phospholipids and with PIP2. Interaction was characterized by a rapid association followed by slower addition of more protein to the phospholipid. Complexes containing 20-30 percent protein (by weight) were readily obtained. Calcium had only a small effect on this interaction. The protein-phospholipid complexes appeared to bind less calcium than a similar amount of phospholipid alone. Thus, alpha-PI-PLC did not appear to be a calcium-binding protein in either its free or membrane-associated states. Although alpha-PI-PLC showed the highest propensity to bind to phospholipids, a number of other proteins also associated with phospholipids under the conditions used. Thus, whether or not the observed interaction of alpha-PI-PLC with membranes was specific and biologically important or whether it was a process common to many proteins, was not known. Knowledge of this interaction may enhance our understanding of possible mechanisms for protein-membrane interactions in general.
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PMID:Association of alpha-phosphatidylinositol-specific phospholipase C with phospholipid vesicles. 131

Platelet activity is increased in persons with insulin dependent diabetes mellitus (IDDM). Receptor-medicated phospholipase C (PLC) activation and hydrolysis of phosphatidylinositol bisphosphate (PIP2) accompanies platelet activation. Previous work from our laboratory has shown that PIP2 hydrolysis is decreased in platelets of persons with IDDM. PIP2 hydrolysis is mediated via a phosphoinositide(PI)-specific PLC. PI-PLC activity is regulated by guanine nucleotide(GTP)-binding proteins. We therefore examined the hypothesis that platelet aggregations and PI turnover in platelet from subjects with IDDM is linked to alterations in PI-specific PLC activity. We found thrombin induced platelet aggregation was increased in the IDDM group. Basal PI and PIP2-specific PLC activity was not statistically different for the two groups. Guanine-nucleotide stimulated PIP2-specific PLC activity was decreased in the IDDM platelets. The mechanism for the reduced PLC activity and its role in the platelet hyperaggregation requires further study.
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PMID:Reduced guanine nucleotide-stimulated polyphosphoinositide specific phospholipase C in platelet hyperaggregation in IDDM. 131 91

The type of membrane association of acetylcholinesterase (AChE, EC 3.1.1.7) was studied in rabbit lymphocytes and erythrocytes. In both cases, the unique AChE molecular form was an amphiphilic dimer (referred to as G2a) anchored in the membrane by a glycosylphosphatidylinositol. In lymphocytes, G2a AChE was directly converted into its hydrophilic G2h counterpart by a treatment with Bacillus thuringiensis phosphatidylinositol-phospholipase C (PI-PLC, EC 3.1.4.10). In erythrocytes, AChE was resistant to PI-PLC but was rendered sensitive by a prior deacylation with alkaline hydroxylamine. This observation suggests that, as previously reported for human erythrocyte AChE, an acylation of the inositol ring in the glycolipid anchor of rabbit erythrocyte AChE (that does not occur in lymphocytes) prevents the cleavage.
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PMID:Glycolipid-anchored acetylcholinesterases from rabbit lymphocytes and erythrocytes differ in their sensitivity to phosphatidylinositol-specific phospholipase C. 132 66

Bovine liver cytosol contains a phosphoinositide phospholipase C (PLCcyt) that is activated by guanosine 5'-O-(3-thio)triphosphate (GTP gamma S)-activated G-proteins from liver plasma membranes. Heparin-Sepharose chromatography indicated that PLCcyt was immunologically distinct from PLC-beta 1, PLC-gamma 1, or PLC-delta 1 from brain. Initial purification of the GTP gamma S-activated G-proteins that stimulated PLCcyt indicated that the beta gamma complex was responsible. G-proteins were subsequently extracted from liver membranes as heterotrimers and purified in the presence of AlCl3, MgCl2, and NaF to allow reversible activation. Immunoblot analysis with an antiserum selective for the beta subunit showed that the stimulatory activity corresponded with the presence of this protein at every chromatographic step. When liver beta gamma complex was purified and separated from all detectable alpha subunits, as shown by immunoblotting and silver staining, it strongly stimulated PLCcyt after removal of the activating ligand [AlF4]- by gel filtration. beta gamma prepared from brain was approximately equipotent with that from liver. beta gamma was half-maximally effective at 33 nM and produced a maximal 50-fold activation of the PLC. Under identical conditions, beta gamma had no effect on brain PLC-gamma 1 or PLC-delta 1 and produced a 2-fold stimulation of PLC-beta 1 activity. Addition of purified GDP-bound alpha o, which had no effect by itself, completely reversed the beta gamma activation of PLCcyt, confirming that beta gamma was the active species. These data provide evidence for a novel mechanism by which beta gamma subunits of pertussis toxin-sensitive or -insensitive G-proteins activate phospholipase C.
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PMID:Activation of cytosolic phosphoinositide phospholipase C by G-protein beta gamma subunits. 133 Oct 76

The hydrolysis of phosphatidylinositol-4,5-bisphosphate (PIP2) by rat sciatic nerve cytosolic phosphoinositidase C [phosphoinositide-specific phospholipase C (PIC)] was studied at neutral pH and at ionic concentrations that approximate intracellular conditions. The principal water-soluble product formed was shown to be inositol trisphosphate by anion exchange chromatography. The maximum hydrolysis rate (2.5 nmol/min/mg protein) was achieved at less than 100 nM Ca2+. Hydrolysis was markedly increased to 15 nmol/min/mg protein by inclusion of K+ in the reaction mixture. In the presence of 200 mM K+, the optimum Ca2+ was increased to approximately 600 nM. Higher Ca2+ concentrations progressively inhibited PIP2 hydrolysis. Mg2+ also inhibited the reaction, but the presence of equimolar amounts of ATP and Mg2+ had no effect. Appreciable degradation of phosphatidylinositol-4-phosphate (PIP) also occurred in the nanomolar Ca2+ range, whereas breakdown of phosphatidylinositol (PI) required millimolar Ca2+. The presence of PIP but not PI inhibited PIP2 hydrolysis. Upon subcellular fractionation of nerve, more than 50% of recovered PIC activity was in the cytosol and about 20% was located in a myelin-enriched fraction. Using PIP2 as substrate, PIC activities in nerves from normal and streptozotocin-induced diabetic animals were not different. However, the myelin-associated enzyme from diabetic animals was more labile to freezing and thawing.
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PMID:Activity and distribution of phosphoinositidase C in rat sciatic nerve. 133 36

Thiophosphate analogs (C-S-P bond) of phosphatidylinositol (Cn-thio-PI: racemic hexadecyl-, dodecyl-, and octylthiophosphoryl-1-myo-inositol) and a fluorescent analog (pyrene-PI: rac-4-(1-pyreno)-butylphosphoryl-1-myo-inositol) were all substrates for phosphatidylinositol-specific phospholipase C from Bacillus cereus. Hydrolysis of thio-PI was followed by coupling the production of alkylthiol to a disulfide interchange reaction with dithiobispyridine. Hydrolysis of pyrene-PI was followed using a HPLC-based assay with fluorescence detection. The activity of PI-PLC with thio-PI analogs showed an interfacial effect. C16-Thio-PI, which had a critical micelle concentration (CMC) of 7 microM, gave a hyperbolic activity versus concentration curve between 0 and 2 mM, while C8-thio-PI, which had a CMC above 10 mM, showed very low activity which increased greatly upon introduction of an interface in mixed micelles with hexadecylphosphocholine (HDPC). Pyrene-PI, which aggregates above 0.3 mM, gave a sigmoidal activity curve with much higher activity above the CMC. All three thio-PI homologs as mixed micelles with HDPC gave hyperbolic activity curves with PI-PLC that were a function of bulk concentration of substrate at constant surface concentration and surface concentration of substrate at constant bulk concentration. The maximal activity of PI-PLC with pure C16-thio-PI micelles was 6.25 mumol min-1 mg-1, while that with pyrene-PI was estimated to be 68 mumol min-1 mg-1. With pure C16-thio-PI micelles, 0.022 mM substrate gave half Vmax, similar to that in mixed micelles with HDPC.
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PMID:Kinetics of Bacillus cereus phosphatidylinositol-specific phospholipase C with thiophosphate and fluorescent analogs of phosphatidylinositol. 133 94

The African trypanosome, Trypanosoma brucei, expresses two abundant stage-specific glycosylphosphatidylinositol (GPI)-anchored glycoproteins, the procyclic acidic repetitive protein (PARP or procyclin) in the procyclic form, and the variant surface glycoprotein (VSG) in the mammalian bloodstream form. The GPI anchor of VSG can be readily cleaved by phosphatidylinositol (PI)-specific phospholipase C (PI-PLC), whereas that of PARP cannot, due to the presence of a fatty acid esterified to the inositol. In the bloodstream form trypanosome, a number of GPIs which are structurally related to the VSG GPI anchor have been identified. In addition, several structurally homologous GPIs have been described, both in vivo and in vitro, that contain acyl-inositol. In vivo the procyclic stage trypanosome synthesizes a GPI that is structurally homologous to the PARP GPI anchor, i.e. contains acyl-inositol. No PI-PLC-sensitive GPIs have been detected in the procyclic form. Using a membrane preparation from procyclic trypanosomes which is capable of synthesizing GPI lipids upon the addition of nucleotide sugars we find that intermediate glycolipids are predominantly of the acyl-inositol type, and the mature ethanolamine-phosphate-containing precursors are exclusively acylated. We suggest that the differences between the bloodstream and procyclic form GPI biosynthetic intermediates can be accounted for by the developmental regulation of an inositol acylhydrolase, which is active only in the bloodstream form, and a glyceride fatty acid remodeling system, which is only partially functional in the procyclic form.
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PMID:Developmental variation of glycosylphosphatidylinositol membrane anchors in Trypanosoma brucei. In vitro biosynthesis of intermediates in the construction of the GPI anchor of the major procyclic surface glycoprotein. 137 98

Antibody-mediated ligation of the CD3/T cell antigen receptor (TcR) activates phospholipase C (PLC) via a tyrosine kinase signaling pathway that requires expression of the transmembrane tyrosine phosphatase CD45. In normal T cells, CD3-mediated PLC activation is significantly augmented by co-ligation of CD3 with the CD4 co-receptor; however, unlike CD3-associated tyrosine kinases, antibody-induced activation of the CD4-associated tyrosine kinase p56lck does not require CD45 expression. To explore the role of CD45 in the CD3 and CD4 activation pathways further, we examined the effect of CD3/CD4 cross-linking on tyrosine phosphorylation and activation of phospholipase C in CD45- mutant cells of the T cell leukemia line HPB.ALL. In accord with previous observations, anti-CD3 stimulation of the CD45-deficient cells failed to activate tyrosine kinases, or PLC as measured by mobilization of intracellular calcium. However, we show here that ligation of CD3 with CD4 leads to tyrosine phosphorylation of PLC gamma 1 and elevation in the intracellular free Ca2+ concentration in CD45- cells that is in excess of that seen in CD45+ cells. Since CD4 stimulation alone did not activate PLC, a component of the CD3 signaling pathway must be independent of CD45. Anti-CD4-induced tyrosine phosphorylation and activation of CD4-associated lck was also enhanced in CD45- cells, suggesting that increased lck activation compensates for the defect in CD3/TcR signaling, such that interaction of the CD3 signaling pathway with the CD4-associated pathway activates PLC even in the absence of CD45. The data demonstrate that the requirement for CD45 in coupling CD3/TcR to the PI-PLC activation cascade is not absolute, but rather substantiates a role for CD45 in modifying molecular interactions that control T cell activation.
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PMID:Interaction of CD4:lck with the T cell receptor/CD3 complex induces early signaling events in the absence of CD45 tyrosine phosphatase. 153 48

Developmental changes of 3 phosphoinositide-specific phospholipase C isozymes (PI-PLC-beta, PI-PLC-gamma and PI-PLC-delta) in the rat nervous system were studied by immunohistochemical and immunochemical methods. PI-PLC-gamma immunoreactivity was intensely expressed in the radial fibers from the late fetal to early newborn stages, while weaker PI-PLC-beta reaction was also demonstrated in these structures. PI-PLC-beta and PI-PLC-gamma immunoreactivity appeared in neurons of various regions after the first postnatal week and then increased to the adult stage. Bergmann glia and some astrocytes also showed weak immunoreactivity for both isozymes from the newborn stage, while such immunoreactive astrocytes were relatively restricted in distribution in the white matter and hippocampus at the adult stage. PI-PLC-delta immunoreactivity appeared in astrocytes of entire cerebral regions from the second postnatal week, although weak antigenicity was also present in some neurons. Immunoblot analysis revealed that the immunoreactivities of 3 PI-PLC isozymes were present in both fetal and adult brains, with strong reactions of PI-PLC-beta and PI-PLC-delta in adult brain and that of PI-PLC-gamma in fetal brain. These results suggest that each PI-PLC isozyme plays important roles in different cell types in the course of their differentiation, and that some PI-PLC isozymes, especially PI-PLC-gamma, may be involved in cellular division and growth during the histogenesis of the central nervous system.
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PMID:Developmental changes of three phosphoinositide-specific phospholipase C isozymes in the rat nervous system. 164 28

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