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 sensitivity of acetylcholinesterases (AChEs) from Musca domestica and from Drosophila melanogaster to the phosphatidylinositol-specific phospholipase C from Bacillus cereus and to the glycosylphosphatidylinositol-specific phospholipase C from Trypanosoma brucei was investigated. B. cereus phospholipase C solubilizes membrane-bound AChE, and both phospholipases convert amphiphilic AChEs into hydrophilic forms of the enzyme. The lipases uncover an immunological determinant that is found on other glycosylphosphatidylinositol-anchored membrane proteins after the same treatment. This immunological determinant is also present on the native hydrophilic form of AChE. The polypeptide bearing the active site of the membrane-bound enzyme migrates faster during sodium dodecyl sulfate-polyacrylamide gel electrophoresis than the same polypeptide from the soluble enzyme. We conclude that AChE from insect brain is attached to membranes via a glycophospholipid anchor. This anchor is covalently linked to the polypeptide bearing the active esterase site of the enzyme and can be cleaved by an endogenous lipase.
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PMID:Acetylcholinesterases from Musca domestica and Drosophila melanogaster brain are linked to membranes by a glycophospholipid anchor sensitive to an endogenous phospholipase. 283 Dec 98

NAD+ glycohydrolase (NADase) present on the surface of rabbit erythrocytes is a membrane-bound ectoenzyme that can be solubilized by phosphatidylinositol-specific phospholipase C (PIPLC). As much as 70% of the cell-associated NADase was made soluble by treatment with PIPLC. The portion of NADase that remained cell-associated after an initial PIPLC treatment proved to be resistant to subsequent solubilization attempts. Further analysis showed that release of NADase from erythrocytes could not be attributed to the action of proteinases or phospholipase C. Erythrocytes obtained from other mammals were analyzed and found to have variable amounts of PIPLC-susceptible NADase. Practically, this finding can be used to easily solubilize membrane-bound NADase as a first step in its purification.
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PMID:Membrane-associated NAD+ glycohydrolase from rabbit erythrocytes is solubilized by phosphatidylinositol-specific phospholipase C. 283 96

Recently we demonstrated the presence in calf thymocytes of a GTP-binding protein (G-protein) composed of three polypeptides, 54, 41, and 27 kDa, which was physically and functionally associated with a soluble phosphoinositides-specific phospholipase C (PI-phospholipase C). The properties of this G protein were further investigated with the following results. 1) In addition to the ability to bind [35S]guanosine-5'-[gamma-thio]triphosphate (GTP gamma S), the G-protein exhibited GTPase activity, which was enhanced by Mg2+, phosphatidylethanolamine, phosphatidylserine, and phosphatidylinositol, but inhibited by sodium cholate, GTP gamma S and F-.2) The 54-kDa polypeptide was ADP-ribosylated by pertussis toxin and also by endogenous membrane-bound ADP-ribosyltransferase, but none of these three polypeptides was ADP-ribosylated by cholera toxin. 3) The G-protein did not cross-react with either anti-rat brain alpha 1 (alpha-subunit of inhibitory G-protein, G1), alpha 0 (alpha-subunit of other G1-like G-protein, G0) or beta gamma antibodies. 4) Incubation of this G Protein with GTP gamma S caused dissociation of the three polypeptides. 5) The 27 kDa polypeptide showed GTP-binding activity and enhanced the phosphatidylinositol 4,5-bisphosphate hydrolysis by purified PI-phospholipase C. These results suggest that the PI-phospholipase C-associated G-protein in calf thymocytes may be a novel one and that it is involved in the regulation of PI-phospholipase C activity.
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PMID:Properties of a novel GTP-binding protein which is associated with soluble phosphoinositides-specific phospholipase C. 283 52

Insulin releases inositol phosphoglycans from myocytes in culture [(1986) Science 233, 967-972], which display insulinomimetic activity. Because 5'-nucleotidase is anchored to the membrane through inositol-containing phospholipid glycans, we investigated whether insulin could release the enzyme from the membrane. Membranes prepared from hindquarter muscles of rats perfused with insulin showed a 23% decrease in 5'-nucleotidase activity. Isolated membranes from muscle exposed to insulin in vitro also showed a small but reproducible decrease (9%) in 5'-nucleotidase activity relative to unexposed controls. Phospholipase C from Staphylococcus aureus released 60% of the membrane-bound 5'-nucleotidase. We propose that insulin may activate an endogenous phospholipase C that cleaves phospholipid-glycan-anchored proteins.
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PMID:Insulin-induced decrease in 5'-nucleotidase activity in skeletal muscle membranes. 284 8

When membrane-bound human liver alkaline phosphatase was treated with a phosphatidylinositol (PI) phospholipase C obtained from Bacillus cereus, or with the proteases ficin and bromelain, the enzyme released was dimeric. Butanol extraction of the plasma membranes at pH 7.6 yielded a water-soluble, aggregated form that PI phospholipase C could also convert to dimers. When the membrane-bound enzyme was solubilized with a non-ionic detergent (Nonidet P-40), it had the Mr of a tetramer; this, too, was convertible to dimers with PI phospholipase C or a protease. Butanol extraction of whole liver tissue at pH 6.6 and subsequent purification yielded a dimeric enzyme on electrophoresis under nondenaturing conditions, whereas butanol extraction at pH values of 7.6 or above and subsequent purification by immunoaffinity chromatography yielded an enzyme with a native Mr twice that of the dimeric form. This high molecular weight form showed a single Coomassie-stained band (Mr = 83,000) on electrophoresis under denaturing conditions in sodium dodecyl sulfate, as did its PI phospholipase C cleaved product; this Mr was the same as that obtained with the enzyme purified from whole liver using butanol extraction at pH 6.6. These results are highly suggestive of the presence of a butanol-activated endogenous enzyme activity (possibly a phospholipase) that is optimally active at an acidic pH. Inhibition of this activity by maintaining an alkaline pH during extraction and purification results in a tetrameric enzyme. Alkaline phosphatase, whether released by phosphatidylinositol (PI) phospholipase C or protease treatment of intact plasma membranes, or purified in a dimeric form, would not adsorb to a hydrophobic medium. PI phospholipase C treatment of alkaline phosphatase solubilized from plasma membranes by either detergent or butanol at pH 7.6 yielded a dimeric enzyme that did not absorb to the hydrophobic medium, whereas the untreated preparations did. This adsorbed activity was readily released by detergent. Likewise, alkaline phosphatase solubilized from plasma membranes by butanol extraction at pH 7.6 would incorporate into phosphatidylcholine liposomes, whereas the enzyme released from the membranes by PI phospholipase C would not incorporate. The dimeric enzyme purified from a butanol extract of whole liver tissue carried out at pH 6.6 did not incorporate. We conclude that PI phospholipase C converts a hydrophobic tetramer of alkaline phosphatase into hydrophilic dimers through removal of the 1,2-diacylglycerol moiety of phosphatidylinositol. Based on these and others' findings, we devised a model of alkaline phosphatase's conversion into its various forms.
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PMID:The solubilization of tetrameric alkaline phosphatase from human liver and its conversion into various forms by phosphatidylinositol phospholipase C or proteolysis. 284 68

In the membranous signal transduction process, hormone-binding to receptors causes receptor interaction with signal-transducing components; these components transfer the stimulus to effector systems, which generate intracellular signals. Several guanine nucleotide-binding proteins (N- or G-proteins) have been identified as membranous signal-transducing components. Two N-proteins are involved in the hormonal regulation of adenylate cyclase activity, one of which being stimulatory (Ns), the other one being inhibitory (Ni). Ns, Ni and a third N-protein, No, whose function is unknown, occur ubiquitously. On the other hand, transducin, an N-protein, which functionally couples light-activated rhodopsin to a cGMP phosphodiesterase, is specific for the retina. In addition to their established role as transducers regulating adenylate cyclase and retinal cGMP phosphodiesterase, N-proteins proteins may be involved in two mechanisms by which the cytoplasmic calcium concentration is elevated, i.e. hormonal stimulation of a phospholipase C catalyzing phosphatidyl-inositol 4,5-diphosphate hydrolysis (Pi response) and hormone-induced opening of receptor-operated calcium channels; the membrane-bound forms of cAMP phosphodiesterase and guanylate cyclase, stimulated by insulin and atrial natriuretic factor, respectively, are also likely to be regulated via N-proteins. Guanine nucleotide-binding proteins appear to play a universal role in transmembranous signalling processes, controlling effector systems (i.e. enzymes and ion channels) that regulate cytoplasmic concentrations of intracellular messengers such as cyclic AMP, cyclic GMP and calcium.
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PMID:[Principles of transmembranous signal transduction in the action of hormones and neurotransmitters]. 286 63

The addition of bradykinin to NG108-15 cells resulted in an increase in the intracellular Ca2+ concentration [( Ca2+]i) and the formation of inositol monophosphate, inositol bisphosphate, and inositol trisphosphate in these cells. The bradykinin-stimulated formation of inositol polyphosphates in plasma membrane preparations was dependent on the presence of GTP or guanosine-5'-O-thiotriphosphate (GTP gamma S) but not of GDP. GTP gamma S, unlike GTP, increased the basal formation of inositol polyphosphate in NG108-15 membranes. Iontophoretic injection of GTP gamma S into single cells induced increases in [Ca2+]i. These effects of bradykinin and GTP gamma S on [Ca2+]i and the formation of inositol phosphates in the intact cells and membranes were not affected by treatment of the cells with pertussis toxin or cholera toxin. Data on binding of bradykinin to membrane preparations indicated the presence of two classes of binding sites with Kd values of 0.80 +/- 0.26 and 9.63 +/- 0.13 nM. Approximately 74% of the receptors were in the high affinity state. In the presence of guanyl-5'-yl-imidodiphosphate [Gpp(NH)p], the high affinity sites in the membrane preparations were converted to low affinity sites with no change in the total receptor number. These toxin treatments had no effect on binding of bradykinin to its receptors. Thus, these results indicate that a guanine nucleotide regulatory protein, which is not a substrate of pertussis toxin or cholera toxin, is involved in mediating the effects of bradykinin on membrane-bound phosphoinositide-specific phospholipase C to induce the increase of cytosolic calcium.
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PMID:Role of a protein regulating guanine nucleotide binding in phosphoinositide breakdown and calcium mobilization by bradykinin in neuroblastoma X glioma hybrid NG108-15 cells: effects of pertussis toxin and cholera toxin on receptor-mediated signal transduction. 288 51

Thy-1 is a developmentally regulated cell surface glycoprotein in nervous tissue. An inositol-containing glycolipid structure is covalently attached to its carboxyl terminus, which anchors the protein to the cell membrane. In the present paper we report the characterization of a water-soluble form of Thy-1, purified from human cerebrospinal fluid (CSF). In contrast to the membrane-bound form of Thy-1 (M-Thy-1) isolated from human brain cerebral cortex, CSF-Thy-1 behaved like a completely hydrophilic glycoprotein, as analyzed by charge-shift electrophoresis in the presence of detergents and by liposome incorporation experiments. CSF-Thy-1 displayed a slightly higher apparent molecular weight in sodium dodecyl sulfate-polyacrylamide gel electrophoresis than M-Thy-1. Digestions with endoglycosidases demonstrated that this difference in size was correlated to different processing of the three N-linked oligosaccharides, and the mobilities of the deglycosylated molecules were indistinguishable in sodium dodecyl sulfate gels. A Pronase-resistant carboxyl-terminal fragment was isolated from the CSF-Thy-1 after trypsin digestion and compared with the corresponding structure of M-Thy-1, obtained by treatment either with bacterial phosphatidylinositol-specific phospholipase C or with human serum (as a source of phosphatidylinositol-specific phospholipase D). The major fragment from CSF-Thy-1 behaved identically, with respect to size and charge, to the carboxyl-terminal fragment from M-Thy-1 solubilized by phospholipase D. These findings suggest an in vivo release of phosphatidylinositol-anchored Thy-1 glycoprotein from brain cells by the action of an endogenous phospholipase D.
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PMID:Characterization of a hydrophilic form of Thy-1 purified from human cerebrospinal fluid. 290 Aug 38

The subcellular distribution of phospholipase C (PLC) activity in rabbit thymocytes was examined by measuring the enzyme's activity in different subcellular fractions. PLC activity was determined using exogenously added [3H]PIP2 as substrate. Approx. 80% of the activity of the cell homogenate was found in the cytosolic fraction. A minor portion of PLC activity was attached to the particulate fraction. This membrane-associated PLC activity was found to be predominantly bound to the plasma membrane. Both PIP2-cleaving PLCs (the PLC associated with the plasma membrane and the PLC in the cytosol) exhibited maximum activity at pH 5. GTP gamma S stimulated the cytosolic and the membrane-bound PLC. As revealed by computer analysis of the substrate dependence of both basal and GTP gamma S-stimulated PLC activity, GTP gamma S enhanced the Vmax of the enzymes. Calcium, at a concentration of 1 mM, decreased PLC activity, as compared to a calcium concentration of 100 nM. The characteristic increase in Vmax induced by GTP gamma S was observed at a concentration of 1 mM calcium and was similar to that at 100 nM. These data suggest that the stimulatory effect of GTP gamma S is not due to an increased affinity of PLCs to calcium.
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PMID:Phospholipase C in rabbit thymocytes: subcellular distribution and influences of calcium and GTP gamma S on the substrate dependence of cytosolic and plasma membrane-associated phospholipase C. 290 60

A membrane-bound phospholipase C-like hydrolase present in lysates of bloodstream forms of Trypanosoma brucei rapidly converts the membrane form of the variant surface protein to the soluble form and 1,2-dimyristoylglycerol [(1985) M.A.J. Ferguson et al. J. Biol. Chem., 260, 4963-4968]. The hydrolase is inhibited by p-chloromercuribenzenesulfonate. The synthesis of the enzyme is rapidly repressed upon differentiation of bloodstream forms to procyclic cells and the enzyme activity declines to an undetectable level during subsequent growth of procyclic forms.
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PMID:Synthesis of a hydrolase for the membrane-form variant surface glycoprotein is repressed during transformation of Trypanosoma brucei. 299 Oct

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