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 release of plasma membrane ecto-enzymes by a phosphatidylinositol-specific phospholipase C from Staphylococcus aureus was investigated. There was no effect on L-leucyl-beta-naphthylamidase, alkaline phosphodeisterase I and Ca2+- or MG2+-ATPase, but substantial proportions of the alkaline phosphatase and 5-nucleotidase were released. There was no simultaneous release of phospholipid and the solubilized enzymes were not exluded from Sepharose 6-B. It was therefore concluded that release was not a secondary consequence of membrane vesiculation but occurred as a result of the disruption of specific interactions involving the phosphatidylinositol molecule.
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PMID:Specific release of plasma membrane enzymes by a phosphatidylinositol-specific phospholipase C. 20 48

Protein composition of cardiac sarcolemmal membranes was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Membranes were observed to contain about 20 polypeptide bands ranging from 18000 to 200 000 dalton mass. Out of these, six bands were prominent and together comprised 57% of the membrane protein. When sarcolemmal membranes, phosphorylated by [gamma-(32)P] ATP in the presence of Ca(2+) or Na+ with and without K+, were fractionated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis at pH 2.4, the band III region (Mr 105 000) of gels was found to contain active sites of monomeric Ca-ATPase and (Na,K)ATPase. Bands I (Mr greater than 200 000), II (Mr 150 000), III (Mr 105 000), and VI (Mr 47 000) were accesible to trypsin; the extent of proteolysis was dependent on the time of exposure to, and the concentration of, trypsin (i.e, ratio of sarcolemmal protein/trypsin). Addition of molar sucrose protected sarcolemmal proteins from the tryptic proteolysis. Calcium transport was reduced by the action of trypsin; the degree of reduction was influenced by the time of exposure of membranes to trypsin as well as the concentration of trypsin. (Mg,Ca)ATPase activity, on the other hand, was elevated moderately at lower concentration and reduced at higher concentration of trypsin. Treatment with phospholipase C cium transport and (Mg,Ca)ATPase activity; electrophoretic patterns were unaffected by this treatment. Addition of lecithin to phospholipase C treated membranes produced a moderate increase in calcium transport. Exposure to Triton X-100 (1%) specifically solubilized three protein bands (Mr90 000, 67 000, and 57 000), whereas exposure to deoxycholate (1%) preferentially solubilized high-molecular-weight proteins, including band III (Mr 105 000); Lubrol-PX (1%) caused nonspecific solubilization of proteins, although the extent of solubilization with Lubrol-PX was considerably less than with either Triton or deoxycholate.
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PMID:Protein analysis of cardiac sarcolemma: effects of membrane-perturbing agents on membrane proteins and calcium transport. 21 4

Receptor-activated Ca2+ influx was investigated in PC12 cells clones loaded with fura-2. Cells were stimulated in a Ca(2+)-free medium and studied after reintroduction of the cation or addition of Mn2+ into the medium. A first influx component, independent of receptor activation and sustained by depletion of the intracellular inositol 1,4,5-trisphosphate sensitive Ca2+ store (store-dependent Ca2+ influx, SDCI), was identified by experiments with carbachol followed by atropine and with agents that induce store discharge without polyphosphoinositide hydrolysis: thapsigargin, an inhibitor of Ca(2+)-ATPase activity; ryanodine and caffeine, activators of the ryanodine receptor. A second component of Ca2+ influx, induced by carbachol and rapidly blocked by atropine, relies on receptor-effector coupling via G protein(s) different from that (those) involved in phospholipase C activation. SDCI and receptor-coupled influx are similar in their voltage dependence and insensitivity to forskolin and phorbol esters but they differ with respect to their Mn2+ permeability and their sensitivity to the SC 38249 imidazole blocker. The two components might play different roles. SDCI might act as a safety device to prevent Ca2+ store depletion whereas receptor-dependent influx might control physiological functions such as secretion and growth.
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PMID:Receptor-activated Ca2+ influx. Two independently regulated mechanisms of influx stimulation coexist in neurosecretory PC12 cells. 131 Mar 10

Lucifer yellow (LY) accumulation was used to measure macrophage pinocytosis. The hematopoietic growth factors, macrophage colony-stimulating factor (CSF-1), granulocyte-macrophage CSF (GM-CSF), and interleukin 3, and the macrophage activators, lipopolysaccharide and zymosan, all stimulated LY uptake in both murine bone marrow-derived macrophages (BMMs) and resident peritoneal macrophages (RPMs) without affecting LY efflux. The stimulation of pinocytosis in the poorly cycling RPMs and in BMMs by nonmitogens dissociates stimulation of pinocytosis from subsequent DNA synthesis. Regulation of pinocytosis in BMMs appears to be independent of that of urokinase-type plasminogen activator expression. The increases in CSF-mediated BMM pinocytosis were not inhibited by pertussis toxin, by elevations in intracellular cAMP, or by glucocorticoids and were only partially inhibited by inhibitors of Na+/H+ antiport and Na+/K(+)-ATPase activities. Protein kinase C activation could be involved in regulating BMM pinocytosis because phorbol myristate acetate, oleoylacyglycerol, and exogenously added phospholipase C can all stimulate it. Ca2+ ionophores were inactive, whereas the Na+/H+ ionophore monensin potently inhibited BMM pinocytosis.
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PMID:Regulation of pinocytosis in murine macrophages by colony-stimulating factors and other agents. 131 79

We have attempted to elucidate the effect of thyroid hormone on phospholipase C-linked inositol phospholipid hydrolysis in the rat hypothalamus. Hypothalamic slices of each animal, euthyroid control, hypothyroid, and thyroxine (T4)-supplemented hypothyroid rats were labeled with [3H]myoinositol in the presence of 5 mM LiCl, and then incubated for 60 min in KHG buffer containing either vehicle or 1 mM ouabain, a Na-K ATPase inhibitor. Hypothyroidism caused a significant increase in both basal and ouabain-stimulated accumulation of [3H]inositol phosphate ([3H]IP) in hypothalamic slices, whereas supplement with T4 to hypothyroid rats resulted in a complete restoration of hypothalamic [3H]IP formation to the value of euthyroid control. The present results indicate that thyroid hormone affects phospholipase C-linked inositol phospholipid hydrolysis in the hypothalamus, suggesting that negative feedback action of thyroid hormone may occur at a post-receptor site in the hypothalamus.
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PMID:Thyroid hormone affects the hydrolysis of inositol phospholipids in the rat hypothalamus. 131 27

Relying on quantitative measurements of Ca2+ activation and inhibition of the inositol 1,4,5-trisphosphate (IP3) receptor in the endoplasmic reticulum, we construct a simplified kinetic model to describe the properties of this channel. Selecting rate constants to fit key kinetic and equilibrium data, we find that the model reproduces a variety of in vivo and in vitro experiments. In combination with Ca(2+)-ATPase activity for Ca2+ uptake into the endoplasmic reticulum, the model leads to cytoplasmic oscillations in Ca2+ concentration at fixed IP3 concentration and only a single pool of releasable Ca2+, the endoplasmic reticulum. Incorporation of a positive-feedback mechanism of Ca2+ on IP3 production by phospholipase C enriches the properties of the oscillations and leads to oscillations in Ca2+ concentration accompanied by oscillations in IP3 concentration. We discuss the possible significance of these results for the interpretation of experiments.
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PMID:A single-pool inositol 1,4,5-trisphosphate-receptor-based model for agonist-stimulated oscillations in Ca2+ concentration. 132 8

The rate of vanadate-sensitive 22Na+ uptake by isolated liver membrane vesicles, reflecting transport by Na+/K(+)-ATPase, was measured to study the role played by phospholipase C and protein kinase C in the regulation of this process by vasopressin. Na+ uptake was enhanced 2-3-fold by 100 nM [Arg8]vasopressin and the hormone effect was mimicked by 0.1 microM inositol 1,4,5-trisphosphate as well as by 1.0 microM myo-inositol. The stimulation by vasopressin was potentiated by phosphatidylinositol-specific phospholipase C from Bacillus thuringiensis (5-10 mU/ml). No effect of the bacterial enzyme was observed in the absence of the hormone. Phorbol myristate acetate (0.5-1 microM) suppressed the stimulation by vasopressin but had no effect in the absence of the hormone. High concentrations of bacterial phosphatidylinositol-specific phospholipase C (50-100 mU/ml) also antagonized the hormone stimulation. Staurosporine (50-100 nM) prevented the antagonistic effect of bacterial phospholipase C (50 mU/ml) and EGTA (1 mM) partially protected the hormonal stimulation in the presence of phorbol myristate acetate. Our results suggest that the stimulatory effect of vasopressin on Na+ transport is mediated by phospholipase C and products derived from the inositol moiety of membrane phospholipids. Membrane-associated protein kinase C appears to be at least partially responsible for the desensitization to stimulation by vasopressin.
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PMID:Vasopressin stimulation of vanadate-sensitive Na+ transport by liver plasma membrane vesicles. Evidence for regulation via phospholipase C and protein kinase C activities. 139 Aug 61

The activation of phospholipase C by hormones and neurotransmitters activates a complex combination of Ca2+ release and accumulation by intracellular organelles. Previously, we demonstrated that, in some cell types, the fluorescent Ca2+ indicator, fura-2, can be loaded into intracellular, agonist-sensitive Ca2+ pools (Glennon, M. C., Bird, G. St. J., Kwan, C.-Y., and Putney, J. W., Jr. (1992) J. Biol. Chem. 267, 8230-8233). In the current study, we have attempted to exploit this phenomenon by employing digital fluorescence imaging of compartmentalized fura-2 to investigate the localization and function of the major intracellular sites of Ca2+ regulation in AR4-2J pancreatoma cells. By judicious use of a surface receptor agonist together with the Ca(2+)-ATPase inhibitor, thapsigargin, cellular regions were identified whose behavior indicates that they contain the sites of agonist- and inositol 1,4,5-trisphosphate-mediated intracellular Ca2+ release. These regions were located throughout the cell and may include the nuclear envelope. They were distinct in locus and behavior from two other regions, which counterstained with fluorescent markers for nuclei and mitochondria. Fura-2 in mitochondrial regions reported low resting levels of [Ca2+], and revealed that organelles in these regions accumulate and retain Ca2+ after agonist activation. These findings demonstrate that fluorescent Ca2+ indicators can be employed to directly monitor changes in [Ca2+] in the major Ca(2+)-regulating organelles, and provide the first in situ visualization and localization of the major sites of Ca2+ regulation in cells.
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PMID:In situ imaging of agonist-sensitive calcium pools in AR4-2J pancreatoma cells. Evidence for an agonist- and inositol 1,4,5-trisphosphate-sensitive calcium pool in or closely associated with the nuclear envelope. 146 52

When hepatocytes were loaded with fura-2 by incubation with the acetoxymethyl ester (fura-2/AM), addition of Mn2+ resulted in a rapid quench of a fraction of cellular fura-2 fluorescence. Addition of vasopressin caused a second, rapid quench of cellular fura-2, whereas the addition of thapsigargin had no effect. When hepatocytes were loaded by microinjection of fura-2 acid, addition of Mn2+ caused a slower, sustained rate of quench, and both vasopressin and thapsigargin increased this rate of quench. When Mn2+ was removed from the medium of fura-2/AM-loaded cells after preincubation with Mn2+, vasopressin still caused quench of cellular fura-2. In contrast, neither vasopressin nor thapsigargin increased fura-2 quench when Mn2+ was removed from fura-2-injected cells. When fura-2/AM-loaded cells were permeabilized with saponin, only a fraction of the cell-associated fura-2 was quenched by addition of Mn2+. A second fraction was then quenched by addition of inositol 1,4,5-trisphosphate. These results indicate that in hepatocytes loaded with the acetoxymethyl ester of fura-2, the increased quench of cellular fura-2 seen with phospholipase C-linked agonists is not due to effects of the agonist on Mn2+ entry across the plasma membrane, but rather is due to agonist activation of Mn2+ penetration into an intracellular organelle, presumably through inositol 1,4,5-trisphosphate-regulated channels. Thus, it appears that compartmentalization of fura-2 accounts for previously reported anomalies in Ca2+ signaling in hepatocytes, such as the apparent failure of Ca(2+)-ATPase inhibition to increase divalent cation entry, as well as the apparent ability of phospholipase C-linked agonists to stimulate efflux of Ca2+.
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PMID:Actions of vasopressin and the Ca(2+)-ATPase inhibitor, thapsigargin, on Ca2+ signaling in hepatocytes. 153 21

In this report, we describe a Jurkat cell variant, termed JCT8, the selection of which is based upon its resistance to cell-growth inhibition mediated by the holotoxin of Vibrio cholerae, cholera toxin (CT). JCT8 cells exhibit normal cAMP production in response to various cAMP inducers, including CT, together with conserved ADP ribosylation in vitro of G-protein Gs alpha by the A subunit of the toxin. However, after a 4-h pretreatment with CT, JCT8 cells have a conserved expression of cell-surface CD3 molecules. These effects are in contrast to those elicited by the toxin in long term PGE2-desensitized Jurkat cells, which remain as sensitive as the wild type to the inhibitory action of CT on cell growth and CD3 cell-surface expression, despite poor responsiveness to CT with regard to cAMP production. In JCT8 cells, Ca2+ mobilization induced via the CD3/TCR is maintained after CT treatment contrasting with its complete suppression in the wild-type and in the PGE2-desensitized cells. However, as in the other cell types, CT still suppresses Ca2+ influx in JCT8 cells. Increase in inositol phosphates by CD3 stimulation of JCT8 cells, including of inositol 1,4,5-triphosphate (I(1,4,5)P3), is only partially antagonized by CT. This suggests either that in JCT8 cells there is a different susceptibility of Ca2+ mobilization and influx to partial inhibition by CT of CD3-triggered phospholipase C (PLC)-induced phosphoinositide hydrolysis or that an additional and PLC-independent suppressive effect of the toxin on Ca2+ influx may exist. To investigate this particular point further, we use Thapsigargin, a Ca(2+)-endoplasmic reticulum ATPase inhibitor that can mobilize in human T lymphocytes I(1,4,5)P3-dependent intracellular Ca2+ pools by a PLC-independent pathway. We demonstrate that the Ca2+ influx triggered in the wild-type Jurkat cells or in JCT8 cells by Thapsigargin is antagonized by CT. The present data are therefore consistent with the idea that CT specifically impairs in the Jurkat T cell model the entry of Ca2+ from extracellular spaces by a mechanism independent not only from cAMP but also in part from inhibition by the toxin of phosphoinositide hydrolysis.
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PMID:Cyclic AMP- and inositol phosphate-independent inhibition of Ca2+ influx by cholera toxin in CD3-stimulated Jurkat T cells. A study with a cholera toxin-resistant cell variant and the Ca2+ endoplasmic reticulum-ATPase inhibitor thapsigargin. 165 Mar 86

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