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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)

Phospholipase activity of 10 strains of Bacillus cereus was studied. The most active strain of Bac. cereus--phospholipase producer was selected. A cultivation mixture of Bac. cereus optimal for the phospholipase synthesis was found to include peptone, yeast extract, glucose, NaCl and Na2HPO4. Proper conditions for the synthesis of phospholipase in flasks, 20 l and 250 l fermenters were tested. The maximum increase of the phospholipase activity occurred by the 5-9th hour of microbial growth at pH 6.0-8.0. Further cultivation, foaming, strong aeration, pH increase (over 8.0) reduced the accumulated activity. By fractionation with (NH4)2SO4, ethanol precipitation, protamine sulphate treatment with subsequent Sephadex G-100 gel filtration phospholipase (EC 3.1.4.3) was purified 300-fold from the culture liquid of Bac. cereus str. 504. The preparation was examined electrophoretically in 7% polyacrylamide gel at alkaline pH. The effect of metal salts and EDTA on phospholipase activity was studied. Thermostability, substrate specificity and pH optimum of purified phospholipase were investigated.
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PMID:[Phospholipase of Bacillus cereus]. 1 9

Thapsigargin (TG), a sesquiterpene lactone and non-phorbol 12-myristate 13-acetate tumor promoter, stimulates a rapid increase in intracellular free Ca2+ [( Ca2+]i) in human T lymphocytes clone P28. The [Ca2+]i response to TG is sustained in the presence of 1 mM extracellular Ca2+, while it becomes transient in Ca2(+)-free medium suggesting that TG activates both the release of Ca2+ from intracellular stores and the entry of Ca2+ from extracellular spaces. TG-induced Ca2+ influx is completely abolished after cell depolarization caused by increased extracellular concentrations of K+. The rise in [Ca2+]i stimulated by TG occurs in the absence of detectable production of inositol phosphates. Moreover, TG does not alter the early biochemical events of T cell activation triggered through the CD2 or the CD3 T cell antigens. Indeed, both inositol phosphate production and intracellular pH increase induced by specific monoclonal antibodies (mAb) remain unchanged after TG treatment. These data suggest that in human T lymphocytes TG releases Ca2+ from an intracellular pool by a mechanism which is independent of the phospholipase C metabolic pathway. Preincubation with TG of T cell clone P28 empties both the CD2 and the CD3-sensitive intracellular Ca2+ pool(s). Conversely, prestimulation of T cell clone P28 by CD3 or CD2-specific mAb inhibits the Ca2(+)-mobilizing effect of TG. Thus it appears that TG and CD2- or CD3-specific mAb mobilize Ca2+ from common Ca2+ pool(s). Taken together, these results demonstrate that Ca2+ influx in human T cells may be linked to mobilization of intracellular Ca2+ pools and by a mechanism independent of phosphoinositide hydrolysis. They further indicate that the release of intracellular Ca2+ pool(s) may play a major role in the opening of cell membrane Ca2+ channels observed during the CD2- or CD3-induced stimulation of human T lymphocytes.
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PMID:Ca2+ influx in human T lymphocytes is induced independently of inositol phosphate production by mobilization of intracellular Ca2+ stores. A study with the Ca2+ endoplasmic reticulum-ATPase inhibitor thapsigargin. 170 Jul 52

The interference of the recombinant HIV-1 glycoproteins gp160 and gp120 with the CD3/T cell antigen receptor (TcR)-mediated activation process has been investigated in the CD4+ diphtheria toxoid-specific human P28D T cell clone. Both glycoproteins clearly inhibit the T cell proliferation induced in an antigen-presenting cell (APC)-free system by various cross-linked monoclonal antibodies specific for the CD3 molecule or the TcR alpha chain (up to 80% inhibition). Biochemical studies further demonstrate that exposure of the T cell clone to both glycoproteins (gps) specifically inhibits the CD3/TcR phospholipase C (PLC) transduction pathway, without affecting the CD3/TcR cell surface expression. Thus, inositol phosphate production, phosphatidic acid turnover, intracellular free calcium, and intracellular pH increase induced by CD3/TcR-specific MAbs are specifically impaired in gps-treated P28D T cells. Addition of purified soluble CD4 prevents binding of gps to T cells and overcomes all observed inhibitions. Maximal inhibitions are obtained for long-term exposure of the T cell clone to gps (16 h). No early effect of gps is observed. By contrast, gp160 and gp120 fail to suppress the CD2-triggered functional and biochemical P28D T cell responses. These results demonstrate that, in addition to their postulated role in the alteration of the interaction between CD4 on T lymphocytes and MHC class II molecules on APC, soluble HIV-1 envelope glycoproteins may directly and specifically impair the CD3/TcR-mediated activation of PLC in uninfected T cells via the CD4 molecule.
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PMID:Human immunodeficiency virus-1 glycoproteins gp120 and gp160 specifically inhibit the CD3/T cell-antigen receptor phosphoinositide transduction pathway. 197 39

Ten clinical isolates of Pseudomonas cepacia from the sputum of cystic fibrosis patients were examined for the ability to produce lipase. Lipase substrates used included egg yolk agar, four different polyoxyethylene sorbitans (Tweens), and p-nitrophenylphosphorylcholine, a chromogenic substrate used to assay for phospholipase C. Lipase activity was detected in the filtrates of organisms grown to the exponential phase in either tryptose minimal medium or chemically defined medium. Lipase activity increased in the filtrates if the cultures were allowed to proceed into the stationary phase. None of the isolates produced phospholipase C. Lipase activity on Tween 20 ranged from 41.6 X 10(-3) to 640.0 X 10(-3) U/micrograms of protein. The activity was similar or slightly lower when Tween 40, 60, or 80 was used as the substrate. There was no correlation between lipase activity on Tween and that demonstrated on egg yolk agar. Lipase activity increased as pH increased from 7.0 to 9.0. Boiling for 5 min resulted in 66% loss of enzyme activity. The remaining activity continued to decrease with increasing boiling time. The enzyme was purified by gel filtration on Sephadex G-200, and the resultant preparation, when subjected to polyacrylamide gel electrophoresis, resulted in a single protein band (molecular weight, approximately 25,000) from which lipase activity could be eluted. The purified lipase was not cytotoxic to HeLa cells, nor was it toxic when injected intravenously into mice.
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PMID:Production of lipase by clinical isolates of Pseudomonas cepacia. 338 18

Spodoptera frugiperda larvae have a microvillar aminopeptidase and both soluble and membrane-bound forms of amylase and trypsin. Membrane-bound aminopeptidase is solubilized by glycosyl phosphatidylinositol-specific phospholipase C (GPI-PLC) and detergents, suggesting it has a GPI anchor. Membrane-bound trypsin is not affected by GPI-PLC, although it is solubilized by papain and by different detergents. Membrane-bound amylase is similar to trypsin, although once solubilized in detergent it behaves as a hydrophilic protein. Musca domestica trypsin antiserum cross-reacts with only one polypeptide from S. frugiperda midgut. With this antiserum, trypsin was immunolocalized in the anterior midgut cells at the microvillar surface and on the membranes of secretory vesicles found in the apical cytoplasm and inside the microvilli. The data suggest that in this region trypsin is bound to the secretory vesicle membrane by a hydrophobic anchor. Vesicles migrate through the microvilli and are discharged into the lumen by a pinching-off process. Trypsin is then partly processed to a soluble form and partly, still bound to vesicle membranes, incorporated into the peritrophic membrane. In posterior midgut cells, trypsin immunolabelling is randomly distributed inside the secretory vesicles and at the microvilli surface, suggesting exocytosis. Amylase probably follows a route similar to that described for trypsin in anterior midgut, although membrane-bound forms (peptide anchor) solubilize apparently as a consequence of a pH increase inside the vesicles.
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PMID:Nature of the anchors of membrane-bound aminopeptidase, amylase, and trypsin and secretory mechanisms in Spodoptera frugiperda (Lepidoptera) midgut cells. 1277 Mar 93

Acidic extracellular pH is a common feature of tumor tissues. We have reported that culturing cells at acidic pH (5.4-6.5) induced matrix metalloproteinase-9 expression through phospholipase D, extracellular signal regulated kinase 1/2 and p38 mitogen-activated protein kinases and nuclear factor-kappaB. Here, we show that acidic extracellular pH signaling involves both pathways of phospholipase D triggered by Ca2+ influx and acidic sphingomyelinase in mouse B16 melanoma cells. We found that BAPTA-AM [1,2-bis(2-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid tetrakis (acetoxymethyl) ester], a chelator of intracellular free calcium, and the voltage dependent Ca2+ channel blockers, mibefradil (for T-type) and nimodipine (for L-type), dose-dependently inhibited acidic extracellular pH-induced matrix metalloproteinase-9 expression. Intracellular free calcium concentration ([Ca2+]i) was transiently elevated by acidic extracellular pH, and this [Ca2+]i elevation was repressed by EGTA and the voltage dependent Ca2+ channel blockers but not by phospholipase C inhibitor, suggesting that acidic extracellular pH increased [Ca2+]i through voltage dependent Ca2+ channel. In contrast, SR33557, an L-type voltage dependent Ca2+ channel blocker and acidic sphingomyelinase inhibitor, attenuated matrix metalloproteinase-9 induction but did not affect calcium influx. We found that acidic sphingomyelinase activity was induced by acidic extracellular pH and that the specific acidic sphingomyelinase inhibitors (perhexiline and desipramine) and siRNA targeting aSMase/smpd1 could inhibit acidic extracellular pH-induced matrix metalloproteinase-9 expression. BAPTA-AM reduced acidic extracellular pH-induced phospholipase D but not acidic sphingomyelinase acitivity. The acidic sphingomyelinase inhibitors did not affect the phosphorylation of extracellular signal regulated kinase 1/2 and p38, but they suppressed nuclear factor-kappaB activity. These data suggest that the calcium influx-triggered phospholipase D and acidic sphingomyelinase pathways of acidic extracellular pH induced matrix metalloproteinase-9 expression, at least in part, through nuclear factor-kappaB activation.
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PMID:Acidic extracellular pH increases calcium influx-triggered phospholipase D activity along with acidic sphingomyelinase activation to induce matrix metalloproteinase-9 expression in mouse metastatic melanoma. 1754 3

Mammalian members of the classical transient receptor potential channel subfamily (TRPC) are Ca(2+)-permeable cation channels involved in receptor-mediated increases in intracellular Ca(2+). TRPC4 and TRPC5 form a group within the TRPC subfamily and are activated in a phospholipase C-dependent manner by an unidentified messenger. Unlike most other Ca(2+)-permeable channels, TRPC4 and -5 are potentiated by micromolar concentrations of La(3+) and Gd(3+). This effect results from an action of the cations at two glutamate residues accessible from the extracellular solution. Here, we show that TRPC4 and -5 respond to changes in extracellular pH. Lowering the pH increased both G protein-activated and spontaneous TRPC5 currents. Both effects were already observed with small reductions in pH (from 7.4 to 7.0) and increased up to pH 6.5. TRPC4 was also potentiated by decreases in pH, whereas TRPC6 was only inhibited, with a pIC(50) of 5.7. Mutation of the glutamate residues responsible for lanthanoid sensitivity of TRPC5 (E543Q and E595Q) modified the potentiation of TRPC5 by acid. Further evidence for a similarity in the actions of lanthanoids and H(+) on TRPC5 is the reduction in single channel conductance and dramatic increase in channel open probability in the presence of either H(+) or Gd(3+) that leads to larger integral currents. In conclusion, the high sensitivity of TRPC5 to H(+) indicates that, in addition to regulation by phospholipase C and other factors, the channel may act as a sensor of pH that links decreases in extracellular pH to Ca(2+) entry and depolarization.
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PMID:Potentiation of TRPC5 by protons. 1788 14

Neuronal NO synthase (nNOS)-mediated cGMP accumulation has been shown to affect a variety of neuronal cell activities, regardless of whether they are detrimental or beneficial, depending on the amount of their levels, under the physiological and pathological situations. In the present study, we examined the role of proton-sensing G protein-coupled receptors (GPCRs), which have been identified as new pH sensors, in the acidic pH-induced nNOS/cGMP activity in N1E-115 neuronal cells. In this cell line, ovarian cancer G protein-coupled receptor 1 (OGR1) and G protein-coupled receptor 4 (GPR4) mRNAs are expressed. An extracellular acidic pH increased cGMP accumulation, which was inhibited by nNOS-specific inhibitors. Acidic pH also activated phospholipase C/Ca(2+) pathways and Akt-induced phosphorylation of nNOS at S1412, both of which have been shown to be critical regulatory mechanisms for nNOS activation. The acidic pH-induced activation of the phospholipase C/Ca(2+) pathway, but not Akt/nNOS phosphorylation, was inhibited by small interfering RNA specific to OGR1 and YM-254890, an inhibitor of Gq/11 proteins, in association with the inhibition of cGMP accumulation. Moreover cGMP accumulation was inhibited by 2-aminoethoxydiphenyl borate, an inhibitor of inositol 1,4,5-trisphosphate channel; however, it was not by wortmannin, a phosphatidylinositol 3-kinase inhibitor, which inhibited Akt/nNOS phosphorylation. In conclusion, acidic pH stimulates cGMP accumulation preferentially through the OGR1/Gq/11 proteins/phospholipase C/Ca(2+)/nNOS in N1E-115 neuronal cells. Akt-mediated phosphorylation of nNOS, however, does not appreciably contribute to the acidification-induced accumulation of cGMP.
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PMID:Acidic pH increases cGMP accumulation through the OGR1/phospholipase C/Ca(2+)/neuronal NOS pathway in N1E-115 neuronal cells. 2502 74