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)

At pH 7.4 approximately one third of the phosphatidylethanolamine (PE) of rat liver microsomes is labelled by trinitrobenzenesulphonic acid (TNBS). The same fraction of the PE was labelled, when a fixed concentration of microsomes were incubated with concentrations of TNBS from 1.5 mM to 12 mM, or when the TNBS concentration was fixed at 3.0 mM and the microsomal protein varied between 1.2 and 12.0 mg. Microsomes incubated with TNBS remain closed indicated by retention of mannose-6-phosphatase latency, retention of labelled vesicular contents and by the appearance of the vesicles in the electron microscope. When the microsomal vesicles were opened by alkaline pH or after passage through the French pressure cell the % of PE labelled increased up to 90% of the total. The small % remaining unlabelled may be due to some vesicles remaining closed or to steric hindrance by the relatively bulky label on both phospholipid and protein. Phospholipase C hydrolyses approximately one third of the PE in closed microsomal vesicles. After treatment of microsomes with phospholipase C the % PE available for labelling by TNBS decreased and was inversely proportional to the % PE hydrolysed. These results suggest that the same pool of PE is available for either hydrolysis by phospholipase C or for labelling by TNBS, and that this pool is that of the outer leaflet of the microsomal membrane bilayer.
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PMID:Asymmetric distribution of phosphatidylethanolamine in the endoplasmic reticulum demonstrated using trinitrobenzenesulphonic acid as a probe. 715 May 86

The fission yeast Schizosaccharomyces pombe has proven useful for studying molecular interactions between a range of signal transduction components. We now report the first co-expression of a mammalian seven-transmembrane receptor and G-protein components in S. pombe. We selected the human neurokinin NK2 receptor together with its G-protein-signalling partner Gq for this study. Yeast membrane fractions showed high levels of NK2 receptor-binding activity (1159 +/- 534 (n = 3) fmol/mg protein) although initial experiments with intact cells revealed an absence of receptors at the cell surface. Using a construct comprising the NK2 coding sequence fused with the signal sequence from an endogenous phosphatase (phoI), we detected approximately 400 NK2 receptors/cell in unbroken yeast. Successful co-expression of the NK2 receptor with the G-protein subunits G alpha q, beta 1 or beta 2 and gamma 3 failed to modulate agonist binding, suggesting the absence of functional interaction between these components. As an alternative test of G alpha q function, we next expressed its downstream effector target phospholipase C-beta 1 (PLC beta 1) in S. pombe. Although PLC beta 1 undergoes powerful in vitro activation by G alpha q derived from baculovirus-infected Sf9 cells and mammalian cells, G alpha q expressed in S. pombe is totally ineffective. Similar results were also achieved with the G-protein subunit G alpha 16. Together, these data suggest that seven-transmembrane receptors can be expressed in S. pombe at high levels and directed to the cell surface although their interaction with co-expressed G-proteins in undetectable. Production of inactive G alpha-chains in S. pombe may account for these observations.
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PMID:Co-expression of the neurokinin NK2 receptor and G-protein components in the fission yeast Schizosaccharomyces pombe. 749 95

Even though the same Cl channel (CFTR) is common to certain fluid transport functions that are oppositely directed, i.e., secretion and absorption, only fluid secretion has clearly been shown to be acutely regulated. It is now clear that fluid secretion activated by beta-adrenergic stimulation is controlled by cAMP-mediated opening and closing of CFTR-Cl channels. Since the conductance of the human sweat duct is almost wholly due to CFTR-Cl conductance (CFTR-GCl), we sought to determine whether salt absorption via CFTR-Cl channels could also be subject to acute regulation in this purely absorptive epithelium. After alpha-toxin permeabilization, we found that addition of cAMP resulted in a large increase in Cl diffusion potentials across the apical membrane and a more than twofold increase in the average membrane conductance. Since the cAMP effects were dependent on Cl alone, not on Na, and since apical Cl conductance appears to be almost exclusively comprised of CFTR-GCl, we surmise that this form of electrolyte absorption like secretion is also subject to acute control through CFTR-GCl. Acute regulation of absorption involves both activation by phosphorylation (PKA) and inactivation by dephosphorylation (unknown endogenous phosphatase) of CFTR. Phosphorylation of CFTR was shown by the facts that CFTR-GCl could be activated by cAMP and inhibited by the kinase antagonist staurosporine, or by removal of either substrate ATP or Mg2+ cofactor. Inactivation of CFTR-GCl by endogenous phosphatase(s) was indicated by a spontaneous but reversible loss of CFTR-GCl upon removal of cAMP. Such loss of CFTR-GCl activity could be prevented either by application of phosphatase inhibitors or by using phosphatase-resistant ATP-gamma-S as substrate to phosphorylate CFTR. We surmise that absorptive function is subject to rapid regulation which can be switched "on" and "off" acutely by a control system that is common to both absorptive and secretory processes and that this control is crucial to switching between conductive and nonconductive transport mechanisms during salt absorption.
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PMID:Rapid regulation of electrolyte absorption in sweat duct. 751 79

Insulin causes the activation of phosphatidylinositol 3-kinase (PI 3-kinase) through complexation of tyrosine-phosphorylated YMXM motifs on insulin receptor substrate 1 with the Src homology 2 domains of PI 3-kinase. Previous studies with inhibitors have indicated that activation of PI 3-kinase is necessary for the stimulation of glucose transport in adipocytes. Here, we investigate whether this activation is sufficient for this effect. Short peptides containing two tyrosine-phosphorylated or thiophosphorylated YMXM motifs potently activated PI 3-kinase in the cytosol from 3T3-L1 adipocytes. Introduction of the phosphatase-resistant thiophosphorylated peptide into 3T3-L1 adipocytes through permeabilization with Staphylococcus aureus alpha-toxin stimulated PI 3-kinase as strongly as insulin. However, under the same conditions the peptide increased glucose transport into the permeabilized cells only 20% as well as insulin. Determination of the distribution of the glucose transporter isotype GLUT4 by confocal immunofluorescence showed that GLUT4 translocation to the plasma membrane can account for the effect of the peptide. These results suggest that one or more other insulin-triggered signaling pathways, besides the PI 3-kinase one, participate in the stimulation of glucose transport.
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PMID:Effect of the activation of phosphatidylinositol 3-kinase by a thiophosphotyrosine peptide on glucose transport in 3T3-L1 adipocytes. 759 91

Abscisic acid (ABA) affects a number of ion transport mechanisms in guard cells. One effect of ABA is to inhibit inward K+ channels, an effect that can contribute to the inhibition of stomatal opening. One model of the signal transduction cascade mediating this response involves ABA-activation of a G-protein, which in turn activates phospholipase C, resulting in production of inositol 1,4,5-trisphosphate (IP3), elevation of cytosolic free Ca2+ levels (Cai), and activation of a Ca(2+)-dependent phosphatase (protein phosphatase 2B; PP2B) which mediates channel inhibition. A review of the literature reveals that several of the links in this putative signal transduction chain have been established. The G-protein activator, GTP gamma S, inhibits inward K+ currents. Exogenous IP3 inhibits inward K+ currents. Exogenous IP3 elevates Cai. Elevated Cai inhibits inward K+ currents, and the inhibition by ABA of inward K+ currents does require Ca2+. Exogenous PP2B inhibits inward K+ currents, and an endogenous Ca(2+)-dependent phosphatase activity is present in guard cells. However, significant gaps in the chain remain. There is no direct evidence that ABA activates a G-protein. The presence or absence of a G-protein-activated phospholipase C in guard cells has not been investigated. Elevation of Cai by ABA is variable, and the reasons for this variability remain to be established. It is not known whether or not activation of a guard-cell PP2B homolog is the exclusive mechanism by which Ca2+ inhibits the channels.
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PMID:Inhibition of guard-cell inward K+ channels by abscisic acid: links and gaps in the signal transduction chain. 759 43

Pretreatment of alpha-toxin-permeabilized smooth muscle with ATP gamma S (adenosine 5'-O-(thiotriphosphate)) under conditions resulting in minimal (< 1%) thiophosphorylation of the myosin light chain increases the subsequent calcium sensitivity of force output and myosin light chain phosphorylation. The change in calcium sensitivity results at least in part from a 5-fold decrease in myosin light chain phosphatase activity. One of the few proteins thiophosphorylated under these conditions is the 130-kDa subunit of myosin light chain phosphatase. These results suggest that thiophosphorylation of this subunit leads to a decrease in the activity of the phosphatase, and that phosphorylation and dephosphorylation of the subunit may play a role in regulating myosin light chain phosphatase activity.
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PMID:Thiophosphorylation of the 130-kDa subunit is associated with a decreased activity of myosin light chain phosphatase in alpha-toxin-permeabilized smooth muscle. 762 33

Phospholipase A2 (PLA2) is a key enzyme in the release of arachidonic acid and subsequent production of eicosanoids, which play an important role in a variety of biological processes, including mitogenic signalling by epidermal growth factor (EGF). In a previous study [Spaargaren, M. et al. (1992) Biochem J. 287, 37-43] we identified the EGF-activated PLA2 as being similar to the recently cloned high-molecular-mass cytosolic phospholipase A2 (cPLA2). In the present study we demonstrate a rapid transient EGF-induced activation of this cPLA2 and an EGF-induced increase in phosphorylation of the cPLA2. The EGF-induced activation of cPLA2 is reversed upon phosphatase treatment showing phosphorylation-dependent activation of the cPLA2. No direct association of the cPLA2 to the EGF receptor was detected under conditions where such an association with phospholipase C-gamma was demonstrated. Phosphoamino acid analysis of this cPLA2 showed that EGF induced an increase in serine phosphorylation exclusively, no tyrosine phosphorylation being observed. EGF treatment of the cells resulted in a Ca(2+)-dependent translocation of the cPLA2 from the cytosol to the membrane fraction. This is due to an EGF-induced [Ca2+]i rise which is dependent on the influx of extracellular Ca2+ via voltage-independent Ca2+ channels. It is shown that the Ca(2+)-dependent association of cPLA2 to membranes does not require accessory membrane molecules.
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PMID:Epidermal growth factor (EGF) induces serine phosphorylation-dependent activation and calcium-dependent translocation of the cytosolic phospholipase A2. 764 58

1. The intracellular phosphorylation of bicuculline- and baclofen-insensitive GABAC receptors was investigated in rat retinal bipolar cells. The cells were recorded in organotypic slice cultures by using the whole-cell configuration of the patch-clamp technique. 2. Peak GABA responses recorded in the presence of bicuculline decreased with repetitive GABA applications. Intracellular application of the phorbol ester, phorbol 12-myristate, 13-acetate (PMA) increased this run-down, whilst it was prevented by both tamoxifen and phosphatase. 3. Perfusing the cells extracellularly with L-AP4, trans-(+/-)-1-amino-1,3-cyclopentane dicarboxylate (ACPD) or alpha-methyl serotonin accelerated the run-down of GABAC responses. 4. Modulation of GABAC responses could be induced by intracellular application of GTP gamma S, indicating involvement of G-proteins in the transduction cascade. 5. These results suggest that retinal GABAC receptors in bipolar cells are modulated by protein kinase C. Receptors which stimulate phospholipase C, presumably via Gi or Go, such as some of the metabotropic glutamate receptors or the 5-HT2 receptor, appear to be linked to this regulatory pathway.
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PMID:Modulation of GABAC receptors in rat retinal bipolar cells by protein kinase C. 773 28

The transforming protein of mouse polyomavirus, the mouse middle T antigen (MomT), and its counterpart in the hamster polyomavirus, the hamster middle T antigen (HamT), interact with a number of cellular proteins. Among these are members of the Src family of tyrosine kinases, the phosphatidylinositol 3-kinase, the serine/threonine phosphatase PP2A and the adaptor protein Shc (in the case of MomT). However, both the relative affinity of these antigens for the members of the Src family and the tumor profile induced by their respective viruses are quite distinct. Particularly noteworthy are the preferential binding of Fyn by HamT and the induction of lymphoid malignancies by the hamster polyomavirus. Here we report that, when expressed in fibroblasts, HamT also associated with phospholipase C gamma (PLC gamma), which led to an increased intracellular concentration of inositol-1, 4, 5-trisphosphate. We also show that expression of HamT in the mouse T cell line EL4 was sufficient to induce transcription from interleukin-2 (IL-2), NFAT and NF kappa B reporter constructs. The immunosuppressant FK506 as well as dominant negative alleles of Ras and Raf inhibited HamT-induced IL-2 transcription. This, together with the observation of NFAT responses, suggests that the action of HamT depended at least in part on the integrity of signal transduction pathways elicited by activated PLC gamma. Furthermore, dominant negative Fyn but not the equivalent allele of Lck blocked HamT activation of IL-2 transcription, while both Lck and Fyn dominant negative alleles blocked LT cell receptor-mediated IL-2 transcriptional activation. These results support the hypothesis that Fyn is involved in signal transduction events leading to IL-2 transcriptional activation in T cells. Finally, the activation of IL-2 transcription by HamT and not by MomT shown here parallels the ability of the hamster polyomavirus to induce lymphoid malignancies.
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PMID:Induction of interleukin-2 transcription by the hamster polyomavirus middle T antigen: a role for Fyn in T cell signal transduction. 787

Interleukin 4 (IL-4) diminishes cytokine activation of human macrophage. IL-4 binding to monocyte IL-4R is associated with protein kinase C (PKC) translocation to a nuclear fraction. The cleavage of diacyglycerol (DAG), an activator of PKC, from membrane phospholipids was investigated to define the proximal events of IL-4R signaling. IL-4 induced a statistically significant time-and dose-dependent generation of DAG. The IL-4-triggered production of DAG was not derived from phosphatidylinositol 4,5-bisphosphate (PIP2) hydrolysis, since neither cytosolic calcium flux nor liberation of inositol phosphates was detected in response to IL-4. Experiments were performed using [14C-methyl]choline-labeled U937 cells and monocytes to determine whether IL-4R activated phospholipase C (PLC), PLD, or PLA2 to use membrane phosphatidylcholine (PC) to form DAG. IL-4 induced a time- and dose-dependent increase of phosphocholine (pchol) with concomitant degradation of membrane PC (p < 0.05 compared with control). The finding that the peak reduction of PC was equivalent to peak production of pchol suggested that IL-4R signaling involved the activation of a PC-specific PLC. Changes in choline (chol) or lyso-PC and glycerolphosphocholine, the respective products of PC cleavage by PLD or PLA2, were not detected in IL-4-treated cells. In contrast, exogenous PLD induced an increase in chol and concomitant loss of membrane PC. Additional investigation suggested that IL-4R signaling does not involve PLD. In cells labeled with L-lyso-3-PC 1-[1-14C]palmitoyl, PLD but not IL-4, increased the production of phosphatidic acid (PA) and phosphatidyl-ethanol when pretreated with ethanol. Propranolol, an inhibitor of phosphatidate phosphohydrolase, and calyculin A, a phosphatase 1 and 2A inhibitor, blocked DAG production in response to FMLP but not to IL-4. In propranolol pretreated cells, PMA but not IL-4 triggered the production of PA and lowered the amount of DAG. Evidence that PLA2 is not coupled to IL-4R is the detection of arachidonate production in response to FMLP but not to IL-4. Furthermore, IL-4R is not coupled to sphingomyelinase (SMase) since IL-4, unlike exogenous SMase, did not generate ceramide but induced the hydrolysis of PC to pchol that was comparable to exogenous PLC. In summary, IL-4R signaling in monocytes and U937 cells involves PLC and not PLD, PLA2, or SMase, and it uses PC and not PIP2 to form DAG.
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PMID:Interleukin 4 receptor signaling in human monocytes and U937 cells involves the activation of a phosphatidylcholine-specific phospholipase C: a comparison with chemotactic peptide, FMLP, phospholipase D, and sphingomyelinase. 793 Oct 78

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