Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Activation of resting human CD4+ T cells mediated by mAb ligation of the TCR/CD3 complex requires costimulatory signals to result in proliferation; these can be provided by intercellular cell adhesion molecule-1 (ICAM-1, CD54) a natural ligand of leukocyte function-associated Ag-1 (LFA-1, CD11a/CD18). We analyzed early signaling events involved in T cell activation to determine the contribution by the LFA-1/ICAM-1 interaction. We studied in detail the hydrolysis of phosphatidylinositol(4,5)bisphosphate and intracellular levels of free Ca2+ during stimulation with beads coated with the CD3 mAb OKT3 alone or in combination with purified ICAM-1 protein. Our investigations show no response to LFA-1/ICAM-1 alone, but that costimulation by LFA-1/CAM-1 interaction induces prolonged inositol phospholipid hydrolysis (up to 4 h), resulting in generation of both inositol(1,4,5)phosphate3 and inositol(1,3,4,5)phosphate4 and their derivatives. Based on studies with cycloheximide, this costimulatory effect of prolonged inositol phospholipid hydrolysis appears dependent in part on de novo protein synthesis. A sustained increase in intracellular levels of free Ca2+ level is also observed after LFA-1/ICAM-1 costimulation, which is at least partly dependent on extracellular sources of Ca2+. Kinetic studies indicate that costimulation requires a minimal period of 4 h of LFA-1/ICAM-1 interaction to provide maximal costimulation for OKT3-mediated T cell proliferation. Thus, the necessary costimulation required for OKT3-mediated proliferation in this model system may be provided by an extended LFA-1/ICAM-1 interaction that in combination with OKT3 mAb leads to signal-transducing events, resulting in prolonged phospholipase C activation and phosphatidylinositol(4,5)bisphosphate hydrolysis, and a sustained increase in intracellular levels of free Ca2+.
J Immunol 1992 Dec 15
PMID:Costimulation of T cell receptor/CD3-mediated activation of resting human CD4+ T cells by leukocyte function-associated antigen-1 ligand intercellular cell adhesion molecule-1 involves prolonged inositol phospholipid hydrolysis and sustained increase of intracellular Ca2+ levels. 136 Sep 95

The inner medullary collecting duct is a complex tissue that exhibits a variety of hormone signaling systems. These include the following: adenylyl cyclase activity stimulated by vasopressin (AVP), beta-adrenergic agonists, or prostanoids and inhibited by alpha 2-adrenergic agents or adenosine; guanylate cyclase activity in response to atrial natriuretic peptide (ANP); phospholipase C activity stimulated by ANP, AVP, bradykinin, endothelin, epidermal growth factor (EGF), and muscarinic cholinergic agents; and phospholipase A2 activity stimulated by AVP, bradykinin, EGF, and endothelin. The signal transduction mechanisms for each of these hormone signaling systems is succinctly reviewed, and the interactions between different signaling pathways are discussed. Central to this interaction is the mutually inhibitory relationship between activation of adenylyl cyclase and phospholipases. Increasing cellular adenosine 3',5'-cyclic monophosphate content impairs activation of phospholipases A2 and C; conversely, stimulation of phospholipase C impairs AVP-stimulated adenylyl cyclase activity via activation of protein kinase C.
Am J Physiol 1992 Dec
PMID:Hormone signaling systems in inner medullary collecting ducts. 136 28

Glycosyl phosphatidylinositol-specific phospholipase C (GPI-PLC) from Trypanosoma brucei cleaves the glycosyl phosphatidylinositol (GPI) anchor of the trypanosome variant surface glycoprotein (VSG) and other GPI structures. We have expressed this enzyme in Escherichia coli, using a protocol designed to produce the native enzyme rather than a fusion protein. We have purified large amounts of GPI-PLC from E. coli membranes, using a single step immunoaffinity technique. The expressed enzyme is identical to its trypanosome counterpart in enzymatic specificity, mobility on SDS-PAGE, and isoelectric point. Recombinant GPI-PLC is a membrane enzyme; it associates with E. coli membranes and, like the T. brucei GPI-PLC, partitions into the detergent phase in Triton X-114 phase separation experiments. The Michaelis constants for the two enzymes are similar (400 nM, with VSG as substrate). The turnover number (kcat, 72 min-1) of the recombinant enzyme (expressed from a. T. brucei rhodesiense WRATat 1.1 cDNA) is about one-tenth that of GPI-PLC from T. brucei brucei (ILTat 1.3).
Mol Biochem Parasitol 1992 Dec
PMID:Glycosyl phosphatidylinositol-specific phospholipase C of Trypanosoma brucei: expression in Escherichia coli. 136 51

Although it is well-established that inositol-containing lipids serve as precursors of intracellular second messenger molecules in chromaffin cells, we describe some findings that show the formation of diacylglycerol from phosphatidylcholine in response to agonist-mediated stimulation. Stimulation of chromaffin cells by acetylcholine produced a high turnover of phosphatidylcholine, as suggested by the release of [3H]choline derived from [3H]-phosphatidylcholine in experiments performed with [3H]choline chloride-prelabeled cells. An enhanced breakdown of phosphatidylcholine was also inferred from the finding of an increased formation of [3H]diacylglycerol in chromaffin cells prelabeled with [3H]glycerol. The diacylglycerol mass that accumulated after stimulation showed a distinct temporal course and seemed to exceed the mass that has been reported to be derived from phosphatidylinositol. In keeping with the purported origin from phosphatidylcholine, diacylglycerol showed a high content in [3H]oleate molecular species. Phospholipase D activity measurements and experiments performed in the presence of propranolol (an inhibitor of phosphatidic acid:phosphohydrolase) suggested that phosphatidylcholine is hydrolyzed by a phospholipase D activity, producing phosphatidic acid, which is subsequently degraded to diacylglycerol, rather than by a phospholipase C. Incubation of chromaffin cells in the presence of atropine before addition of acetylcholine showed complete inhibition of the increased formation of [3H]-diacylglycerol, whereas d-tubocurarine failed to do so. Taken together, these results suggest that acetylcholine activates phosphatidylcholine breakdown and diacylglycerol formation in chromaffin cells via a muscarinic-type receptor.
J Neurochem 1992 Dec
PMID:Muscarinic acetylcholine receptor enhances phosphatidylcholine hydrolysis via phospholipase D in bovine chromaffin cells in culture. 847 14

We have used a dominant inhibitory ras mutant (Ha-ras Asn-17) to investigate the relationship of Ras proteins to hydrolysis of phosphatidylcholine (PC) in the transduction of mitogenic signals. Expression of Ha-Ras Asn-17 inhibited NIH 3T3 cell proliferation induced by polypeptide growth factors or phorbol esters. In contrast, the mitogenic activity of PC-specific phospholipase C (PC-PLC) was not inhibited by Ha-Ras Asn-17 expression. Similarly, cotransfection with a cloned PC-PLC gene bypassed the block to NIH 3T3 cell proliferation resulting from expression of the inhibitory ras mutant. Hydrolysis of PC can therefore induce cell proliferation in the absence of normal Ras activity, suggesting that PC-derived second messengers may act downstream of Ras in mitogenic signal transduction. This was substantiated by the finding that Ha-Ras Asn-17 expression inhibited growth factor-stimulated hydrolysis of PC. Taken together, these results indicate that PC hydrolysis is a target of Ras during the transduction of growth factor-initiated mitogenic signals.
Mol Cell Biol 1992 Dec
PMID:Hydrolysis of phosphatidylcholine is stimulated by Ras proteins during mitogenic signal transduction. 144 68

In the course of our investigation of phospholipase C (PLC)-gamma 1 phosphorylation by using a set of anti-PLC-gamma 1 monoclonal antibodies (P.-G. Suh, S. H. Ryu, W. C. Choi, K.-Y. Lee, and S. G. Rhee, J. Biol. Chem. 263:14497-14504, 1988), we found that some of these antibodies directly recognize a 47-kDa protein. We show here that this 47-kDa protein is identical to the SH2/SH3-containing protein Nck (J. M. Lehmann, G. Riethmuller, and J. P. Johnson, Nucleic Acids Res. 18:1048, 1990). Nck was found to be constitutively phosphorylated on serine in resting NIH 3T3 cells. Platelet-derived growth factor (PDGF) treatment led to increased Nck phosphorylation on both tyrosine and serine. Nck was also found to be phosphorylated on tyrosine in epidermal growth factor (EGF)-treated A431 cells and in v-Src-transformed NIH 3T3 cells. Multiple sites of serine phosphorylation were detected in Nck from resting cells, and no novel sites were found upon PDGF or EGF treatment. A single major tyrosine phosphorylation site was found in Nck in both PDGF- and EGF-treated cells and in v-Src-transformed cells. This same tyrosine was phosphorylated in vitro by purified PDGF and EGF receptors and also by pp60c-src. We compared the phosphorylation of Nck and PLC-gamma 1 in several cell lines transformed by oncogenes with different modes of transformation. Although PLC-gamma 1 and Nck have significant amino acid identity, particularly in their SH3 regions, and both associate with growth factor receptors in a ligand-dependent manner, they were not always phosphorylated on tyrosine in a coincident manner.
Mol Cell Biol 1992 Dec
PMID:The SH2/SH3 domain-containing protein Nck is recognized by certain anti-phospholipase C-gamma 1 monoclonal antibodies, and its phosphorylation on tyrosine is stimulated by platelet-derived growth factor and epidermal growth factor treatment. 144 8

Phospholipids accumulate within the lysosomes of various cells from individuals taking amiodarone. Studies on cultured cells suggest that inhibition of lysosomal phospholipase A1 and phospholipase A2 by amiodarone may be responsible for this derangement in phospholipid metabolism. Inhibition of lysosomal phospholipases by amiodarone has been suggested as a mechanism of its toxicity, but this relationship has not been clearly established. To examine this question, membrane phospholipids of cultured bovine pulmonary artery endothelial cells (BPAEC) were labeled with 14C-stearic acid, 3H-arachidonic acid, 14C-choline, or 14C-ethanolamine. Radiolabeled BPAEC were then exposed to various concentrations of amiodarone, and endothelial phospholipase activity was measured by isolating and quantifying various phospholipase products. These findings were compared to a standard indicator of endothelial cytotoxicity using 51Cr release. Six-hour exposures to 5 to 20 micrograms/ml amiodarone produced no BPAEC toxicity and were accompanied by some evidence of decreased phospholipid hydrolysis. At concentrations above 20 micrograms/ml, amiodarone caused significant BPAEC toxicity as indicated by 51Cr release, and this was closely associated with the liberation of substantial amounts of 3H-arachidonic acid and 14C-stearic acid from phosphatidylcholine and phosphatidylethanolamine. In BPAEC labeled with 14C-choline and 14C-ethanolamine, cytotoxic doses of amiodarone caused accumulations of 14C-phosphocholine and phosphorylethanolamine, expected products of phospholipase C, but without increases in phospholipase A products. We conclude that exposure of BPAEC to toxic concentrations of amiodarone is associated with extensive hydrolysis of phosphatidylcholine and lysophosphatidylethanolamine via a phospholipase C-specific mechanism, and suggest that this may be a mechanism in the pathogenesis of amiodarone toxicity.
J Lab Clin Med 1992 Dec
PMID:Amiodarone-induced endothelial injury is associated with phospholipase C-mediated hydrolysis of membrane phospholipids. 145 16

Recent studies indicate that viruses may influence polyphosphoinositide levels. This study has examined the effects of vaccinia virus infection on phospholipase C activity. Infection of BS-C-1 cells, an African Green Monkey kidney cell line, or A431 cells, a human carcinoma cell line, with vaccinia virus inhibits receptor-mediated phospholipase C activation. As a consequence, agonist-mediated Ca2+ mobilization in BS-C-1 cells also was inhibited by vaccinia virus infection. Alleviation of the inhibition of phospholipase C activation was observed in vaccinia virus-infected cells treated with cycloheximide without influencing uninfected cells. Treatment of infected cells with alpha-amanitin, an inhibitor of host mRNA synthesis but not virus mRNA synthesis, failed to alleviate the inhibition of phospholipase C activation. Together these results suggest that a virus-encoded gene product mediates the inhibition of phospholipase C activation without the need of a virus-induced host factor. Analysis of the processes involved in the formation of inositol (1,4,5)-trisphosphate and mobilization of intracellular Ca2+ indicate that the vaccinia virus gene product exerts its inhibitory effects at the level of phospholipase C activity. This may occur by either directly reducing the amount of phospholipase C, reducing the specific activity of phospholipase C, or by inhibiting the association of phospholipase C with its substrate, phosphatidylinositol 4,5-bisphosphate.
J Biol Chem 1992 Dec 15
PMID:Inhibition of agonist-induced activation of phospholipase C following poxvirus infection. 146 12

The availability of purified G alpha 11 and the G-protein-regulated phospholipase C from turkey erythrocytes has allowed an examination of the direct effects of G-protein beta gamma-subunit on the components of the inositol lipid signaling system. Reconstitution of purified turkey erythrocyte or bovine brain beta gamma-subunit into phospholipid vesicles containing G alpha 11 inhibited AlF4- induced activation of phospholipase C. However, beta gamma-subunit at higher concentrations increased phospholipase C activity. This stimulatory effect of beta gamma-subunit on phospholipase C did not require the presence of the alpha-subunit. G alpha o had no effect on the catalytic activity of phospholipase C. However, coreconstitution of G alpha o and beta gamma-subunit shifted to the right the concentration-effect curve for beta gamma-subunit-promoted activation of phospholipase C. As was observed with G alpha 11, the increase in activity observed in the presence of beta gamma-subunit occurred as an increase in the maximal activity and with no change in the apparent affinity for Ca2+ for phospholipase C activation. The concentration dependence of G alpha 11 for activation of turkey erythrocyte phospholipase C and bovine brain phospholipase C-beta, as well as the concentration dependence of the two enzymes for activation by G alpha 11, were very similar. In contrast, beta gamma-subunit was a much less effective activator of bovine brain phospholipase C-beta than the turkey erythrocyte enzyme. The observation of direct effects of free beta gamma-subunit on phospholipase C extend the possibilities for receptor-mediated regulation of this signaling pathway.
J Biol Chem 1992 Dec 15
PMID:Beta gamma-subunit activation of G-protein-regulated phospholipase C. 146 39

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.
J Biol Chem 1992 Dec 15
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


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