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)

We established a cell-free system in which epinephrine and other lipolytic agents stimulated lipolysis of endogenous lipid droplets from fat cells by hormone-sensitive lipase. The endogenous lipid droplets were prepared by hypotonic treatment of fat cells and their successive washing with buffer containing 0.025% Triton X-100. In the cell-free system, propranolol inhibited lipolysis induced by various lipolytic agents such as norepinephrine, theophylline and cyclic AMP (cAMP), whereas phenoxybenzamine did not inhibit lipolysis. The binding of these lipolytic agents to endogenous lipid droplets was inhibited by propranolol, but not by phenoxybenzamine. The "propranolol-sensitive" binding of these lipolytic agents to the droplets may be involved in lipolysis. Treatment of the droplets with phospholipase C, but not phospholipase D, inhibited the propranolol-sensitive binding of these lipolytic agents to the droplets. These results suggest that the phosphate group of phospholipid in the droplets may be the site of propranolol-sensitive of binding of theophylline, and cAMP in addition to norepinephrine.
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PMID:Propranolol-sensitive binding of lipolytic agents to lipid droplets from adipocytes. 165 19

Chemoattractant receptors on leukocytes initiate migratory and cytotoxic activities via GTP-binding proteins. Recent cloning of cDNA encoding the formylpeptide receptor indicates it to be a member of the class of seven membrane spanning domain receptors which couple to G proteins. Leukocyte activation by chemoattractants requires sequential metabolic pathways involving phospholipase C then phospholipase D. Interestingly, the formylpeptide receptor physically associates with both a heterotrimeric G protein and a low molecular mass GTP-binding protein. These multiple GTP-binding proteins may regulate the function of chemoattractant receptors.
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PMID:Molecular mechanisms of leukocyte activation by chemoattractants. 166 88

A phosphatidylinositol-specific phospholipase C (PI-PLC) has been isolated from bovine brain (purification factor of 5.6 x 10(4)). By sodium dodecyl sulfate-polyacrylamide gel electrophoresis, it had a Mr of 57,000. Neither amino nor neutral sugars were detected in the purified enzyme. The pH optimum was 7.0-7.5, and the activity decreased only slightly at pH 8.0. When phosphatidylinositol was used as a substrate, the optimum Ca2+ requirement was 4 mM, and Km was 260 microM. When phosphatidylinositol 4,5-bisphosphate was used, the optimum Ca2+ requirement was 10(-7) M, and the Km was reduced to 90 microM. Lipid specificity studies showed that equal amounts of inositol phosphate and diacylglycerol were released from phosphatidylinositol but 4 times as much inositol 1,4,5-trisphosphate was released from phosphatidylinositol 4,5-bisphosphate. Other lipids, phosphatidylcholine, phosphatidylethanolamine, and sphingomyelin, were not substrates. Failure to detect phosphatidic acid confirmed the absence of a phospholipase D activity in the purified enzyme. Myelin basic protein (MBP) stimulated the PI-PLC activity between 2- and 3-fold. Histone had a small effect only, whereas bovine serum albumin and cytochrome C had no effect. Phosphorylation of MBP reduced the stimulatory effect. Protein-protein interactions between MBP and PI-PLC have been demonstrated both immunologically and by sucrose density gradients. A stoichiometry of 1:1 has been suggested by the latter method. A number of peptides have been prepared by chemical, enzymatic, and synthetic methods. Peptides containing the MBP sequences consisting of residues 24-33 and 114-122 stimulated the PI-PLC but were less effective than the intact protein.
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PMID:A 57-kDa phosphatidylinositol-specific phospholipase C from bovine brain. 170 49

The role of lipid-bound second messengers in the regulation of neurotransmitter secretion is an important but poorly understood subject. Both bovine adrenal chromaffin cells and rat phoeochromocytoma (PC12) cells, two widely studied models of neuronal function, respond to bradykinin by generating phosphatidic acid (PA). This putative second messenger may be produced by two receptor-linked pathways: sequential action of phospholipase C (PLC) and diacylglycerol kinase (DAG kinase), or directly by phospholipase D (PLD). Here we show that bradykinin stimulation of chromaffin cells prelabelled (24 h) with 32Pi leads to production of [32P]PA which is not affected by 50 mM butanol. However, bradykinin stimulation of PC12 cells leads to [32P]PA formation, all of which is converted to phosphatidylbutanol in the presence of butanol. When chromaffin cells prelabelled with [3H]choline were stimulated with bradykinin there was no enhancement of formation of water soluble products of phosphatidylcholine hydrolysis. When chromaffin cells were permeabilised with pneumolysin and incubated in the presence of [gamma-32P]ATP, the formation of [32P]PA was still stimulated by bradykinin. These results show that, although both neuronal models synthesize PA in response to bradykinin, they do so by quite different routes: PLC/DAG kinase for chromaffin cells and PLD for PC12 cells. The observation that neither bradykinin nor tetradecanoyl phorbol acetate stimulate PLD in chromaffin cells suggests that these cells lack PLD activity. The conservation of PA formation, albeit by different routes, may indicate an essential role of PA in the regulation of cellular events by bradykinin.
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PMID:Lack of phospholipase D activity in chromaffin cells: bradykinin-stimulated phosphatidic acid formation involves phospholipase C in chromaffin cells but phospholipase D in PC12 cells. 171 14

Our recent studies have demonstrated the presence in neonatal islet cells and intact adult islets of a phosphatidylcholine-directed phospholipase D (PLD) which is activated after phorbol ester stimulation. The present study describes PLD activation in the presence of a carbohydrate insulin secretagogue. At the highest concentration tested (20 mM) the triose, glyceraldehyde, induced formation of phosphatidic acid in cells prelabeled with [14C]arachidonic acid or [3H]myristic acid (164 +/- 7 and 210 +/- 9% of basal phosphatidic acid values, respectively). Experimental confirmation of a concentration-dependent specific activation of PLD was provided by the formation of a transphosphatidylation product, phosphatidylethanol, after stimulation with glyceraldehyde in the presence of added ethanol (1.5%). Additionally, there was an early (within 5 min) rise in [14C]arachidonate-labeled diacylglycerol (139 +/- 7% of basal) accompanied by an increase in intracellular diacylglycerol mass (51 +/- 2 pmol/mg protein) and an increase in membrane-associated protein kinase C activity (183 +/- 5% of basal) which preceded the activation of PLD, as indicated by the time course of glyceraldehyde-stimulated phosphatidylethanol formation in the presence of ethanol. Pretreatment of islet cells with 2 microM 12-O-tetradecanoylphorbol-13-acetate for 18 h, to down-regulate protein kinase C, was without effect on diacylglycerol and phosphatidic acid production after 5 min but inhibited completely the production of phosphatidylethanol at 30 min. The phosphohydrolase inhibitor propranolol (100 microM) potentiated the accumulation of phosphatidic acid and phosphatidylethanol incubation following incubation with glyceraldehyde. These findings demonstrate for the first time that a physiological nutrient activates a phospholipase directed against endogenous phosphatidylcholine in intact islet cells; furthermore, they indicate a role for PLD in a delayed formation of phosphatidic acid in the islet cell. The finding of an early rise in glyceraldehyde-stimulated diacylglycerol (which may be formed de novo or by the action of phospholipase C), suggests that PLD is recruited by the activation of protein kinase C by this nutrient.
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PMID:Activation of phospholipase D by glyceraldehyde in isolated islet cells follows protein kinase C activation. 172 27

Complement receptor (CR)-mediated phagocytosis is associated with an increased accumulation of diglyceride (sn-1,2-diacylglycerol and/or 1-O-alkyl-2-acyl-glycerol) in human neutrophils. The C3bi-mediated increase in diglyceride (5-20 min) was only partially impaired when phosphoinositide-specific phospholipase C (PLC) activity was abolished by reduction of cytosolic free Ca2+. At an early time point (1 min), however, diglyceride production was barely detectable in control cells, whereas production was considerable in cells with a reduced cytosolic free Ca2+ concentration. C3bi stimulation of 32P-labeled neutrophils caused a rapid and significant breakdown of [32P]phosphatidylcholine (PC) which was not affected by inhibition of Ca(2+)-dependent phosphoinositide-specific PLC. Thus, PC hydrolysis could be involved in C3bi-induced diglyceride formation. Stimulation of cells labeled with [3H]1-O-alkyl-lyso-PC ([3H]alkyl-lyso-PC), resulted in an increased formation of [3H]1-O-alkyl-phosphatidic acid ([3H]alkyl-PA) and a later and slower formation of [3H]1-O-alkyl-diglyceride ([3H]alkyl-diglyceride); this suggests activation of phospholipase D (PLD). When these labeled cells were stimulated in the presence of 0.5% ethanol a marked accumulation of [3H]1-O-alkyl-phosphatidylethanol ([3H]alkyl-PEt) was observed in both controls and calcium-reduced cells, further strengthening the suggested involvement of PLD activity. In parallel with the sustained increase in diglyceride formation, CR-mediated phagocytosis was also associated with phosphorylation of a cellular protein kinase C substrate (MARCKS). Therefore it seems reasonable to suggest a causal relationship between C3bi-induced PLD activation, which results in diglyceride formation, and activation of protein kinase C. In electropermeabilized cells which were incapable of ingesting particles, C3bi particles were still able to activate PLD and induce formation of diglyceride. This signaling event must therefore be triggered by binding of particles to the cell and not by the engulfment process. Most importantly, introduction of the protein kinase C inhibitor peptides, PKC(19-36) and PKC(19-31), into these permeabilized cells resulted in a clear reduction of the C3bi-induced production of diglyceride, indicating that CR-mediated activation of protein kinase C directly triggers a positive feedback mechanism for additional diglyceride formation. Taken together, these data further clarify the mechanisms of CR-mediated diglyceride formation and give added support to the concept that protein kinase C plays an important role in the phagocytic process.
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PMID:Complement receptor-mediated phagocytosis is associated with accumulation of phosphatidylcholine-derived diglyceride in human neutrophils. Involvement of phospholipase D and direct evidence for a positive feedback signal of protein kinase. 173 62

Addition of ethanol (17 to 340 mM) to cultured rat hepatocytes stimulated the breakdown of phosphatidylcholine phospholipases D and C as measured by an increase in the rate of release of choline and phosphocholine into the medium. The effects of ethanol were mimicked by propanol, dimethylsulfoxide and to a lesser extent methanol. The magnitude of the stimulation seen with ethanol was equivalent to and additive to that produced by glucagon vasopressin, norepinephrine, A23187 or PMA. In contrast, ethanol (340 mM) stimulated PI-specific phospholipase C activity by less than 20%. An equivalent stimulation of PC-specific phospholipase D and C was seen with as little as 20 mM ethanol and a 100% increase was seen with 340 mM ethanol. Ethanol did not significantly affect the ability of vasopressin, norepinephrine, ATP or A23187 to stimulate PI-specific phospholipase C. It is concluded that while ethanol is only a weak stimulator of PI-specific phospholipase C, it is a potent stimulator of phosphatidylcholine breakdown in rat hepatocytes.
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PMID:Ethanol is a potent stimulator of phosphatidylcholine breakdown in cultured rat hepatocytes. 173 64

The effect of phospholipases and proteases on the membrane-bound and solubilized A1 adenosine receptor has been studied. Phospholipids modulate the [3H]N6-(R)-phenylisopropyladenosine binding to A1 adenosine receptors in crude membranes and in soluble preparations, because changes in the phospholipid environment decrease both the binding capacity and the affinity for the ligand. It has become clear that 1) there is co-solubilization of receptor and phospholipids; 2) the phospholipid requirements are different for the coupled and the uncoupled receptor; 3) a net charge in the polar head produced by phospholipase D prevents the agonist binding to the receptor-G protein complex; alternatively, when the whole polar head is removed by phospholipase C the uncoupled receptor is altered; and 4) the protease action upon the receptor suggests that receptor coupled to G protein is more protected by the membrane than the uncoupled receptor. In kinetic experiments performed on membranes it was demonstrated that phospholipase C and trypsin increased the Kd value of the high-affinity state by modifying both k1 and k-1. In contrast they only modified the dissociation constant of the low-affinity state. In conclusion it should be noted that phospholipids play a key role for the binding of R-PIA to A1 adenosine receptor. Also, a different disposition within the membrane of the coupled and uncoupled receptor is encountered.
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PMID:Effect of phospholipases and proteases on the [3H]N6-(R)-phenylisopropyladenosine ([3H]R-PIA) binding to A1 adenosine receptors from pig cerebral cortex. 179 Nov 89

Endothelins (ETs) are a family of extremely potent vasoconstrictor peptides. In addition, ET-1 acts as a potent mitogen and activates phospholipase C in smooth muscle cells and fibroblasts. We examined the effects of ET-1 on phosphatidylcholine (PC) metabolism and thymidine incorporation in control Rat-6 fibroblasts and in cells that overexpress protein kinase C beta 1 (PKC). PC pools were labeled with [3H]myristic acid, and formation of phosphatidylethanol (PEt), an unambiguous marker of phospholipase D (PLD) activation, was monitored. ET-1 stimulated much greater PEt formation in the PKC overexpressing cells. ET-1 action was dose-dependent with a half-maximal effect at 1.0 x 10(-9) M. With increasing ethanol concentrations, [3H]PEt formation increased at the expense of [3H]phosphatidic acid (PA). Propranolol, an inhibitor of PA phosphohydrolase, increased [3H]PA accumulation and decreased [3H]diacylglycerol (DAG) formation. These data are consistent with the formation of [3H]DAG from PC by the sequential action of PLD and PA phosphohydrolase. Phorbol esters are known to stimulate thymidine incorporation and PLD activity to a greater extent in PKC overexpressing cells than in control cells. ET-1 also stimulates thymidine incorporation to a greater extent in the PKC overexpressing cells. The effect of ET-1 on thymidine incorporation into DNA in the overexpressing cells was also dose-dependent with a half-maximal effect at 0.3 x 10(-9) M. Enhanced PLD activity induced by ET-1 in the overexpressing cells may contribute to the mitogenic response, especially in light of a possible role of the PLD product, PA, in regulation of cell growth.
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PMID:Endothelin-1 activates phospholipase D and thymidine incorporation in fibroblasts overexpressing protein kinase C beta 1. 180 96

Three Carcinoembryonic Antigen (CEA) gene family members: CEA, Non-specific cross-reactive antigen 50/90 (NCA) and biliary glycoprotein (BGP) were expressed in the colon carcinoma cell lines LS174T and HT29. The CEA, NCA50/90 and four alternatively spliced BGP transcripts (BGP a-d) were identified. The molecular weights of the mature glycoproteins were: CEA, 180kD; NCA50/90, 70-100 kD; BGP, 85, 120 and 140 kD. Pulse chase experiments demonstrated that CEA first appears as a 165 kD high mannose precursor which is trimmed to a 160 kD intermediate and finally transformed into the mature 180 kD glycoprotein. The precursor form of NCA had a molecular weight of 50 kD. CEA and NCA50/90, but not BGP, were linked to the cell membrane via glycosyl phosphatidyl inositol and could be released from the intact tumor cells by glycosyl phosphatidyl inositol-specific phospholipase C. CEA on isolated membranes and in cell lysates, but not on intact cells, was also cleaved by fresh human serum or purified glycosyl phosphatidyl inositol-specific phospholipase D.
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PMID:Biosynthesis of carcinoembryonic antigen (CEA) gene family members expressed in human tumor cell lines: evidence for cleavage of the glycosyl phosphatidyl inositol (GPI) anchor by GPI-PLC and GPI-PLD. 181 6


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