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)

Studies on the phosphorylation of inositol phospholipids of rat liver membranes have shown that [gamma S]pppG stimulates 32P incorporation from [gamma-32P]ATP into PI and PIP. This effect appeared specific for stable GTP analogues and could not be reproduced by other compounds. ADP-ribosylation of the membranes with cholera toxin resulted in a large decrease of PIP2 without changes in the level of PIP. Since an activation of phospholipase C can be ruled out, the lowering of PIP2 is explained on the basis of an inhibition of PIP kinase (EC 2.7.1.68). From these results it appears that a novel cholera-toxin-sensitive G-protein is involved in the regulation of PIP kinase.
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PMID:Evidence for a cholera-toxin-sensitive G-protein involved in the regulation of phosphatidylinositol 4-phosphate kinase of rat liver membranes. 284 7

In human placenta membranes the rate limiting enzyme for PIP2 formation from PI is PIP kinase. GTP gamma S is shown to activate PIP kinase by increasing Vmax of the enzyme. It is suggested that a guanine nucleotide regulatory protein is involved in the activation of PIP kinase although coupling with a specific receptor is not yet known. Since PIP2 is the preferred substrate of phospholipase C, the possibility exists that an increase of PIP2 due to activation of PIP kinase leads to an enhancement of phospholipase C activity and hence to an increased production of IP3 and DAG.
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PMID:Stimulation of phosphatidylinositol 4-phosphate phosphorylation in human placenta membranes by GTP gamma S. 302 33

For studies of phospholipase C (PLC) activity in cell-free systems, 32P-labelled phosphatidylinositol 4,5-bisphosphate (PIP2) was prepared enzymatically by phosphorylating phosphatidylinositol 4-phosphate (PIP) in the presence of [gamma-32P]ATP using a PIP kinase partially purified from bovine retinae. PLC activity was determined by incubating membranes of DDT1 MF-2 cells with 32P-PIP2 and measuring remaining non-hydrolyzed substrate as well as accumulation of the hydrolysis product, inositol trisphosphate (IP3). Guanine nucleotides stimulated PIP2 hydrolysis and IP3 release. Additional increase in IP3 accumulation was observed with adrenaline plus guanine nucleotides.
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PMID:In vitro synthesis of 32P-labelled phosphatidylinositol 4,5-bisphosphate and its hydrolysis by smooth muscle membrane-bound phospholipase C. 303 39

Activities of three kinases, phosphatidylinositol (PI), phosphatidylinositol 4-phosphate (PIP), and diacylglycerol (DG) kinases, and phospholipase C were measured in erythrocyte ghosts from spontaneously hypertensive rats (SHR) and normotensive Wistar Kyoto rats (WKY). PI kinase activity was significantly higher in SHR than WKY but there was no significant difference in PIP kinase activity between SHR and WKY. The activity of phospholipase C, which hydrolyzes PIP2, was also increased in SHR. However, DG kinase activity was, on the contrary, decreased in SHR. These results suggest that there is a tendency to accumulate DG in SHR. Indeed, DG content in erythrocytes of SHR increased 1.7-fold compared to that of WKY. Such DG accumulation may cause the sustained activation of protein kinase C in SHR, since DG is a physiological activator for protein kinase C.
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PMID:Phospholipase C activation and diacylglycerol kinase inactivation lead to an increase in diacylglycerol content in spontaneously hypertensive rat. 304

Addition of the guanine nucleotide analogue guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) to [3H]inositol-labeled NRK cell homogenates resulted in rapid breakdown of cellular polyphosphoinositides. GTP gamma S stimulated phospholipase C, resulting in a more than 4-fold increase in the hydrolysis rates of phosphatidylinositol 4-phosphate (PIP) and phosphatidylinositol 4,5-bis(phosphate) (PIP2). No significant effect of GTP gamma S on direct phosphatidylinositol (PI) hydrolysis was detected. There was an increase in water-soluble inositols, with inositol tris(phosphate) (IP3) levels increasing at least 10 times over the decrease seen in PIP2, indicating that PIP kinase activity was also accelerated following GTP gamma S addition. Inositol 1,4,5-tris(phosphate) peaked rapidly after GTP gamma S addition (less than 2 min) while inositol 1,3,4-tris-(phosphate) was produced more slowly and leveled off after approximately 10 min. The differential equations describing conversion between intermediates in the PI turnover pathway were solved and fitted to data obtained from both [3H]inositol and [32P]phosphate fluxes by nonlinear least-squares analysis. GTP gamma S effects on the pseudo-first-order rate constants for the lipase, kinase, and phosphatase steps were determined from the analysis. From these measurements it can be estimated that, in the presence of GTP gamma S and calcium buffered to 130 nM, hydrolysis of PIP2 accounts for at least 10 times as much diacylglycerol as direct PI breakdown despite the 100-fold excess of PI over PIP2. From the kinetic model it is predicted that small changes in the activities of PI and PIP kinases can have large but different effects on the level of IP3 and diacylglycerol following GTP gamma S addition. These results argue that regulation of PI and PIP kinases may be important for determining both cellular IP3 and diacylglycerol levels.
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PMID:Kinetic analysis of guanosine 5'-O-(3-thiotriphosphate) effects on phosphatidylinositol turnover in NRK cell homogenates. 354 23

Regulated fusion of secretory granules with the plasma membrane in secretory cells requires ATP, Ca2+ and cytosolic as well as membrane proteins. ATP-dependent steps in Ca(2+)-activated secretion from PC12 cells require three cytosolic PEP proteins (priming in exocytosis proteins, PEP1-3), the identity of which will provide insights into the required ATP-using reactions. PEP3 was recently identified as phosphatidylinositol transfer protein (PtdInsTP), and here we report that PEP1 consists of the type I phosphatidylinositol-4-phosphate 5-kinase (PtdInsP5K). The roles of PEP3/PtdInsTP and PEP1/PtdInsP5K in sequential phosphoinositide recruitment and phosphorylation explains their synergistic activity in ATP-dependent priming. Moreover, inhibition of Ca(2+)-activated secretion by PtdIns(4,5)P2-specific antibodies and phospholipase C implies that 5-phosphorylated inositides play a novel, necessary role in the regulated secretory pathway. The results indicate that lipid kinase-mediated phosphorylation is an important basis for ATP use in the exocytotic pathway.
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PMID:ATP-dependent inositide phosphorylation required for Ca(2+)-activated secretion. 787 90

Phosphatidylinositol 4-kinase (PI 4-kinase) and phosphatidylinositol 4-phosphate kinase (PIP kinase) were assayed in membranes prepared from samples of human frontal cortex initially frozen at autopsy. PI 4-kinase activity was significantly lower in Alzheimer's disease patients relative to age-matched controls or patients with Parkinson's disease. PIP kinase was not different in Alzheimer's versus age-matched controls. The beta amyloid protein fragment 1-40 inhibited PI 4-kinase activity in assays of control human or rat cortical membranes. Fragments 1-28 and 25-35 could not mimic the effects of fragment 1-40 while a reverse peptide 40-1 was equipotent. The inhibition of PI 4-kinase by fragment 1-40 was competitive with substrate. The beta amyloid protein fragments had diverse effects on phosphoinositide-specific phospholipase C (PI-PLC) as assayed in rat cortical membranes. Low concentrations of fragment 1-40 stimulated, while high concentrations of 1-40 or 40-1 inhibited PI-PLC activity. Fragment 25-35 stimulated PI-PLC nearly 3-fold, while fragment 1-28 had only minor effects on the enzyme. The results suggest alterations in phosphoinositide metabolism in Alzheimer's disease which could affect signal transduction and/or cytoskeletal organization.
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PMID:Effects of Alzheimer's disease-related beta amyloid protein fragments on enzymes metabolizing phosphoinositides in brain. 798 26

Extracellular matrix (ECM) molecules, such as fibronectin (FN), regulate fibroblast sensitivity to soluble growth factors, in part, by controlling cellular levels of phosphatidylinositol bis-phosphate (PIP2), the substrate for phospholipase C-gamma (McNamee et al., 1993, J. Cell Biol. 121, 673-678). In the present study, we extended these investigations by exploring whether cells of the vascular wall also exhibit this response and analyzing the mechanism by which adhesion to ECM regulates intracellular PIP2 mass. Capillary endothelial cells, pulmonary vascular smooth muscle cells, and C3H 101/2 fibroblasts were all found to exhibit a similar two- to threefold increase in PIP2 mass within 3 h after binding to dishes coated with FN. Furthermore, similar effects were observed using dishes coated with a variety of different ECM molecules, including collagen types I and IV as well as a synthetic RGD-containing peptide. An increase in PIP2 mass also was produced when suspended cells bound to microbeads (4.5 micron diameter; coated with RGD-peptide or anti-integrin beta 1 antibody) that induce local integrin clustering and focal adhesion formation, independently of cell spreading. In contrast, neither binding of soluble FN nor binding of microbeads coated with ligands for other transmembrane surface receptors (e.g., acetylated low-density lipoprotein, antibodies against heparan sulfate) had any effect on PIP2 mass. While these results suggest that integrin clustering stimulates PIP2 synthesis, no change in total cellular or cytoskeletal-associated phosphatidylinositol-4-phosphate kinase (PIP kinase) activity could be detected when cells bound to immobilized integrin ligands. However, when focal adhesion complexes were isolated from these cells using a magnetic procedure (G. Plopper and D. E. Ingber, 1993, Biochem. Biophys. Res. Commun. 193, 571-578), this subfraction of the cytoskeleton was found to be enriched for PIP kinase activity by more than twofold relative to the whole cytoskeleton. These data suggest that ECM binding may increase PIP2 mass in vascular cells by clustering cell surface integrin receptors and activating cytoskeletal-associated PIP kinases locally within the focal adhesion complex.
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PMID:Integrin-dependent control of inositol lipid synthesis in vascular endothelial cells and smooth muscle cells. 861 75

The purpose of this study was to elucidate the behavior of signal transduction activity in rat and human carcinoma cells. Signal transduction activity was measured by the steady-state activity of the three enzymes involved in the conversion of 1-phosphatidylinositol (PI) to IP3, PI 4-kinase, PI 4-phosphate 5-kinase, and phospholipase C activities were measured by our methods. The results indicate that the steady-state activities of the three signal transduction enzymes and the end-product, IP3, were up-regulated in a transformation- and progression-linked fashion. In rat liver PI kinase, PIP kinase and PLC activities were 0.4, O.04, and 800 nmol/hour/mg protein, respectively. PI and PIP kinase and PLC activities were increased 2- to 8-fold in five rat hepatomas and 29-, 45-, and 4-fold, respectively, in rapidly growing hepatoma 3924A. PI and PIP kinase activities as compared to normal ovary were elevated in human ovarian epithelial carcinomas (4- and 3-fold) and in OVCAR-5 cells in culture (31- and 11-fold). Compared to normal breast parenchymal cells, PI and PIP kinase activities were increased in human breast carcinoma cells (96- and 16-fold). When breast carcinoma cells were plated and expressed their neoplastic proliferative program. IP3 concentration increased 20-fold in early log phase: PI and PIP kinase activities increased 11-fold in mid log phase: PLC activity did not change throughout. PI and PIP kinase activities in bone marrow had short half-lives (t1/2 = 8 minutes) but PLC had a long one (t1/2 > 6 hours). The elevated signal transduction activity was down-regulated by the anti-cancer drug, tiazofurin, and also by quercetin, an inhibitor of PI kinase. The addition of these drugs to cultured carcinoma cells reduced the IP3 concentration, and the cells were killed. These integrated studies are the first showing that signal transduction activity is stringently linked with transformation and progression in rat and human solid tumors and carcinoma cells. Down-regulation (by tiazofurin) or inhibition of PI and PIP kinase activities (by quercetin) in human carcinoma cells led to a marked reduction of IP3 concentration and to cell death. Tiazofurin and quercetin may be useful in the treatment of carcinomas with increased signal transduction capacity.
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PMID:Increased signal transduction activity and down-regulation in human cancer cells. 904

The metabolism of phosphatidylinositol-4,5-bisphosphate (PIP2) changed during the culture period of the thermoacidophilic red alga Galdieria sulphuraria. Seven days after inoculation, the amount of PIP2 in the cells was 910 +/- 100 pmol g-1 fresh weight; by 12 d, PIP2 levels increased to 1200 +/- 150 pmol g-1 fresh weight. In vitro assays indicated that phosphatidylinositol monophosphate (PIP) kinase specific activity increased from 75 to 230 pmol min-1 mg-1 protein between d 7 and 12. When G. sulphuraria cells were osmostimulated, transient increases of up to 4-fold could be observed in inositol-1,4,5-trisphosphate (IP3) levels within 90 s, regardless of the age of the cells. In d-12 cells, the increase in IP3 was preceded by a transient increase of up to 5-fold in specific PIP kinase activity, whereas no such increase was detected after osmostimulation of d-7 cells. The increase in PIP kinase activity before IP3 signaling in d-12 cells indicates that there is an additional pathway for regulation of phosphoinositide metabolism after stimulation other than an initial activation of phospholipase C. Also, the rapid activation of PIP2 biosynthesis in cells with already-high PIP2 levels suggests that the PIP2 present was not available for signal transduction. By comparing the response of the cells at d 7 and 12, we have identified two potentially distinct pools of PIP2.
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PMID:Changes in phosphoinositide metabolism with days in culture affect signal transduction pathways in galdieria sulphuraria 1019 92

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