EC:3.1.4.3 - FACTA Search

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)

The possible effects of phospholipase A and phospholipase C on the rate of uridine incorporation into RNA in mammary gland explants of mice were tested. Phospholipase C had no effect on the rate of uridine incorporation, but it did suppress the action of prolactin on this metabolic parameter. In contrast, phospholipase A was found to stimulate the rate of uridine incorporation into RNA in a manner similar to that of prolactin. The time-courses for the onset of the prolactin and phospholipase A effects were the same. Also, the phospholipase A effect was nonadditive to the effect produced by a maximally stimulatory concentration of prolactin. Finally it was observed that, like the prolactin effect, the phospholipase A effect was abolished by incubation with dibutyryl cyclic AMP, theophylline, quinine, indomethacin and prostaglandin E1. Further, the phospholipase A effect was nonadditive to the prolactin-like effects produced by the cyclic GMP, prostaglandin F2alpha or arachidonic acid. These data therefore suggest that prolactin and phospholipase A stimulate RNA synthesis in mammary gland explants via similar processes.
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PMID:Phospholipases and the effect of prolactin on uridine incorporation into RNA in mammary gland explants of mice. 17 86

Prostaglandin F2 alpha (PGF2 alpha) stimulates proliferation of clonal osteoblastic MC3T3-E1 cells mainly via the stimulation of phospholipase C. These cells constitutively produced and secreted insulin-like growth factor I (IGF-I). In addition, a neutralizing anti-IGF-I antibody completely abolished DNA synthesis stimulated by PGF2 alpha in MC3T3-E1 cells, suggesting that IGF-I indeed mediates the PGF2 alpha effect. However, PGF2 alpha decreased the expression of IGF-I mRNA and the secretion of immunoreactive IGF-I into the medium, whereas progression activity in the conditioned medium was not affected by PGF2 alpha. Although IGF-I alone did not stimulate DNA synthesis in MC3T3-E1 cells, when PGF2 alpha was added to the cultures, IGF-I stimulated their proliferation. Thus, PGF2 alpha may potentiate the action of IGF-I. At the same time, PGF2 alpha increased the number of high affinity binding sites (molecular mass of 130 kDa) for IGF-I in a dose-dependent manner. The increase in IGF-I-binding site number preceded the elevation of DNA synthesis by approximately 3 h. Furthermore, MC3T3-E1 cells secreted at least three species of IGF-binding proteins (IGFBPs) with molecular masses of 24, 30, and 34 kDa. In the early period of PGF2 alpha exposure, PGF2 alpha attenuated the secretion of all of these IGFBPs, whereas thereafter, it markedly increased their secretion, especially that of the 34-kDa IGFBP, suggesting a modulation of metabolism and action of IGF-I. These effects of PGF2 alpha on IGF-I receptor number and IGFBP secretion may play a role in the synergism between PGF2 alpha and IGF-I that results in the stimulation of DNA synthesis in MC3T3-E1 cells.
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PMID:Prostaglandin F2 alpha stimulates proliferation of clonal osteoblastic MC3T3-E1 cells by up-regulation of insulin-like growth factor I receptors. 165 46

Subcellular liver fractions from rats receiving a subcutaneous injection of turpentine, which causes a local inflammation, show an increased synthesis of Prostaglandin E2 and Prostaglandin F2 alpha which reaches a peak 90 minutes and 3 hours after treatment, respectively. Stimulation of phospholipase A2 activity of liver cell preparations seems to be responsible for the supply of arachidonic acid necessary to feed PG synthesis: this stimulation is accompanied by unchanged levels of diacylglycerol lipase, diacylglycerol kinase and protein kinase C activities and by an unchanged content of diacylglycerol in the liver tissue. This picture does not favour the hypothesis of an involvement of phospholipase C in the early stages after turpentine treatment. Determinations of GTP-ase activity in plasma membrane-rich liver preparations give ambiguous results, which do not allow any conclusion on the possible role of G-proteins in phospholipase A2 activation.
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PMID:Rat liver eicosanoid synthesis during turpentine-induced inflammation. 195 99

Prostaglandin F2 alpha (PGF2 alpha) stimulated the formation of inositol phosphates in a dose-dependent manner in cloned osteoblast-like MC3T3-E1 cells. This reaction was markedly inhibited dose-dependently by pertussis toxin. In the cell membranes, pertussis toxin-catalyzed ADP-ribosylation of a 40-kDa protein was significantly attenuated by pretreatment of PGF2 alpha. These results suggest that pertussis toxin-sensitive GTP-binding protein is involved in the coupling of PGF2 alpha receptor to phospholipase C in these cells.
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PMID:Involvement of pertussis toxin-sensitive GTP-binding protein in prostaglandin F2 alpha- induced phosphoinositide hydrolysis in osteoblast-like cells. 217 9

Prostaglandins are the products of cyclo-oxygenase and endoperoxide breakdown of free intracellular arachidonic acid (AA). Arachidonic acid is cleaved from membrane phospholipids by phospholipase A2 (PLA2) and phospholipase C (PLC). The human placenta is a rich source of lipocortin like PLA2 inhibitors. Human endometrium contains both PLA2 and PLC activity, and it is under research which pathway is predominant. Prostaglandin F2-alpha is derived from PLC endoperoxide, while prostaglandin E2 is formed by degradation of PG endoperoxide. Dated studies have found that prostaglandin F2-alpha was the predominant PG in the endometrium, whereas concentrations of PGE2 did not change during the cycle. In women estradiol stimulates PG synthesis from glands, and it has a role in mediating intracellular calcium in the human. Progesterone reduces the release of PGs from endometrial explants maintained in culture, while anti-progestins RU486 and ZK98734 stimulate the release of PGs from glandular cells of decidua. There seems to be a direct effect of progesterone on expression of PG synthetase, on the expression of a PG synthesis inhibitory protein, or an effect on a PLA2 activating protein. ZK98734 does not alter the metabolism of PGF2-alpha in the absence of added AA. Calmodulin also plays a role in regulating PG synthesis. Verapamil suppresses basal release of PGF2-alpha and prevents the rise in PG release caused by ZK98734. Progesterone suppresses PG synthesis in human endometrium. Colony stimulating factor- 1 (CSF-1) stimulates Ishikawa cell proliferation, acts on the hemopoietic system, and promotes the release of cytokines like interleukin-2, tumor necrosis factor (TNF), and interferons. Transforming growth factor alpha (TGF-alpha) mediates wound healing by promoting epithelial proliferation and angiogenesis and repairs desquamated endometrium. Epidermal growth factor (EGF) is present in the luminal surface of epithelial cells and myometrium but not in stromal cells. EGF p[lays a role in the proliferation of human endometrium and steroids modify this effect. INsulin-like growth factor (IGF-1) potentiates the activities of other mitogens like EGF. Basic fibroblast growth factor (bFGF) and acidic FGF (aFGF) have been detected in the uterine flushings and tissue of the guinea pig. FGF is a mediator of angiogenesis. different PGs affect vascular contractility, hemostasis, and myometrial contractility. PG synthesis is linked to menstrual dysfunction. The functions of growth factors and PGs may be related reflecting the autocrine and paracrine regulation of endometrial cell proliferation, a topic still under study.
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PMID:Prostaglandins and growth factors in the endometrium. 269 20

Phospholipase C activation by prostaglandins (PG) and thromboxane A2 (TxA2) was studied in cultured rat and human glomerular mesangial cells, measuring accumulation of radiolabeled inositol phosphates and cytosolic free calcium ([Ca2+]i) with the fluorescent intracellular probe fura-2. Prostaglandin F2 alpha (PGF2 alpha) and TxA2 were found to be the major eicosanoids active on this signaling pathway in rat and human cells, respectively, whereas other PG had lesser or no effects. PGF2 alpha and TxA2 rapidly induced accumulation of inositol trisphosphate accompanied by a simultaneous transient rise of [Ca2+]i, followed by sustained elevation or, in human cells, by a distinct second increase of [Ca2+]i within 45 s. A minor initial accumulation of inositol monophosphate was followed by marked elevation greater than 5 min after the early responses. Responses to different eicosanoids were mediated by separate receptors, functionally characterized using receptor antagonists or heterologous desensitization during sequential applications. Protein kinase C activation by serum and phorbol esters potently inhibited inositol phosphate accumulation and/or [Ca2+]i transients, indicating a pathway for a negative feedback on PG-evoked intracellular signals. We conclude that receptor-mediated phospholipase C activation underlies the biological effects of certain eicosanoids on the glomerular mesangium.
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PMID:Phospholipase C activation by prostaglandins and thromboxane A2 in cultured mesangial cells. 320 77

Of the various arachidonate cyclooxygenation eicosanoids synthesized in the normal and injured renal glomerular capillary, prostaglandin F2alpha (PGF2alpha) is the most abundant and potent in eliciting signaling events and biologic responses including contraction and proliferation of glomerular capillary pericytes known as mesangial cells. The regulation of PGF2alpha-induced signaling in these cells is unknown. The present studies assessed two key signaling events in response to PGF2alpha in mesangial cells; activation of phospholipase C (PLC) and protein kinase C (PKC). Mechanisms regulating PLC activation were also explored. Incubation of cultured growth arrested rat mesangial cells with PGF2alpha (1 microM) resulted in activation of a phosphatidyl inositol-specific phospholipase C (PI-PLC) assessed as increased generation of polyphosphates in myo-[3H]-inositol-labeled cells and as increased diacylglycerol (DAG) mass levels measured by a radioenzymatic assay. Generation of both inositol 1,4,5-trisphosphate and inositol 1,3,4-trisphosphate occurred, the former constituting 70% of total inositol trisphosphates. Enhanced generation of inositol 1,4-bisphosphate (IP2) also occurred and was greater than that of inositol 1,4,5-trisphosphate (IP3), indicating that PI-PLC utilized the phosphatidyl inositol monophosphate (PIP) to a greater extent than the phosphatidyl inositol bisphosphate (PIP2) substrate. Generation of DAG in response to PGF2alpha occurred in a biphasic pattern characterized by an early transient rise that peaked concomitantly with IP3 at 15 sec, and a late sustained increase at 2, 5, and 15 min that was not associated with an increase in IP3. PGF2alpha also activated PKC assessed as translocation of enzyme activity from cytosolic to membrane fractions. Inhibition of PKC using H-7 enhanced PGF2alpha-induced generation of IP3 at 15 sec but attenuated generation of DAG at 15 min. A more selective PKC inhibitor, Calphostin C, dose-dependently increased basal IP3 generation and also attenuated generation of DAG in response to PGF2alpha. This indicates that PKC negatively modulates PGF2alpha-induced PI-PLC activation, and that the late sustained DAG generation in response to PGF2alpha is regulated by a PKC-dependent phospholipase other than PLC. The mechanisms of PI-PLC stimulation in response to PGF2alpha were further explored using inhibitors of protein tyrosine phosphorylation and of guanine nucleotide-binding (G) protein activation. Inhibition of protein tyrosine phosphorylation using genistein had no effect on IP3 or DAG generation. ADP ribosylation of Gi using pertussis toxin (PTx) had no effect on IP3 generation in response to PGF2alpha. The inhibitor of receptor-coupled PI-PLC activation aminosteroid compound U-73122 that blocks G(PLC) was also ineffective. The observations indicate that PGF2alpha stimulates a PI-PLC which is under negative feedback regulatory control by PKC, and a phospholipase other than PLC which is under positive regulatory control by PKC. PGF2alpha-induced PI-PLC activation is independent of protein tyrosine phosphorylation and of PTx-sensitive G proteins.
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PMID:PGF2alpha-induced signaling events in glomerular mesangial cells. 865 Feb 55

The effects of the phosphoinositide-mobilizing agonist bradykinin (BK) on membrane potential and intracellular calcium in monolayers of normal rat kidney (NRK) fibroblasts were investigated. BK induced a rapid transient depolarization in these cells, which was mimicked by other phosphoinositide-mobilizing factors such as prostaglandin F2alpha (PGF2alpha), lysophosphatidic acid (LPA), platelet-derived growth factor (PDGF-BB), and serum. Depolarization by BK was independent of extracellular Ca2+ or Na+. It was shown using extracellular Cl- substitutions that the depolarization was caused by an increased Cl- conductance. Depolarization was inhibited by 5-nitro-2-3-phenylpropyl(amino)benzoic acid (NPPB), niflumic acid, and flufenamic acid, inhibitors of calcium-dependent chloride channels. The depolarization provoked by BK could be mimicked by raising intracellular calcium with ionomycin or thapsigargin and could be blocked with geneticin, a blocker of phospholipase C. When intracellular calcium was buffered by loading the cells with 1,2-bis(2-aminophenoxy)ethane-NNN'N'-tetra-acetic acid (BAPTA), depolarization was prevented. We conclude that in NRK fibroblasts extracellular stimuli that increase intracellular calcium, depolarize the cells via the activation of a calcium-dependent chloride conductance. In addition to an increase in intracellular calcium, depolarization may be an important effector pathway in response to extracellular stimuli in fibroblasts. It is hypothesized that, in electrically coupled cells such as NRK fibroblasts, intercellular transmission of these depolarizations may represent a mechanism to coordinate uniform multicellular responses to Ca2+-mobilizing agonists.
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PMID:Membrane depolarization in NRK fibroblasts by bradykinin is mediated by a calcium-dependent chloride conductance. 900 45

In previous studies, we reported that prostaglandin F2alpha (PGF2alpha) stimulates phosphoinositide hydrolysis by phospholipase C and phosphatidylcholine hydrolysis by phospholipase D in osteoblast-like MC3T3-E1 cells. In the present study, we examined the effect of PGF2alpha on synthesis of interleukin-6 (IL-6) and the involvement of protein kinase C (PKC) activation in the IL-6 synthesis in these cells. PGF2alpha significantly stimulated IL-6 synthesis in a dose-dependent manner in the range between 10 nM and 10 microM. A PKC-activating phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA), induced IL-6 synthesis. On the contrary, 4alpha-phorbol 12,13-didecanoate, a PKC-nonactivating phorbol ester, had no effect. The synthesis of IL-6 stimulated by a combination of PGF2alpha and TPA was not additive. Staurosporine, an inhibitor for protein kinases that suppressed the TPA-induced IL-6 synthesis, significantly inhibited the PGF2alpha-induced IL-6 synthesis. Calphostin C, a highly specific PKC inhibitor, also suppressed the PGF2alpha-stimulated synthesis of IL-6. The effect of PGF2alpha on IL-6 synthesis in PKC-downregulated cells was much weaker than that in intact cells. These results strongly suggest that PGF2alpha induces IL-6 synthesis via PKC activation in osteoblast-like cells.
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PMID:Prostaglandin F2alpha stimulates interleukin-6 synthesis via activation of PKC in osteoblast-like cells. 912 24

We studied the response of a human squamous cell carcinoma cell line, SCC-12F, to human complement attack and found that the cells were completely resistant to complement lysis. In the absence of lysis, there was significant C3 deposition and C5b-9 deposition on the cells. Removal of the lipid-linked complement regulatory proteins CD59 and decay-accelerating factor (DAF) by treatment of the cells with phosphatidylinositol-specific phospholipase C (PIPLC) resulted in increased C3b and C5b-9 deposition on the cells and a slight increase in cell death. Treatment of the cells with complement caused them to release membrane vesicles containing the terminal complement proteins. In addition, complement induced SCC-12F to produce significant amounts of prostaglandin F2alpha (PGF2alpha). We conclude that CD59 and DAF are important in the resistance of SCC-12F to complement and that these cells produce membrane vesicles and PGF2alpha in response to complement attack. These responses, in the absence of cell death, may be important in the pathogenesis of inflammatory skin disease in which complement is deposited.
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PMID:Response of SCC-12F, a human squamous cell carcinoma cell line, to complement attack. 920 53

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