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 properties of brain capillary endothelial cells (BCECs) have been analyzed. BCECs express two types of receptor sites for endothelins (ETs), and ETA-like receptor, and an ETB-like receptor that is not coupled to phospholipase C but whose occupancy activates Na+/H+ exchange activity. The ETA receptor is positively coupled to phospholipase C and negatively coupled to adenylate cyclase. BCECs, unlike aortic endothelial cells, express high-affinity receptor sites for C-type natriuretic peptide. They respond to exogenous nitric oxide (NO) and to NO donor molecules by large activations of soluble guanylate cyclase. They produce little cGMP in response to A23187 or to agonists of phospholipase C but do so after an exposure to interleukin-1. The physiological consequence of the high reactivity of BCECs to vasoactive factors is discussed.
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PMID:Function of vasoactive factors in the cerebral microcirculation. 128 98

Histamine produces a rapid and massive increase of the c-GMP level of guinea-pig lung tissue. The EC50 value for this in vitro response is found to be 27 microM and the c-GMP level is maximally 9-fold elevated by 100 microM histamine. The response is stereoselectively inhibited by the enantiomers of chlorpheniramine, indicating H1-receptor involvement. Preincubation of lung tissue with 200 microM NCDC, a phospholipase C inhibitor, reduces the histamine (100 microM) responses to 16 +/- 3% (N = 6) of the control c-GMP production. Inhibition of protein kinase C by 50 microM H-7 does not significantly attenuate the H1-receptor response, whereas omittance of extracellular Ca2+ results in almost complete inhibition of the c-GMP production. The histamine-induced c-GMP response is inhibited by hemoglobin, methylene blue and the antioxidants butylated hydroxytoluene and nordihydroguaretic acid, indicating the involvement of a nitric oxide-dependent activation of soluble guanylate cyclase. This suggestion is supported by the concentration-dependent inhibition of the c-GMP production by NG-monomethyl-L-arginine (NMA). At a concentration of 20 microM NMA the histamine (100 microM) response is inhibited to 34 +/- 8% (N = 6) of the control response. This inhibition is reversed to 127 +/- 20% (N = 6) by the exogenous addition of 1 mM L-arginine. These findings show that after an initial H1-receptor-mediated, phospholipase C-dependent, Ca(2+)-mobilization the enzymatic conversion of L-arginine to nitric oxide is stimulated. This nitric oxide production is finally responsible for the activation of soluble guanylate cyclase, leading to the production of c-GMP.
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PMID:Histamine H1-receptor-mediated cyclic GMP production in guinea-pig lung tissue is an L-arginine-dependent process. 165 Feb 6

Although nitric oxide (NO), one of the endothelium-derived relaxing factors, prevents formation of platelet aggregates, the mechanism by which this occurs is not fully understood. Accordingly, the effect of NO on signal transduction of gel-filtered human platelets was measured and compared with that of a cell-permeant guanosine 3',5'-cyclic monophosphate (cGMP) analogue, 8-bromo-cGMP (8-BrcGMP). NO inhibited the rise in intracellular Ca2+ concentration ([Ca2+]i), phosphorylation of the 47-kDa substrate (p47) of protein kinase C (PKC), serotonin secretion, and phosphatidic acid production induced by thrombin or the endoperoxide analogue U-46619. Similar effects were seen with 8-BrcGMP, and NO induced a concentration-related rise in cGMP. Neither NO nor 8-BrcGMP inhibited platelet aggregation, [Ca2+]i mobilization, or serotonin secretion induced by the Ca2+ ionophores A23187 or ionomycin or directly activated PKC purified from platelets. However, both NO and 8-BrcGMP enhanced p47 phosphorylation induced by the Ca2+ ionophores without augmenting phosphatidic acid production. Thus, if [Ca2+]i is elevated, a rise in cGMP enhances PKC activation. Both NO and 8-BrcGMP, however, prevent Ca2+ mobilization and platelet aggregation induced by receptor-mediated agonists by interfering with signal transduction at a point proximal to phospholipase C activation.
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PMID:Interaction of nitric oxide and cGMP with signal transduction in activated platelets. 165 83

alpha-Thrombin and phorbol 12,13-dibutyrate stimulated the mono(ADP-ribosyl)ation of a 42-kDa cytosolic protein of human platelets. This effect was mediated by protein kinase C activation and was inhibited by protein kinase C inhibitor staurosporine. It also was prevented by prostacyclin, which is known to inhibit the phospholipase C-induced formation of 1,2-diacylglycerol, which is one of the endogenous activators of protein kinase C. On sodium dodecyl sulfate/polyacrylamide gel electrophoresis, the 42-kDa protein that is ADP-ribosylated by alpha-thrombin was clearly distinct from the alpha subunits of membrane-bound inhibitory and stimulatory guanine nucleotide-binding regulatory proteins, respectively Gi alpha and Gs alpha; the 47-kDa protein that is phophorylated by protein kinase C in platelets; and the 39-kDa protein that has been shown to be endogenously ADP-ribosylated by agents that release nitric oxide. This information shows that agonist-induced activation of protein kinase leads to the ADP-ribosylation of a specific protein. This covalent modification might have a functional role in platelet activation.
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PMID:Agonist-induced ADP-ribosylation of a cytosolic protein in human platelets. 233 84

Porcine or bovine endothelial cells cultured on microcarrier beads, packed into adapted chromatographic columns, perfused with Krebs' buffer and activated with appropriate stimuli (e.g. bradykinin, ADP or phospholipase C) release EDRF and prostacyclin into the perfusing fluid. In the effluent EDRF and prostacyclin might be bio-assayed using the Vane's superfusion cascade (rabbit aortic strips and bovine coronary artery strips, respectively) against nitroglycerine (GTN) and synthetic prostacyclin standards. Prostacyclin might be also quantified as 6-keto-PGF1 alpha by RIA. A spatial separation of the generator (endothelial cells) from the effector (vascular smooth muscle) has allowed to prove that EDRF is nitric oxide, that its activity is inhibited by superoxide anions and by chemicals which act via free radicals, finally, that the release of EDRF and prostacyclin is coupled by a receptor-mediated activation of phospholipase C. Although so successful, the above technique suffers from its essentials, i.e. from using cultured cells instead of fresh intact endothelial cells. Cultured endothelial cells are not responsive to many receptor agonists including acetylcholine, substance P and 5-hydroxytryptamine. Unlike fresh intact endothelial preparations the cultured cells which are perfused with Krebs' buffer generate superoxide anions at such concentrations that it might be obligatory infusing superoxide dismutase in order to detect EDRF. Nonetheless, a couple of data obtained with the cultured endothelial cells have been reproduced in the fresh cell preparations, e.g. release of EDRF by ADP and ATP, a coupled release of EDRF and prostacyclin by phospholipase C or a paradoxical augmentation of the sodium-nitroprusside-induced vasorelaxation by methylene blue.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endothelium-derived relaxing factor (EDRF) from cultured and fresh endothelial cells. 247 Mar 61

The endothelium plays an important role in the control of vascular tone and platelet activity. This is mainly achieved by the release of autacoids, particularly EDRF (identical with nitric oxide, NO) and PGI2. The release of both autacoids is evoked by physical factors like hypoxia and shear stress and by various chemical compounds like acetylcholine, ATP and bradykinin. These agonists bind to membrane receptors coupled to phospholipase C, thereby increasing production of inositol-1,4,5-trisphosphate (IP3). IP3 mobilizes Ca2+ from intracellular stores, thus elevating the intracellular free calcium concentration ([Ca2+]i), in synergy with a simultaneously induced transmembrane Ca2+ influx. The level of [Ca2+]i closely correlates with endothelial production of PGI2 whereas Ca2+ influx is apparently a decisive signal for the sustained release of EDRF. This influx may be facilitated by an agonist-induced membrane hyperpolarization probably being mediated by activation of Ca2+-dependent K+ channels. Depolarization of the endothelial cell membrane on the other hand (evoked by raising the extracellular K+ concentration) attenuates the Ca2+ influx as well as EDRF release. The agonist-induced endothelial hyperpolarization may also be electrotonically transmitted to adjacent smooth muscle cells via myoendothelial gap junctions and may act synergistically with the EDRF-mediated relaxation. Alternatively, spread of this electrical signal along the endothelial lining may enhance the release of autacoids.
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PMID:Mechanisms controlling the production of endothelial autacoids. 251 73

Elevation in intracellular cyclic GMP levels is the proposed proximal mechanism for the vasodilatory and platelet inhibitory action of nitrovasodilators and of nitric oxide, the putative endothelium-derived relaxing factor. In this study, the stable cyclic GMP analogs, 8-bromo-cGMP and N2, 2'-O-dibutyryl-cGMP were found to inhibit the release of [3H]-arachidonic acid from gamma thrombin-stimulated human platelets in a time- and dose-dependent manner. Inhibition of the formation of arachidonic acid metabolites, 12-HETE and thromboxane B2, paralleled that of arachidonic acid release and was accompanied by a dose-dependent inhibition of platelet aggregation. The formation of phosphatidic acid, a metabolite of phospholipase C, however, was relatively preserved. At a concentration of 8-bromo-cGMP (2 mM) that produced near-total inhibition of arachidonic acid release, phosphatidic acid formation remained at 60% of control levels. Thus, cGMP analogs have a preferential inhibitory effect on the release and subsequent metabolism of arachidonic acid. The phospholipase A2/arachidonic acid pathway appears to be an important target for the physiologic action of cGMP, and EDRF, and for the pharmacologic action of nitrovasodilators.
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PMID:Cyclic GMP analogs inhibit gamma thrombin-induced arachidonic acid release in human platelets. 255 18

The neuropeptide eclosion hormone triggers ecdysis behavior in lepidopteran insects. We have previously shown that the eclosion hormone stimulates the formation of two intracellular second messengers, cGMP and inositol(1,4,5)trisphosphate in the abdominal ganglia of Bombyx mori. In order to elucidate the intracellular signaling pathway involving these second messengers, we studied the eclosion hormone-mediated signal transduction using saponin-treated abdominal ganglia. We obtained the following results; i) eclosion hormone activated nitric oxide synthase, ii) the eclosion hormone-induced cGMP increase was inhibited by various enzyme inhibitors such as NG-nitro-arginine; a nitric oxide synthase inhibitor, EGTA; a calcium chelating reagent, W-5; a calmodulin inhibitor and compound 48/80; a phospholipase C inhibitor and iii) the inositol(1,4,5)-trisphosphate stimulated the formation of cGMP, in the Bombyx abdominal ganglia. Based on these findings we tentatively propose a hypothetical pathway: The signal initially triggered by eclosion hormone and eclosion hormone receptor complex induces activation of phospholipase C which produces inositol(1,4,5)trisphosphate. Inositol(1,4,5)trisphosphate increases intracellular Ca2+, followed by subsequent activation of nitric oxide synthase through the formation of Ca(2+)-calmodulin complex. The reaction product, nitric oxide acts on soluble guanylate cyclase to stimulate cGMP formation which induces the ecdysis behavior in Bombyx pharate adults.
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PMID:Eclosion hormone-mediated signal transduction in the silkworm abdominal ganglia: involvement of a cascade from inositol(1,4,5)trisphosphate to cyclic GMP. 750 67

Murine macrophages activated by interferon (IFN)-gamma and bacterial lipopolysaccharide (LPS) produce large amounts of nitric oxide (NO), which is a critical mediator for a variety of biological functions. The expression of this inducible NO synthase (iNOS) involves a protein kinase C (PKC)-dependent pathway, but the mechanism for the PKC activation in this system is unclear. Through analysis of diacylglycerol (DAG) synthesis and choline metabolism in activated macrophages, direct evidence is provided that NO synthesis involves the activation of an unusual phosphatidylcholine-specific phospholipase C (PC-PLC) and not a phosphatidylinositol-specific phospholipase C (PI-PLC) or phospholipase D (PLD).
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PMID:The role of a phosphatidylcholine-specific phospholipase C in the production of diacylglycerol for nitric oxide synthesis in macrophages activated by IFN-gamma and LPS. 751 Sep 53

In cultured vascular smooth muscle cells (VSMC), inflammatory cytokines such as interleukin 1 beta (IL-1 beta) and tumor necrosis factor alpha stimulated nitric oxide (NO) production via the expression of an inducible type of NO synthase (iNOS). A potent vasoconstrictor, angiotensin II (Ang II), which causes a rapid phospholipase C-mediated phosphoinositide hydrolysis via the Ang II type 1 (AT1) receptor in VSMC, by itself did not stimulate the production of nitrite, a stable metabolite of NO, but dose dependently inhibited the IL-1 beta-induced nitrite production. This inhibitory effect of Ang II was blocked by an AT1 receptor antagonist, CV-11974, but not by an Ang II type 2 receptor antagonist, PD 123319. The presence of Ang II during the early induction phase of iNOS was required for this inhibition. Consistently, Ang II suppressed IL-1 beta-induced increases in iNOS mRNA and protein levels. Ang II also inhibited increases in nitrite production and iNOS mRNA and protein levels caused by tumor necrosis factor alpha. A protein kinase C-activating phorbol ester, phorbol 12-myristate 13-acetate, and a membrane-permeable diacylglycerol, 1,2-dioctanoyl-glycerol, similarly inhibited the IL-1 beta-induced nitrite production and iNOS mRNA and protein expression, although repetitive additions were needed in the case of diacylglycerol. These results indicate that Ang II negatively modulates cytokine-induced NO production by blocking iNOS expression via the AT1 receptor in VSMC and suggest that protein kinase C could be involved in this process.
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PMID:Angiotensin II inhibits cytokine-stimulated inducible nitric oxide synthase expression in vascular smooth muscle cells. 751 70

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