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)

We investigated the effects of cyclic nucleotides (cGMP, cAMP) and the phosphoinositide IP(3) on the luminescence of the ophiuroid Amphipholis squamata. The cGMP analogue, dibutyryl-cGMP, and the guanylate cyclase activator, sodium nitroprusside, had no effect on the luminescence. The cAMP analogue, dibutyryl-cAMP, and the adenylate cyclase activator, forskolin, triggered luminescence. Moreover, the adenylate cyclase inhibitor, MDL-12330A, significantly reduced ACh-induced luminescence. The phospholipase C inhibitor, U-73122, also significantly reduced ACh-induced luminescence. The results suggest that ACh-induced luminescence is mediated by both cAMP and IP(3) pathways but not by cGMP. The effects of calcium-free ASW confirmed this hypothesis. A hypothetical scheme of the transduction mechanisms involved in the intracellular control of luminescence is presented.
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PMID:Involvement of cyclic nucleotides and IP(3) in the regulation of luminescence in the brittlestar Amphipholis squamata (Echinodermata). 1086 44

We have been investigating the molecular mechanisms underlying pathophysiological regulation of microvascular permeability on isolated venules and cultured venular endothelial monolayers. Physiological approaches have been employed in combination with molecular analyses to probe the signal transduction pathways leading to enhanced microvascullar permeability. A newly developed technique of protein transfection into cells and intact microvessels enables the correlation of fullctional reactions and signaling events at the molecular level in a direct and specific fashion. The results indicate that inflammatory mediators increase microvascular permeability via intracellular signaling pathways involving the activation of phospholipase C, cytosolic calcium, protein kinase C, nitric oxide synthase, guanylate cyclase, and protein kinase G. In response to the signaling stimulation, complex biochemical and conformational reactions occur at the endothelial structural proteins. Specifically, myosin light-chain activation-mediated myosin light-chain phosphorylation can result in cell contraction. VE-cadherin and beta-catenin phosphorylation may induce dissociation of the junctional proteins and their connection to the cytoskeleton, leading to a loose or opened intercellular junction. Focal adhesion phosphorylation and redistribution further provide an anchorage support for the conformational changes in the cells and at the cell junction. The three processes may act in concert to facilitate the flux of fluid and macromolecules across the microvascular endothelium.
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PMID:Signal transduction pathways in enhanced microvascular permeability. 1114 36

We have studied the effect of nitric oxide (NO) and hydrogen peroxide (H(2)O(2)), two reactive oxygen species (ROS) on histamine release (HR) from RBL-2H3 cells, a rat mucosal-type mast cell line. Marked HR was elicited by antigen (DNP-HSA), calcium ionophore A23187, sodium fluoride or phospholipase C, but not with compound 48/80 or 1,2-dioctanoyl-sn-glycerol. The NO-synthase substrate L-arginine and its inactive enantiomer (D-arginine), each on its own, induced a small but significant increase in HR above the basal level. However, the NO-donors (sodium nitroprusside or NaNO(3)) or the NO-synthase inducer lipopolysaccharide did not induce HR. Moreover, methylene blue (MB), which inhibits guanylate cyclase and N(omega)-nitro-L-arginine (L-NA), an inhibitor of NO synthase, were also without effect on either the basal HR or the L-arginine-induced HR. HR induced by A23187, DNP-HSA, sodium fluoride or phospholipase C was markedly reduced by MB, but mildly by L-NA (both at 1-100 microM). H(2)O(2) (0.01-1.0 mM) on its own did not induce HR, but it had a potent inhibitory effect on DNP-HSA- or A23187-induced HR, which was not reversed by L-NA (1-100 microM). Taken together, it seems that neither the stimulatory nor the inhibitory effects of the NO-related compounds on HR can be attributed to NO, but rather to other mechanisms. The inhibition of HR by H(2)O(2) also does not involve NO and suggests a negative feedback regulatory role for the peroxide in the allergic inflammation.
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PMID:Effects of nitric oxide and hydrogen peroxide on histamine release from RBL-2H3 cells. 1172 90

In this study we have determined the different signalling pathways involved in adenosine A(1)-receptor (A(1)-receptor)-dependent inhibition of contractility in rat isolated atria. N-cyclopentyladenosine (CPA) stimulation of A(1)-receptor exerts: negative inotropic response, inositol phosphates accumulation, stimulation of nitric oxide synthase (NOS), increased production of nitric oxide (NO) and cyclic GMP. Inhibitors of phospholipase C (PLC), protein kinase C (PKC), calcium/calmodulin, NOS and guanylate cyclase shifted the dose-response curve of CPA on contractility to the right. Those inhibitors also attenuated the A(1)-receptor-dependent increase in cyclic GMP and activation of NOS. These results suggest that CPA activation of A(1)-receptors exerts a negative inotropic effect associated with increased production of nitric oxide and cyclic GMP. The mechanism appears to occur secondarily to stimulation of phosphoinositide turnover via PLC activation. This, in turn, triggers cascade reactions involving calcium/calmodulin and PKC, leading to activation of NOS and soluble guanylate cyclase.
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PMID:Role of nitric oxide/cyclic GMP in myocardial adenosine A1 receptor-inotropic response. 1181 80

Atrial natriuretic peptide (ANP) reduces ischemia and/or reperfusion damage in several organs, but the mechanisms involved are largely unknown. We used freshly isolated rat hepatocytes to investigate the mechanisms by which ANP enhances hepatocyte resistance to hypoxia. The addition of ANP (1 micromol/L) reduced the killing of hypoxic hepatocytes by interfering with intracellular Na(+) accumulation without ameliorating adenosine triphosphate (ATP) depletion and pH decrease caused by hypoxia. The effects of ANP were mimicked by 8-bromo-guanosine 3', 5'-cyclic monophosphate (cGMP) and were associated with the activation of cGMP-dependent kinase (cGK), suggesting the involvement of guanylate cyclase-coupled natriuretic peptide receptor (NPR)-A/B ANP receptors. However, stimulating NPR-C receptor with des-(Gln(18), Ser(19),Gly(20),Leu(21),Gly(22))-ANP fragment 4-23 amide (C-ANP) also increased hepatocyte tolerance to hypoxia. C-ANP protection did not involve cGK activation but was instead linked to the stimulation of protein kinase C (PKC)-delta through G(i) protein- and phospholipase C-mediated signals. PKC-delta activation was also observed in hepatocytes receiving ANP. The inhibition of phospholipase C or PKC by U73122 and chelerythrine, respectively, significantly reduced ANP cytoprotection, indicating that ANP interaction with NPR-C receptors also contributed to cytoprotection. In ANP-treated hepatocytes, the stimulation of both cGK and PKC-delta was coupled with dual phosphorylation of p38 mitogen-activated protein kinase (MAPK). The p38 MAPK inhibitor SB203580 abolished ANP protection by reverting p38 MAPK-mediated regulation of Na(+) influx by the Na(+)/H(+) exchanger. In conclusion, ANP recruits 2 independent signal pathways, one mediated by cGMP and cGK and the other associated with G(i) proteins, phospholipase C, and PKC-delta. Both cGK and PKC-delta further transduce ANP signals to p38 MAPK that, by maintaining Na(+) homeostasis, are responsible for ANP protection against hypoxic injury.
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PMID:Mechanisms of hepatocyte protection against hypoxic injury by atrial natriuretic peptide. 1254 Jul 77

In this paper we have determined the different signaling pathways involved in M(1) muscarinic acetylcholine receptor (mAChR)-dependent stimulation of m1 mAChRs, neural and inducible isoforms of nitric oxide synthase (nNOS and iNOS)-mRNA gene expression of rat frontal cortex. Carbachol-stimulation of M(1) mAChRs exerts an increase in m1 mAChR-mRNA, activation of phosphoinositide (PI) turnover, translocation of protein kinase C (PKC) and stimulation of NOS activity. Inhibitors of phospholipase C (PLC), calcium/calmodulin and NOS, but not guanylate cyclase, prevent the carbachol-dependent increase of m1 mAChR-mRNA levels. These inhibitors also attenuate the muscarinic receptor-dependent increase in nNOS and iNOS mRNA levels. These results suggest that carbachol-activation of M(1) mAChRs increases m1 mAChR, nNOS and iNOS mRNA levels associated with increased production of nitric oxide (NO). The mechanism appears to occur secondarily to stimulation of PI turnover via PLC activation. This in turn, triggers a cascade reaction involving calcium/calmodulin and PKC, leading to activation of NOS. On the basis of our results, the activation of M(1) mAChRs appears to induce nNOS and iNOS expression and, reciprocally, the activator of NOS up-regulates m1 mAChR gene expression. These results may contribute to a better understanding of the effects and side effects of cholinomimetic treatment in patients with neurodegenerative diseases.
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PMID:Novel insight into the mechanisms involved in the regulation of the m1 muscarinic receptor, iNOS and nNOS mRNA levels. 1284 32

Somatostatin and its analogue octreotide have been used for two decades to treat oesophageal variceal haemorrhage. The drug was introduced because of its capacity to decrease portal venous pressure without major side effects. In clinical trials assessing the efficacy of somatostatin and long-acting analogues in arresting variceal haemorrhage, conflicting results have been obtained. Furthermore, in haemodynamic studies evaluating the effects of somatostatin and analogues in patients with cirrhosis, divergent effects were observed. The main reason for these differences is probably related to different affinities of the drugs for different somatostatin receptor subtypes. The effects of somatostatin and analogues are mediated via five different G-protein coupled receptors (somatostatin receptor subtypes 1-5), which regulate the activity of ion channels (Ca2+, K+, Na+ and Cl-) and enzymes (adenyl cyclase, phospholipase C, phospholipase A2, phosphoinositide 3-kinase and guanylate cyclase) responsible for the synthesis or degradation of intracellular second messengers including cyclic AMP, inositol 1,4,5-trisphosphate, diacylglycerol and cyclic GMP. Despite universal use of somatostatin, the cellular and biochemical mechanisms of its effects in portal hypertension are relatively poorly studied and remain incompletely understood. In this review, we summarize relevant signal transduction of somatostatin and analogues, the haemodynamic effects of the drugs and the possible mechanisms by which these effects are mediated.
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PMID:Pharmacological rationale for the use of somatostatin and analogues in portal hypertension. 1294 Sep 22

Microsomal prostaglandin E synthase-1 (mPGES-1) catalyzes the conversion of cyclooxygenase-derived prostaglandin (PG) H(2) to PGE(2). Increased amounts of mPGES-1 were detected in inflamed intestinal mucosa from patients with inflammatory bowel disease (IBD). Treatment with tumor necrosis factor (TNF)-alpha stimulated mPGES-1 transcription in human colonocytes, resulting in increased amounts of mPGES-1 mRNA and protein. The inductive effect of TNF-alpha localized to the GC box region of the mPGES-1 promoter. Binding of Egr-1 to the GC box region of the mPGES-1 promoter was enhanced by treatment with TNF-alpha. Notably, increased Egr-1 expression and binding activity were also detected in inflamed mucosa from IBD patients. Treatment with TNF-alpha induced the activities of phosphatidylcholine-phospholipase C (PC-PLC) and protein kinase (PK) C and enhanced NO production. A pharmacological approach was used to implicate PC-PLC --> PKC --> NO signaling as being important for the induction of mPGES-1 by TNF-alpha. TNF-alpha also enhanced guanylate cyclase activity and inhibitors of guanylate cyclase activity blocked the induction of mPGES-1 by TNF-alpha. YC-1, an activator of guanylate cyclase, induced mPGES-1. Overexpressing a dominant negative form of PKG blocked TNF-alpha-mediated stimulation of the mPGES-1 promoter. Taken together, these results suggest that overexpression of mPGES-1 in IBD is the result of Egr-1-mediated activation of transcription. Moreover, TNF-alpha induced mPGES-1 by stimulating PC-PLC --> PKC --> NO --> cGMP --> PKG signal transduction pathway.
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PMID:Microsomal prostaglandin E synthase-1 is overexpressed in inflammatory bowel disease. Evidence for involvement of the transcription factor Egr-1. 3190 Mar 75

This study determined the different signal pathways involved in M1/M3 muscarinic acetylcholine receptor (mAChR) dependent stimulation of nitric oxide synthase (NOS) activity/cyclic GMP (cGMP) production and nNOS mRNA expression in rat retina. Exposure of the retina to different concentrations of carbachol caused an increase in NOS activity, cGMP production and phosphoinositol (PI) accumulation. The increase in NOS activity and cGMP content was blocked by L-NMMA and ODQ, respectively. Also, phospholipase C (PLC) and calcium/calmodulin (CaM) inhibition prevented the carbachol activation on NOS/cGMP pathways. Both, 4-DAMP and pirenzepine but not AF-DX 116 blocked the increase in NOS and cGMP induced by carbachol. Carbachol-stimulation of M1/M3 mAChR increased nNOS-mRNA levels associated with an increase of endogenous NO and cGMP production. The mechanism appears to occur secondarily to stimulation of PIs turnover via PLC. This triggers a cascade reaction involving CaM and soluble guanylate cyclase leading to NO and cGMP accumulation, that in turn, up regulates nNOS-mRNA gene expression. These results give novel insight into the mechanism involved in the regulation of nNOS-mRNA levels by mAChR activation of retina.
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PMID:Correlations between neuronal nitric oxide synthase and muscarinic M3/M1 receptors in the rat retina. 1572 21

In this paper we have determined the different signal pathways involved in M(1) and M(3) muscarinic acetylcholine receptor (mAChR) dependent stimulation of cyclo-oxygenase 1 (cox-1) mRNA gene expression and PGE(2) production on rat cerebral frontal cortex. Carbachol stimulation of M(1) and M(3) mAChR exerts an increase in cox-1 mRNA gene expression without affecting cox-2 mRNA expression and increased PGE(2) generation. Besides, increased phosphoinositide (PI) turnover and stimulation of nitric oxide synthase (NOS) and cyclic GMP (cGMP) production. Inhibitors of phospholipase A(2) (PLA(2)), COX and phospholipase C (PLC), calcium/calmodulin (CaM), NOS and soluble guanylate cyclase prevent the carbachol effect. These results suggest that carbachol-activation of M(1) and M(3) mAChR increased PGE(2) release associated with an increased expression of cox-1 and NO-cGMP production. The mechanism appears to occur directly to PLC stimulation and indirectly to PLA(2) activation. These results may contribute to understand the effects and side effect of non-steroidal anti-inflammatory drugs in patients with cerebral degenerative diseases.
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PMID:Signal transduction underlying carbachol-induced PGE2 generation and cox-1 mRNA expression of rat brain. 1581 9

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