Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endothelins (ETs) are potent regulators of renal, cardiovascular and endocrine functions and act as neurotransmitters in the CNS. Here we report that immortalized Schwann cells express receptors for ETs and characterize some of the cellular events triggered by their activation. Specific binding of [125I]-ET-1 to Schwann cell membranes was inhibited by ET-1 and ETB-selective agonists ET-3, sarafotoxin 6c and [Ala1,3,11,15]-ET-1 with IC50cor values ranging between 2 and 20 nM. No competition was observed with the ETA receptor-selective antagonist BQ123. Incubation of [3H]-inositol pre-labeled Schwann cells with ET-1, ET-3 or sarafotoxin 6c elicited a concentration-dependent increase in the release of [P1 that reached a plateau at approximately 100 nM. The efficacy of [Ala1,3,11,15]-ET-1 (a linear peptide analog of ET-1) was half of that corresponding to ET-1. These stimulatory effects were partially blocked by pre-incubation with pertussis toxin. When Schwann cells were incubated in the presence of 100 nM ET-1 or ET-3 there was a significant inhibition of basal and isoproterenol-stimulated cAMP levels. The inhibitory effects of sarafotoxin 6c and [Ala1,3,11,15]-ET-1 on isoproterenol-stimulated cAMP levels were similar to that observed with ET-1. Pre-incubation with pertussis toxin completely prevented this effect. These observations indicate that immortalized Schwann cells express receptors for ET peptides (predominantly ETB) coupled to modulation of phospholipase C and adenylyl cyclase activities. The actions of ETs on Schwann cells provide a novel example of the influence of vascular factors on nerve function.
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PMID:Immortalized schwann cells express endothelin receptors coupled to adenylyl cyclase and phospholipase C. 913 Feb 51

Endothelial cells and pericytes are closely associated in brain capillaries. Together with astrocytic foot processes, they form the blood-brain barrier. Capillaries were isolated from bovine brain cortex. Pure populations of endothelial cells and pericytes were isolated and cultured in vitro. Polarized monolayers of endothelial cells preferentially secreted immunoreactive endothelin-1 (Et-1) at their abluminal (brain-facing) membrane. They did not express receptors for Et-1. Pericytes expressed BQ-123-sensitive ETA receptors for endothelins as evidenced by 125I-Et-1 binding experiments. These receptors were coupled to phospholipase C as demonstrated by intracellular calcium measurements using indo-1-loaded cells. Addition of Et-1 to pericytes induced marked changes in the cell morphology that were associated with a reorganization of F-actin and intermediate filaments. It is concluded that Et-1 is a paracrine mediator at the bovine blood-brain barrier and that capillary pericytes are target cells for endothelium-derived Et-1.
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PMID:Endothelin-1 as a mediator of endothelial cell-pericyte interactions in bovine brain capillaries. 914 29

In the present study we have examined the effects and mechanisms of endothelin-1 (ET-1) on arachidonic acid (AA) release and prostaglandin (PG) synthesis in human ciliary muscle (HCM) cells. ET-1 stimulated AA release in a time (t1/2=1.5 min) and concentration-dependent (EC50=5 nM) manner, which is primarily mediated through the ETA receptor subtype. The AA liberated by ET-1 appears to derive mainly from the phosphoinositides and phosphatidylcholine. Our data show that phospholipase A2 (PLA2), but not phospholipase C (PLC), plays an important role in ET-1-induced AA release. This conclusion is supported by the following findings: (1) ET-1-evoked AA release was inhibited by the PLA2 inhibitors dexamethasone, mepacrine and manoalide in a concentration-dependent manner. Conversion of AA into PGE2 was inhibited by the cyclooxygenase inhibitors in the following order: Indomethacin>naproxen >ibuprofen>NS-398>aspirin. (2) The phorbol ester, PDBu, an activator of protein kinase C, potentiated ET-1-induced AA release by 39%, but inhibited that of inositol phosphates formation by 62%. (3) Pretreatment of the labeled cells with isoproterenol lowered ET-1-induced inositol phosphates production, but had no effect on AA release. (4) U71322, a PLC inhibitor, inhibited ET-1-induced inositol phosphates production, but had no effect on that of AA release. (5) Pretreatment of the cells with pertussis toxin (0.1 microg ml-1) attenuated the stimulatory effects of ET-1 on AA release and PGE2 formation. These data demonstrate that ET-1 is a potent agonist for AA release and PG synthesis in HCM cells, and that PLA2, but not PLC, plays an important role in ET-1-induced AA release and PG synthesis. In ciliary muscle, AA and its metabolites play important roles in intracellular signalling, modulation of physiological processes, and regulation of intraocular pressure.
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PMID:Endothelin-1 stimulates the release of arachidonic acid and prostaglandins in cultured human ciliary muscle cells: activation of phospholipase A2. 923 67

We previously reported that endothelin-1 (ET-1) stimulates phosphatidylcholine-hydrolyzing phospholipase D independently of phosphoinositide hydrolysis in osteoblast-like MC3T3-E1 cells. In the present study, we investigated the characteristics of the receptors mediating ET-1-induced intracellular signaling pathway in MC3T3-E1 cells. Cyclo-D-Trp-D-Asp-Pro-D-Val-Leu (BQ123), a selective ETA receptor antagonist, significantly inhibited the ET-1-induced formation of inositol phosphates in a dose-dependent manner in the range between 22 nmol/L (IC50) and 2.2 mumol/L (IC50 x 100). On the contrary, N-cis-2,6-dimethylpiperidinocarbonyl-L-gamma MeLeu-D-Trp(COOMe)-D-Nle-ONa (BQ788), a selective ETB receptor antagonist, had no effect on the ET-1-induced formation of inositol phosphates in the range between 1.2 nmol/L (IC50) and 120 nmol/L (IC50 x 100). BQ123 significantly suppressed the ET-1-induced formation of choline dose-dependently, however, BQ788 did not affect the choline formation. BQ123 also inhibited the ET-1-induced release of arachidonic acid, but BQ788 had little effect. The results strongly suggest that ETA receptor mediates the three intracellular signaling pathways of ET-1: (1) phosphoinositide hydrolysis by phospholipase C; (2) phosphatidylcholine hydrolysis by phospholipase D; (3) arachidonic acid release in osteoblast-like cells.
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PMID:ETA receptor mediates the signaling of endothelin-1 in osteoblast-like cells. 926 89

This report describes the effects of endothelins (ET-1 and ET-3) on ion transport systems expressed on cultured rat brain capillary endothelial cells (RBEC) and includes investigation of pharmacological properties of ET receptors, their reactivity and induction of signal transduction pathways. ET-1 stimulated IP3 formation and Ca2+ uptake with half-maximal effective concentrations (EC50) of 0.68 and 0.93 nM, respectively; the effects of ET-3 on these responses were much weaker. ET-1-stimulated IP3 formation and Ca2+ uptake were inhibited by an ETA antagonist (BQ123) and a phospholipase C (PLC) inhibitor (U73122), indicating the presence of ETA receptors coupled to PLC. ET-1 stimulated K+ efflux (through a quinine-sensitive mechanism) and K+ uptake (through both ouabain-sensitive and bumetanide-sensitive mechanisms) with EC50 of 0.59 and 0.68 nM, respectively. The potencies of ET-3 on these responses were considerably lower than those of ET-1. By contrast, ET-1 or ET-3 stimulated Na+ uptake with similarly high potencies (EC50 = 0.80 and 1.89 nM, respectively) through EIPA (a Na+/H+ exchange inhibitor)-sensitive mechanisms. ET-stimulated K+ efflux, K+ uptake and Na+ uptake activities were all inhibited by BQ123 (but not by BQ788), suggesting the involvement of ETA (and not ETB) receptors in all these responses. ET-1 stimulated K+ uptake and efflux were inhibited by either U73122 or an intracellular Ca2+ chelator, suggesting that these two responses were mediated via PLC. In contrast, ET stimulation of Na+ uptake was unaffected by PLC inhibition or intracellular Ca2+ chelation. These data suggest the presence of two distinct subtypes of ETA receptors on RBEC; one appears to be a typical ETA receptor which is coupled to PLC and has higher binding affinity for ET-1 than ET-3. The other (ETA-like) receptor is similarly activated by ET-1 and ET-3 with high potencies but is independent of PLC. This possibility was further confirmed by the [125I]ET-1 binding studies demonstrating the presence of high- and low-affinity ET-3 binding sites.
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PMID:Functional characterization of endothelin receptors on cultured brain capillary endothelial cells of the rat. 930 10

Endothelin (ET)-1 is an endothelium-derived vasoconstrictor as well as a mitogen. We have recently described a novel role of ET-1 as a survival factor for rat endothelial cells from serum deprivation-induced apoptosis. The present study was designed to determine which receptor subtype (ETA or ETB) is responsible for and what intracellular mediators are involved in endothelial apoptosis. Apoptotic cell death was evaluated by nucleosomal ladders on agarose gel electrophoresis and immunohistochemical study using anti-single-stranded DNA antiserum. ET-1 and an ETB receptor agonist suppressed endothelial apoptosis, whose effects were abrogated by an ETB receptor antagonist but not by an ETA receptor antagonist. Addition of an ETB receptor antagonist or nonselective ETA/B receptor antagonists, but not an ETA receptor antagonist, enhanced the apoptotic events caused by serum deprivation, suggesting an autocrine/paracrine role of endogenous ET-1 in protecting against endothelial apoptosis. The effect of ET-1 in suppressing apoptosis was unaffected by any of the following reagents: a phospholipase C inhibitor (U73122), a tyrosine kinase inhibitor (ST638), an MEK inhibitor (PD98059), a phosphatidylinositol-3 kinase inhibitors (wortmannin, LY294002). Taken together, these results confirm a role for ET-1 as an autocrine/paracrine survival factor for rat endothelial cells, in which neither phospholipase C, tyrosine kinase, MAP kinase, nor phosphatidylinositol-3 kinase is involved in mediating the antiapoptotic effect of ET-1.
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PMID:Endothelin-B receptor-mediated suppression of endothelial apoptosis. 959 22

In the rat cardiovascular system endothelin-1 (ET-1) elicits prolonged physiologic responses mediated by the ETA receptor, whereas the effects mediated by the ETB receptor are transient. The molecular mechanisms for the subtype-specific responses are not yet clear. However, post-translational modifications such as phosphorylation and palmitoylation may play an important role. In Sf9 cells overexpressing the human ETA and ETB receptors, both subtypes are palmitoylated. However, only the ETB but not the ETA receptor is phosphorylated in a ligand-dependent manner. Because phosphorylation is believed to play an important role in ligand-dependent receptor inactivation, we analyzed whether the differential phosphorylation of the ETA and ETB receptors reflects a differential mechanism of receptor inactivation. Using a modified inositol phosphate accumulation assay, we analyzed CHO cells that expressed the ETA or ETB receptor. The ETB receptor was deactivated almost completely within 5 min after agonist stimulation, whereas stimulation of the ETA receptor resulted in sustained activation, i.e., > 90% of the initial activity was maintained after 5 min of ligand stimulation and > 30% after 20 min. A strong correlation was observed between the time course of ETA receptor inactivation and ETA receptor internalization. The endogenous ETA receptor in Rat-1 cells produced a prolonged stimulation of phospholipase C similar to that seen in CHO cells. Therefore, the sustained signaling activity of the ETA receptor is not a property only of recombinant cell lines. Together, our data suggest rapid ETB receptor inactivation due to phosphorylation and delayed ETA receptor inactivation by internalization. These mechanisms adequately reflect the differential response patterns of the ET receptors under physiologic conditions.
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PMID:Subtype-specific endothelin-A and endothelin-B receptor desensitization correlates with differential receptor phosphorylation. 959 38

We investigated the functional importance and signal transduction pathways of endothelin (ET)-B receptors in mediating ET-1-induced vasoconstriction in pig skin. Skin vasoconstriction was studied by monitoring the perfusion pressure of isolated perfused pig skin flaps (6 x 16 cm) at a constant flow rate. Intra-arterial infusion of the ETA/B receptor agonist ET-1, the ETB receptor agonists sarafotoxin 6C (S6c) and BQ-3020, or the thromboxane A2 mimetic U-46619 (n = 4 or 5) caused a concentration-dependent skin vasoconstriction. The vasoconstrictor potency of ET-1 (EC50 3.1 x 10(-9) M) was lower (P < 0.05) than that of S6c (EC50 1.8 x 10(-9) M) and similar to that of BQ-3020 (EC50 2.6 x 10(-9) M). The vasoconstrictor potency of ET-1, S6c, and BQ-3020 was at least 300-fold higher than that of U-46619 (EC50 0.9 x 10(-6) M). The skin vasoconstrictor effect of ET-1 (10(-9)-10(-8) M) was partially inhibited by 10(-5) M BQ-123, an ETA receptor antagonist. Further inhibition was achieved with the combination of 10(-5) M BQ-123 and BQ-788 (an ETB receptor antagonist) or with an ETA/B receptor antagonist (10(-5) M bosentan or PD-145065) (n = 5; P < 0.05). In addition, the skin vasoconstrictor effect of the ETB receptor agonist BQ-3020 was completely blocked by 5 x 10(-6) M BQ-788 and partially inhibited by 5 x 10(-6) M of the phospholipase C (PLC) inhibitor 2-nitro-4-carboxyl-N,N-diphenylcarbamate (NCDC), an L-type Ca2+ channel antagonist (nifedipine), a protein kinase C (PKC) inhibitor (chelerythrine), or removal of Ca2+ from the perfusate (n = 4 or 5; P < 0.05). The vasoconstrictor effect of S6c was also partially blocked by 5 x 10(-6) M of NCDC, nifedipine, or chelerythrine or by removal of Ca2+ from the perfusate (n = 4; P < 0. 01). We conclude that ETB receptors play a central role in mediating ET-1-induced vasoconstriction in pig skin, and the mechanism probably involves L-type Ca2+ channels, PLC, and PKC.
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PMID:Role and mechanism of endothelin-B receptors in mediating ET-1-induced vasoconstriction in pig skin. 975 35

We have investigated the possibility that ET-1 can induce an increase in myofilament calcium sensitivity in pulmonary artery smooth muscle. Arterial rings were permeabilized using alpha-toxin (120 microg ml(-1)), in the presence of A23187 (10 microM) to 'knock out' Ca2+ stores, and pre-constricted with pCa 6.8 (buffered with 10 mM EGTA). In the presence of this fixed Ca2+ concentration, 1 microM ET-1 induced a sustained, reversible constriction of 0.15 mN. Pulmonary arterial rings were freeze-clamped at the peak of the induced constriction (time matched). Subsequent densitometric analysis revealed that ET-1 (1 microM) increased the level of phosphorylated myosin light chains by 34% compared to an 11% increase in the presence of pCa 6.8 alone. In contrast to ET-1, the selective ET(B) receptor agonist Sarafotoxin S6C (100 nM) failed to induce a significant constriction. The constriction induced by 1 microM ET-1 was reversibly inhibited when the preparation was preincubated (15 min) with the ETA receptor antagonist BQ 123 (100 microM). The constriction measured 0.13 mN in the absence and 0.07 mN in the presence of 100 microM BQ 123. In contrast, the constriction induced by 1 microM ET-1 measured 0.19 mN in the absence and 0.175 mN following a 15 min pre-incubation with the ET(B) antagonist BQ 788 (100 microM). The constriction induced by 1 microM ET-1 measured 0.14 mN in the presence and 0.13 mN following pre-incubation with the tyrosine kinase inhibitor Tyrphostin A23 (100 microM). We conclude that ET-1 induced an increase in myofilament calcium sensitivity in rat pulmonary arteries via the activation of ET(A) receptors and by a mechanism(s) independent of tyrosine kinase.
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PMID:ET(A) receptors are the primary mediators of myofilament calcium sensitization induced by ET-1 in rat pulmonary artery smooth muscle: a tyrosine kinase independent pathway. 1036 68

Insulin sensitive glycosylated phosphatidylinositol (GPI) from chick embryo fibroblasts was isolated and partially characterized. [(3)H]Ethanolamine was incorporated into lipids different from phosphatidylethanolamine, as shown by two sequential thin layer chromatographies (TLC) using an acidic solvent system followed by a basic solvent system. Other isotopes, myo-[(3)H]inositol, [(3)H]glucosamine, [(3)H]galactose, and [(3)H]palmitic acid were also incorporated into these lipids. These lipids were separated into two peaks on the second basic TLC, designated as peaks I and II from the origin. Insulin stimulation of cells caused a rapid breakdown of these two lipids. These two lipids were treated by nitrous acid and phosphatidylinositol-specific phospholipase C (PI-PLC). The radioactivity of peak I lipid was decreased by both treatments, and that of peak II lipid was also decreased by PI-PLC treatment but not significantly by nitrous acid treatment. Peak II lipid did not fulfill the criteria for GPI. Tritium released by the treatment of PI-PLC of peak I lipid was recovered in the aqueous phase. [(3)H]Ethanolamine-labeled peak I lipid was hydrolyzed by acid treatment and the hydrolysis products were analyzed by TLC and high performance liquid chromatography (HPLC). Tritium label was recovered as native label at the rate of 95%. [(3)H]Ethanolamine of peak I lipid was reductively methylated completely with formaldehyde and cyanoborohydride, as shown by HPLC analysis. The results indicate that peak I lipid contains primary ethanolamine as a glycan component and is insulin-sensitive free GPI.
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PMID:Incorporation of ethanolamine into insulin-sensitive glycosylated phosphatidylinositol of chick embryo fibroblasts. 1108 35


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