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)

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

Endothelial cells can produce contracting factors; endothelin, a 21-amino acid peptide, is one of the most potent of these factors, which can control local vascular tone. The peptide is formed from its precursor, big endothelin, via the activity of the endothelin converting enzyme. The basal production of the peptide is stimulated by epinephrine, angiotensin II, arginine vasopressin, transforming growth factor beta, thrombin, interleukin-1 and the calcium ionophore A23187. In vascular smooth muscle cells, endothelin binds to its specific receptor (ETA-receptor and possibly ETB-receptor) which activate phospholipase C and lead to the formation of inositol trisphosphate, diacylglycerol and increased intracellular calcium levels. In certain blood vessels, the endothelin receptor is linked to voltage-operated calcium channels via a Gi-protein. This linkage may explain why calcium antagonists inhibit endothelin-induced contractions in certain, but not other blood vessels. In large conduit arteries, such as the human internal mammary artery, endothelin-induced contractions are primarily mediated by release of intracellular calcium and hence, calcium antagonists do not markedly affect the response. In contrast, in the human forearm circulation, calcium antagonists of different classes do prevent endothelin-induced contractions. Similarly, in mesenteric resistance arteries of the rat, calcium antagonists can reverse endothelin-induced contraction suggesting that calcium antagonists are particularly potent in inhibiting endothelin-induced contraction in resistance arteries, where peripheral vascular resistance and hence, blood pressure is regulated.
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PMID:Endothelin-induced vasoconstriction and calcium antagonists. 128 11

Endothelial cells produce the 21-amino acid peptide endothelin, which is formed from its precursor, big endothelin, via the activity of converting enzyme. The basal production of the peptide is stimulated by epinephrine, angiotensin II, arginine vasopressin, transforming growth factor beta, thrombin, interleukin-1, and hypoxia. In vascular smooth muscle, endothelin binds to a specific receptor (ETA-subtype), which activates phospholipase C, leads to the formation of inositol trisphosphate, diacylglycerol (which activates protein kinase C), and increased intracellular Ca2+. In certain blood vessels, the endothelin receptor on vascular smooth muscle is linked to a voltage-operated Ca2+ channel via a G-protein. This explains why Ca2+ antagonists inhibit endothelin-induced contractions in certain, but not all, blood vessels. In the human forearm circulation, Ca2+ antagonists do prevent endothelin-induced contractions and unmask endothelin-induced vasodilation mediated by endothelial prostacyclin production (via the ETB-receptor). The pulmonary circulation plays an important role in the metabolism of endothelin, as the lungs take up large quantities of the peptide during passage. Endothelin has profound vasoconstrictor effects in the pulmonary circulation (and also in bronchial tissue), and its production is augmented in pulmonary hypertension. In systemic hypertension, the circulating endothelin levels appear to be normal. In atherosclerosis and other forms of vascular disease, circulating endothelin levels are increased. Thus, endothelin is a potent mediator in the systemic and pulmonary circulation and, in particular, in diseases of the vasculature.
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PMID:Endothelin: systemic arterial and pulmonary effects of a new peptide with potent biologic properties. 133 60

Endothelins (ET-1, ET-2 and ET-3) are a family of 21 amino acid peptides produced by endothelial cells. They are thought to regulate the local vasomotor tone with endothelium-derived relaxing factors. ETs are the most potent vasoconstrictor substances yet identified and veins and renal vasculature are the most sensitive targets. They reduce cardiac output and have positive inotropic and chronotropic effects. ETs increase the secretion of atrial natriuretic peptide (ANP), aldosterone and catecholamines but reduce renal blood flow and glomerular filtration and they also have mitogenic properties. ETs bind to receptors (ETA and ETB), activate phospholipase C, modulate intracellular Ca2+ concentration and open Ca2+ channels. Vasoactive agents (adrenaline, angiotensin, vasopressin, thrombin, endotoxins) and hypoxia stimulate the release of ET and also ET gene expression. Raised concentrations of plasma ET have been found to occur in several clinical conditions such as hypertension, myocardial infarction, cardiogenic shock, pregnancy induced hypertension, arteriosclerosis, Raynaud's disease, subarachnoid haemorrhage, uraemia, ulcerative colitis, Crohn's disease and surgical operations suggesting that ETs have a role in several patophysiological processes.
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PMID:Endothelin peptides: biological activities, cellular signalling and clinical significance. 138 14

The action of endothelins (Et) on cAMP formation was studied in endothelial cells from rat brain microvessels. Et-1 and Et-3 had no action by themselves. They both inhibited cholera toxin stimulated adenylate cyclase by about 50%. K0.5 values were observed at 2 nM and 40 nM for Et-1 and Et-3 respectively, indicating an involvement of a low affinity Et-3 receptor. Coupling to adenylate cyclase was achieved by a pertussis toxin sensitive mechanism. Another action of endothelins in brain capillary endothelial cells was to stimulate phospholipase C. This action involved a low affinity Et-3 receptor and a pertussis toxin insensitive mechanism. It is concluded that in brain capillary endothelial cells, ETA like receptors are coupled to phospholipase C and to adenylate cyclase via two different mechanisms.
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PMID:Endothelins inhibit adenylate cyclase in brain capillary endothelial cells. 165 65

In the present study, we examined the relationship between endothelin receptors and phosphoinositide breakdown in muscle explants of placental stem villi vessels. All peptides examined, i.e. endothelin-1 (ET-1), ET-3, sarafotoxin 6b (S6b) and S6c, were able to induce phosphoinositide hydrolysis in a dose-dependent manner: ET-1 was more potent than S6b and ET-3, with corresponding EC50 values of 44 +/- 16 pmol/l, 18 +/- 13 nmol/l and 33 +/- 24 nmol/l, respectively. Sarafotoxin induced only moderate stimulation of inositol phosphate accumulation. Both ET-1- and S6b-induced accumulation of inositol phosphate was almost totally (90%) inhibited by 100 mumol/l BQ 123, while the S6c response was not affected by the ETA receptor antagonist. In contrast, the ETB receptor antagonist IRL 1038 inhibited S6c-induced inositol phosphate accumulation by more than 80%, whereas inhibition was only about 30% for ET-1 and S6b stimulations. This indicates that both ETA and ETB receptors were coupled to the phospholipase C transducing system in the muscular layer of placental stem villi vessels, and there is evidence that the phosphoinositide hydrolysis response is obtained predominantly via ETA receptor activation.
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PMID:Endothelin-induced phosphoinositide hydrolysis in the muscular layer of stem villi vessels of human term placenta. 758 92

Different neurotransmitter receptor agonists [carbachol, serotonin, noradrenaline, histamine, endothelin-1, and trans-(1S,3R)-aminocyclopentyl-1,3-dicarboxylic acid (trans-ACPD)], known as stimuli of phospholipase C in brain tissue, were tested for phospholipase D stimulation in [32P]Pi-prelabeled rat brain cortical and hippocampal slices. The accumulation of [32P]phosphatidylethanol was measured as an index of phospholipase D-catalyzed transphosphatidylation in the presence of ethanol. Among the six neurotransmitter receptor agonists tested, only noradrenaline, histamine, endothelin-1, and trans-ACPD stimulated phospholipase D in hippocampus and cortex, an effect that was strictly dependent of the presence of millimolar extracellular calcium concentrations. The effect of histamine (EC50 18 microM) was inhibited by the H1 receptor antagonist mepyramine with a Ki constant of 0.7 nM and was resistant to H2 and H3 receptor antagonists (ranitidine and tioperamide, respectively). Endothelin-1-stimulated phospholipase D (EC50 44 nM) was not blocked by BQ-123, a specific antagonist of the ETA receptor. Endothelin-3 and the specific ETB receptor agonist safarotoxin 6c were also able to stimulate phospholipase D with efficacies similar to that of endothelin-1, and EC50 values of 16 and 3 nM, respectively. These results show that histamine and endothelin-1 stimulate phospholipase D in rat brain through H1 and ETB receptors, respectively.
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PMID:Histamine H1 and endothelin ETB receptors mediate phospholipase D stimulation in rat brain hippocampal slices. 761 43

The steroidogenic activity of the Leydig cell is regulated by glycoprotein and peptide hormones with the potential to activate both adenylate cyclase and phospholipase C. Although the control of androgen production by LH is clearly mediated by cAMP, the extent to which Ca(2+)-mobilizing stimuli control Leydig cell function is less well defined. The basal level of intracellular calcium ([Ca2+]i) in adult rat Leydig cells was 70-160 nM and was unaffected by high K+ or the dihydropyridine calcium channel agonist, Bay K 8644. These findings are consistent with the absence of voltage-sensitive calcium channels in the Leydig cell. In addition, no increase in [Ca2+]i was observed in cells treated with LH, CRF, and serotonin. However, both GnRH and endothelin-1 (ET-1) induced rapid and transient elevations of [Ca2+]i that were not associated with a sustained plateau phase and were unaffected by removal of Ca2+ from the incubation medium. The amplitude of the [Ca2+]i response was not altered by increasing concentrations of GnRH and ET-1, but the number of responsive cells increased progressively to a maximum of about 30% of the Leydig cell population. The calcium-mobilizing actions of GnRH and ET-1 were abolished by the GnRH and ETA receptor antagonists, [Dp-Glu1,D-Phe2,D- Trp3,6]GnRH and BQ-123, respectively. The majority of the cells expressed solely GnRH or ETA receptors, and about 10% expressed both receptors. GnRH-induced Ca2+ responses were observed almost exclusively in medium-sized Leydig cells, whereas ET-induced responses were most frequent in large Leydig cells. These data demonstrate that single Leydig cells expressing GnRH and ETA receptors exhibit monophasic [Ca2+]i responses that are activated in an all-or-none fashion. Such transient Ca2+ signaling may trigger short term cellular responses or could modulate the actions of gonadotropins acting through the cAMP signaling pathway.
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PMID:Calcium signaling in single rat Leydig cells. 762 78

Endothelins (ETs) caused concentration-dependent contraction in pregnant rat myometrium. ET-2 was as potent as ET-1 in affecting contractile responses, whereas ET-3 was considerably less potent than ET-1 or ET-2. ETs also increased inositol phosphate (IP) production in a dose-dependent manner, with IP production paralleling the contractile response. The rank order of potency for both the contractile responses and IP production was ET-1 = ET-2 > ET-3. When we compared the important oxytocic agent oxytocin, we found that oxytocin (10(-7) M) strongly increased contractility and IP production, and the responses were comparable to those elicited by ET-1 (10(-7) M) and ET-2 (10(-7) M). These results suggest that ET-induced myometrial contraction involves phospholipase C activation, and that a subtype of endothelin receptor existing in pregnant rat myometrium could be classified as ETA.
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PMID:Effects of endothelins on mechanical activity and inositol phosphate production in pregnant rat myometrium. 763 52

Endothelin (ET) is a potent vasoactive peptide produced by endothelial cells that elicits prolonged constriction in most smooth muscle preparations and dilation in others. Of three isopeptides, ET-1 is the only form constitutively released and may modulate vascular tone via binding to one of several receptor subtypes in smooth muscle. Activation of the ETA receptor is associated with pronounced vasoconstriction whereas ETB receptor occupation is linked to vasodilation. In addition, other subtypes of the ETB receptor exist, one mediating vasodilation (ETB1) and the other eliciting constriction (ETB2). An additional receptor subtype, ETC, has been identified although its physiological significance is uncertain. Distribution of these receptors varies between species and among tissue types, although it has been generally observed that ETA receptors predominate in arterial vessels whereas ETB receptors predominate on the low pressure side of the circulation. In vascular smooth muscle, an increase in intracellular Ca2+ is a common feature occurring after activation of all receptor subtypes. Upon binding of ET-1 to ETA, phospholipase C is activated and inositol triphosphate is generated. Ca2+ is then released from intracellular stores accompanied by the influx of extracellular Ca2+ and activation of the contractile machinery. The precise mechanism by which ET-1 affects intracellular Ca2+ regulation is not fully understood, but most likely involves multiple ion channels, protein kinases, and other intracellular mediators. The events coupled to non-ETA receptor signaling are poorly understood.
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PMID:Endothelin receptors and calcium signaling. 767 12

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