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)

In the dog iris sphincter, muscarinic acetylcholine receptors are coupled either to the stimulation of phospholipase C and muscle contraction or to the stimulation of adenylate cyclase and muscle relaxation, this was found to be dependent upon the concentration of the muscarinic agonist. In contrast to the dog, muscarinic receptors in iris sphincters from different mammalian species were found to be coupled to phospholipase C and contraction at all concentrations of carbachol investigated (1-100 microM). In the dog sphincter, lower concentrations (less than 5 microM) of carbachol stimulated myo-inositol 1,4,5-trisphosphate (IP3) production, inhibited cAMP formation and induced contraction, and higher concentrations (greater than 5 microM) enhanced cAMP formation, inhibited IP3 production and induced relaxation. The mechanisms for the stimulatory effects on cAMP formation through muscarinic receptors were investigated. Carbachol (25 microM) increased both basal and isoproterenol- and forskolin-stimulated cAMP levels. Atropine inhibited the carbachol-stimulated increase in cAMP levels in a dose-dependent manner with an IC50 of 9 nM. Intracellular Ca2+, derived from IP3-induced Ca2+ release and/or from muscarinic receptor-operated Ca2+ influx, and protein kinase C may mediate the muscarinic receptor-linked rise in intracellular cAMP. This conclusion is supported by the following findings. (1) At short time intervals (less than 1 min) carbachol (25 microM) increased IP3 production and contraction and this was followed (between 1 and 20 min) by cAMP formation and muscle relaxation. (2) Carbachol-stimulated IP3 production was detected at a concentration of the agonist 26-fold lower than that required for cAMP formation, and it was completely blocked by the phorbol ester, phorbol 12,13-dibutyrate (50 nM). (3) A Ca(2+)-calmodulin stimulated adenylate cyclase was demonstrated in membranes from dog iris sphincter but not in that from rabbit and bovine. (4) Trifluoperazine (0.1 microM), a calmodulin antagonist, inhibited the carbachol-stimulated cAMP accumulation. (5) The Ca2+ ionophore A23187 and the phorbol ester increased cAMP production in a dose-dependent manner. A23187 potentiated cAMP production induced by either carbachol or by the phorbol ester. (6) Muscarinic stimulation of cAMP production persisted even after the tissue was pretreated with the phorbol ester or staurosporine. (7) Nifedipine (0.01-0.5 microM), a Ca2+ channel antagonist, inhibited carbachol stimulation of cAMP production, suggesting the presence of a muscarinic receptor-operated Ca2+ influx pathway in this tissue.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Carbachol stimulates adenylate cyclase and phospholipase C and muscle contraction-relaxation in a reciprocal manner in dog iris sphincter smooth muscle. 132 47

Endothelin (ET) exerts various biological actions in mesangial cells, including stimulation of proliferation, contraction and phospholipase C activation. We investigated the presence of specific ET receptors on cultured rat mesangial cells, incubating the cells in the presence of [125I]ET-1 both at 22 and 4 degrees C. ET binding was time- and temperature-dependent and achieved equilibrium at 2 hr at 22 degrees C and at 5 hr at 4 degrees C. Scatchard analyses of equilibrium saturation curves with [125I]ET-1 and homologous competition curves revealed the presence of a single class of high-affinity binding sites (Kd = 31.4 +/- 7.08 pM). Heterologous competition experiments with ET-3 and sarafotoxin, however, indicated the presence of two binding sites for ET-related peptides in mesangial cells with a Kd for ET-3 of 41.5 +/- 19.2 and of 374 +/- 38.5 nM. Nifedipine and arginine-vasopressin failed to compete for ET binding sites. Preincubation of the cells with 1 nM ET-1 caused a dramatic decrease in ET binding capacity (from 0.5-0.02 fmol/100,000 cells) without affecting the Kd for the receptors (38 pM). ET receptor down regulation was not prevented by protein kinase C inhibition with H-7 and sangiovamycin, or after down regulation of protein kinase C induced by 24-hr preincubation with phorbol myristate acetate. ET receptor down regulation also exerts functional effects, as we found a decrease in intracellular-free calcium response to ET-1 after long-term preincubation with the same agonist. Our results are consistent with the presence of two binding sites for ET in rat mesangial cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endothelin binding and receptor down regulation in rat glomerular mesangial cells. 184 3

The effect of Clostridium perfringens alpha toxin on contraction induced by electric stimulation of isolated guinea-pig diaphragm was investigated. The toxin inhibited electrically stimulated contraction of the tissue in a dose- and incubation time-dependent manner. Tetrodotoxin resulted in no effect of the action of the toxin. Nifedipine dose-dependently delayed the action of the toxin, but verapamil and diltiazem did not. On the other hand, treatment of the toxin with N-acetylimidazole caused significant reduction of the inhibitory activity of the toxin on contraction, but did not cause significant loss of phospholipase C activity (PN activity) as measured by hydrolysis of p-nitrophenylphosphorylcholine. The data showed that the toxin impairs contraction of isolated guinea-pig diaphragm.
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PMID:Effect of Clostridium perfringens alpha toxin on contraction of isolated guinea-pig diaphragm. 192 63

The release of arachidonic acid in A549 cells was stimulated in a time- and dose-dependent manner by the Ca2+ ionophore ionomycin (t1/2 = 4 min), thapsigargin (t1/2 = 8 min), bradykinin (t1/2 = 12 min, EC50 = 3 nM), and interleukin 1 alpha (t1/2 = 28 min, EC50 = 0.3 ng/ml). Bradykinin (10 nM) and interleukin 1 alpha (1 ng/ml) stimulation was blocked by the bradykinin B2 receptor antagonist, D-Arg,[Hyp3,Thi5,8, D-Phe7]bradykinin and interleukin 1 receptor antagonist (IC50 = 30 mM and 20 ng/ml, respectively), suggesting receptor mediation. Diacylglycerol release was < 10% of total arachidonic acid release in all cases, suggesting activation of phospholipase A2 activity was greater than phospholipase C activation by these agents. The effects of ionomycin (3 microM) and thapsigargin (0.3 microM) were abolished in Ca(2+)-free buffer with and without 0.5 mM EGTA. Bradykinin (10 nM) stimulation was reduced by 50% in Ca(2+)-free buffer whereas interleukin 1 alpha (1 ng/ml) stimulation remained unaffected. However, the presence of EGTA completely abolished bradykinin stimulation and partially blocked the effect of interleukin 1 alpha (43% inhibition). In the presence of extracellular Ca2+, ionomycin (3 mM), thapsigargin (0.3 mM), bradykinin (10 nM), and interleukin 1 alpha (1 ng/ml) stimulation of arachidonic acid release was blocked by the Ca2+ influx blocker LaCl3 (29, 44, 35, and 41% inhibition, respectively). Nifedipine also blocked ionomycin and thapsigargin stimulation but only partially blocked bradykinin and interleukin 1 alpha stimulation. These results suggest that following B2 receptor activation, cytosolic phospholipase A2 is stimulated by a rise in intracellular Ca2+ levels which are sensitive to the action of EGTA, whereas interleukin 1 alpha stimulation of cytosolic phospholipase A2 is mediated by a rise in intracellular Ca2+ from both EGTA-sensitive and resistant pools. Furthermore the results of ionomycin and thapsigargin indicate that extracellular Ca2+ is important for activation of cytosolic phospholipase A2 in A549 cells.
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PMID:Differential role of extra- and intracellular calcium in bradykinin and interleukin 1 alpha stimulation of arachidonic acid release from A549 cells. 813 Feb 63

1. The present report gives a detailed account of histamine-stimulated phospholipase C (PLC) activity in bovine adrenal chromaffin cells. 2. Histamine activation of H1 receptors stimulates PLC with a biphasic sensitivity to extracellular Ca2+. The initial response (the first 15 s stimulation) was not reduced by the removal of extracellular Ca2+, whereas the maintenance of PLC activity beyond this time required Ca2+ influx. 3. Phospholipase C activity in response to a 10 min incubation with histamine was inhibited by La3+ (3 mmol/L) or SKF96365 (10 mumol/L). Nifedipine (10 mumol/L), but not omega-agatoxin IVA (100 nmol/L) or omega-conotoxin GVIA (300 nmol/L), produced a partial inhibition of PLC activity. The response was also partially inhibited by a reduction in the extracellular Cl- concentration (40 mmol/L) or by the inclusion of the Cl- channel blocker N-phenylanthranilic acid (300 mumol/L). 4. Kinetic analysis of the rate of turnover of the various inositol phosphate isomers in response to histamine suggested that the inositol monophosphates were being produced from a source in addition to inositol 1,4,5-trisphosphate (Ins(1,4,5)P3) metabolism. This conclusion was supported by the differential action of pertussis toxin and neomycin on Ins(1,4,5)P3 formation compared with inositol monophosphate formation. 5. We have attempted to identify a defined role for the intracellular Ca2+ mobilized in these cells in response to histamine. After short incubations (up to 3 min), histamine was able to regulate the site-specific phosphorylation of tyrosine hydroxylase, the rate-limiting enzyme in catecholamine synthesis. This observation has important implications for a possible role for the PLC signalling pathway in controlling the rate of catecholamine biosynthesis.
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PMID:Histamine-stimulated phospholipase C signalling in the adrenal chromaffin cell: effects on inositol phospholipid metabolism and tyrosine hydroxylase phosphorylation. 926 39

The stimulatory effect of thyrotropin-releasing hormone (TRH) on alpha-melanocyte stimulating hormone (MSH) secretion from the frog pars intermedia is mediated through the phospholipase C (PLC) pathway but requires extracellular Ca2+. The aim of the present study was to investigate the respective contribution of extracellular and intracellular Ca2+ in the action of TRH on cytosolic calcium concentration ([Ca2+]i) and alpha-MSH release. In normal conditions, TRH (10(-7) M; 5 s) evoked two types of Ca2+ responses: in 63% of the cells, TRH caused a sustained and biphasic increase in [Ca2+]i while in 37% of the cells, TRH only induced a transient response. In the presence of EGTA or Ni2+, the stimulatory effect of TRH on [Ca2+]i and alpha-MSH secretion was totally suppressed. Nifedipine (10(-6) M) reduced by approximately 50% the amplitude of the two types of Ca2+ responses whereas omega-conotoxin GVIA (10(-7) M) suppressed the plateau-phase of the sustained response indicating that the activation of L-type Ca2+-channels (LCC) is required for initiation of the Ca2+ response while N-type Ca2+-channels (NCC) are involved in the second phase of the response. Paradoxically, neither nifedipine nor omega-conotoxin GVIA had any effect on TRH-induced alpha-MSH secretion. The PLC inhibitor U-73122 (10(-6) M) significantly reduced the transient increase in [Ca2+]i and totally suppressed the sustained phase of the Ca2+ response but had no effect on TRH-induced alpha-MSH secretion. The stimulatory effect of TRH on PLC activity was not effected by nifedipine and omega-conotoxin GVIA but was abolished in Ca2+-free medium. Ryanodine had no effect on the TRH-induced stimulation of [Ca2+]i and alpha-MSH secretion. Concomitant administration of nifedipine/omega-conotoxin GVIA or U-73122/omega-conotoxin GVIA markedly reduced the response to TRH but did not affect TRH-evoked alpha-MSH release. In contrast, concomitant administration of U-73122 and nifedipine significantly reduced the effect of TRH on both [Ca2+]i and alpha-MSH release. Taken together, these data indicate that, in melanotrope cells, activation of TRH receptors induces an initial Ca2+ influx through nifedipine- and omega-conotoxin-insensitive, Ni2+-sensitive Ca2+-channels which subsequently activates LCC and causes Ca2+ mobilization from intracellular pools by enhancing PLC activity. Activation of the PLC causes Ca2+ entry through NCC which is responsible for the plateau-phase of sustained Ca2+ response. Although nifedipine and U-73122, separately used, were devoid of effect on secretory response, Ca2+ entry through LCC and mobilization of intracellular Ca2+ are both involved in TRH-evoked alpha-MSH release because only one source of Ca2+ is sufficient for inducing maximal hormone release. In contrast, the Ca2+ influx through NCC does not contribute to TRH-induced alpha-MSH secretion.
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PMID:Involvement of extracellular and intracellular calcium sources in TRH-induced alpha-MSH secretion from frog melanotrope cells. 968 12

In smooth muscle cells isolated from swine renal interlobar arteries, phenylephrine (PE) at concentrations of 1-10 microM produced biphasic increases of the intracellular calcium concentration. An early transient rise was followed by a maintained plateau. The maintained component was sensitive to extracellular calcium, in contrast to the early transient, which was still observed in nominally calcium-free solution. Nifedipine (1 microM) and NiCl2 (100 microM) only weakly affected the calcium signal, suggesting that voltage-sensitive calcium channels play only a minor role in the PE-induced changes in intracellular calcium. Thapsigargin (0.5 microM) elevated the intracellular calcium concentration and depressed both the early transient and the maintained component of the PE response. In calciumfree medium PE induced a transient rise of the intracellular calcium concentration with a depressed plateau. Readmission of calcium elevated the intracellular calcium concentration above the baseline. Both components of the PE-induced calcium signal were completely abolished when the cells were pretreated with the phospholipase C (PLC) inhibitor U73122 (2 microM). LaCl3 (100 microM, 1 mM), an inhibitor of calcium-release-activated current (ICRAC), had no effect on the PE-induced calcium signal. GdCl3 (50 microM), SKF 96365 (10 microM) and flufenamic acid (100 microM), reported to inhibit nonselective cation channels, blocked or transiently reduced the maintained calcium signal. Several protein kinase inhibitors such as genistein (10 microM), H7 (50 microM), H89 (1 microM) and bisindolylmaleimide (0.2 microM) reduced the maintained calcium signal. We conclude that the initial transient spike of the PE-induced calcium signal is due to release of calcium from inositol 1,4,5-trisphosphate-sensitive calcium stores evoked by alpha 1-adrenoceptor-coupled stimulation of PLC and that the maintained component is due to capacitative calcium entry, which is modulated by protein kinases.
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PMID:Changes of intracellular calcium concentrations by phenylephrine in renal arterial smooth muscle cells. 1059 Oct 58

Arginine vasopressin (AVP), bombesin, and ACh increase cytosolic free Ca(2+) and potentiate glucose-induced insulin release by activating receptors linked to phospholipase C (PLC). We examined whether tolbutamide and diazoxide, which close or open ATP-sensitive K(+) channels (K(ATP) channels), respectively, interact with PLC-linked Ca(2+) signals in HIT-T15 and mouse beta-cells and with PLC-linked insulin secretion from HIT-T15 cells. In the presence of glucose, the PLC-linked Ca(2+) signals were enhanced by tolbutamide (3-300 microM) and inhibited by diazoxide (10-100 microM). The effects of tolbutamide and diazoxide on PLC-linked Ca(2+) signaling were mimicked by BAY K 8644 and nifedipine, an activator and inhibitor of L-type voltage-sensitive Ca(2+) channels, respectively. Neither tolbutamide nor diazoxide affected PLC-linked mobilization of internal Ca(2+) or store-operated Ca(2+) influx through non-L-type Ca(2+) channels. In the absence of glucose, PLC-linked Ca(2+) signals were diminished or abolished; this effect could be partly antagonized by tolbutamide. In the presence of glucose, tolbutamide potentiated and diazoxide inhibited AVP- or bombesin-induced insulin secretion from HIT-T15 cells. Nifedipine (10 microM) blocked both the potentiating and inhibitory actions of tolbutamide and diazoxide on AVP-induced insulin release, respectively. In glucose-free medium, AVP-induced insulin release was reduced but was again potentiated by tolbutamide, whereas diazoxide caused no further inhibition. Thus tolbutamide and diazoxide regulate both PLC-linked Ca(2+) signaling and insulin secretion from pancreatic beta-cells by modulating K(ATP) channels, thereby determining voltage-sensitive Ca(2+) influx.
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PMID:Tolbutamide and diazoxide modulate phospholipase C-linked Ca(2+) signaling and insulin secretion in beta-cells. 1075 Nov 97

Alteration of [Ca2+]i by hyperglycemia is implicated in the pathogenesis of diabetic nephropathy. However, the effect of high glucose on Ca2+ regulation in proximal tubule cells is not known. Thus, we examined the mechanisms by which high glucose regulates Ca2+ uptake in primary cultured rabbit renal proximal tubule cells. Glucose increased the Ca2+ uptake in a time- and dose-dependent manner. A stimulatory effect of high glucose on Ca2+ uptake is predominantly observed using 25 mM glucose (high glucose) after 1 h, while 25 mM glucose did not affect cell viability and lactate dehydrogenase release. However, 25 mM mannitol and L-glucose did not affect Ca2+ uptake as compared with controls. Nifedipine and methoxyverapamil (L-type Ca2+ channel blockers) blocked high-glucose-induced stimulation of Ca2+ uptake. High-glucose-induced stimulation of Ca2+ uptake was blocked by pertussis toxin, SQ-22536 (adenylate cyclase inhibitor), myristoylated amide 14-22 (protein kinase A inhibitor), neomycin and U-73122 (phospholipase C inhibitors), and staurosporine and bisindolylmaleimide I (protein kinase C inhibitors). In addition, KN-62 (a Ca2+/calmodulin-dependent protein kinase II inhibitor) and W-7 (a Ca2+/calmodulin antagonist) blocked high-glucose-induced stimulation of Ca2+ uptake. In conclusion, high glucose stimulates the Ca2+ uptake through L-type Ca2+ channels via G-protein-coupled adenylate cyclase/cAMP and phospholipase C/protein kinase C pathways.
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PMID:High glucose stimulates Ca2+ uptake via cAMP and PLC/PKC pathways in primary cultured renal proximal tubule cells. 1117 1

In PC-Cl3 rat thyroid cell line, ATP and UTP provoked a transient increase in [Ca(2+)](i), followed by a lower sustained phase. Removal of extracellular Ca(2+) reduced the initial transient response and completely abolished the plateau phase. Thapsigargin (TG) caused a rapid rise in [Ca(2+)](i) and subsequent addition of ATP was without effect. The transitory activation of [Ca(2+)](i) was dose-dependently attenuated in cells pretreated with the specific inhibitor of phospholipase C (PLC), U73122. These data suggest that the ATP-stimulated increment of [Ca(2+)](i) required InsP(3) formation and binding to its specific receptors in Ca(2+) stores. Desensitisation was demonstrated with respect to the calcium response to ATP and UTP in Fura 2-loaded cells. Further studies were performed to investigate whether the effect of ATP on Ca(2+) entry into PC-Cl3 cells was via L-type voltage-dependent Ca(2+) channels (L-VDCC) and/or by the capacitative pathway. Nifedipine decreased ATP-induced increase on [Ca(2+)](i). Addition of 2 mM Ca(2+) induced a [Ca(2+)](i) rise after pretreatment of the cells with TG or with 100 microM ATP in Ca(2+)-free medium. These data indicate that Ca(2+) entry into PC-Cl3 stimulated with ATP occurs through both an L-VDCC and through a capacitative pathway. Using buffers with differing Na(+) concentrations, we found that the effects of ATP were dependent of extracellular Na(+), suggesting that a Na(+)/Ca(2+) exchange mechanism is also operative. These data suggest the existence, in PC-Cl3 cell line, of a P2Y purinergic receptor able to increase the [Ca(2+)](i) via PLC activation, Ca(2+) store depletion, capacitative Ca(2+) entry and L-VDCC activation.
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PMID:Increase of [Ca(2+)](i) via activation of ATP receptors in PC-Cl3 rat thyroid cell line. 1174 90

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