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)

We examined the rate and extent of labeling of total cellular phosphatidylinositol 4,5-bisphosphate (PIP2) and phosphatidylinositol (PI) in canine tracheal smooth muscle in response to maximum levels of two different contractile agonists, carbachol (5.5 microM) and serotonin (5-hydroxytryptamine, 5-HT) (47 microM) and when a second agonist was given during a maximal contraction evoked by the first agonist. Unstimulated tracheal smooth muscle strips were incubated with [3H]-myo-inositol (MI) to label tissue MI without much labeling of inositol phospholipids. With carbachol, there was a 20-fold increase in the [3H]-MI incorporation rate into inositol phospholipids, decreases in PI and PIP2 contents, and increases in phosphatidic acid and diacylglycerol contents. PI and PIP2 specific radioactivities reached plateaus, 0.90 +/- 0.03 and 0.80 +/- 0.04, respectively, compared with [3H]-MI specific radioactivity. 5-HT at 47 microM evoked smaller changes including force development, [3H]-MI incorporation rate and lipid mass changes. However, the plateau of PI and PIP2 labeling reached levels similar to that determined during carbachol-evoked force, 0.90 +/- 0.06 and 0.82 +/- 0.04, respectively. Carbachol (55 microM) addition after incubation with 5-HT did not significantly alter the plateau levels of the specific radioactivities of PI or PIP2, although force and lipid mass changes were significantly changed. We conclude that 5-HT and muscarinic receptor coupling mechanisms utilize the same pool of PIP2 as a substrate for phospholipase C activation and the same PI pool for conversion to PIP and PIP2.
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PMID:Common phosphatidylinositol 4,5-bisphosphate pools are involved in carbachol and serotonin activation of tracheal smooth muscle. 839 64

Carbachol stimulation of phosphatidylinositol 4,5-bisphosphate (PIP2) hydrolysis by rat parotid gland membranes is dependent on the presence of GTP gamma S and is a result of m3-muscarinic receptor regulation of G-protein coupled, PIP2-specific phospholipase C (PLC). The PLC activity (> 80%) was solubilized with 1% Na-cholate but the solubilized enzyme was not stimulated by GTP gamma S and carbachol. Immunoblotting of rat parotid membranes with polyclonal antiserum, which recognizes alpha-subunits of the Gq/11 family, indicated the presence of two immunoreactive proteins of approximate molecular weights 41 and 42 kDa. Incubation of membranes with the common G alpha q/11 antiserum attenuated the stimulation of PIP2 hydrolysis, induced by GTP gamma S alone and by carbachol, in the presence of GTP gamma S. The antiserum had no effect on PIP2 hydrolysis in unstimulated membranes or in the cholate extract, where it is uncoupled from the G-protein. Antiserum against G alpha i, which is also coupled to the m3-muscarinic receptor in this tissue, had no effect on either basal or stimulated PIP2 hydrolysis. These results demonstrate that in rat parotid gland, activation of PIP2-specific PLC by m3-muscarinic receptor stimulation is mediated via alpha-subunits of the Gq/11 family of G-proteins.
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PMID:Involvement of G alpha q/11 in m3-muscarinic receptor stimulation of phosphatidylinositol 4,5 bisphosphate-specific phospholipase C in rat parotid gland membranes. 839 94

Carbachol, a full muscarinic receptor agonist, stimulated [3H]inositol phosphate accumulation in both the ventral and dorsal hippocampus, but its efficacy and affinity were higher in the former area. The partial agonist oxotremorine had a weak stimulatory effect in both regions. The affinity profiles of pirenzepine and AF-DX 116 in antagonizing carbachol-stimulated [3H]inositol phosphate accumulation indicated that M1 and M3 receptors contributed equally to the response in either region. On the other hand, there were no differences in the receptor density, or in the distribution of muscarinic receptor subtypes between the two regions of the hippocampus which could account for the effect as determined in binding experiments with selective antagonists. Analysis of carbachol binding curves did, instead, indicate a difference in the way the agonist interacted with the receptors within the hippocampus, i.e., carbachol recognized three agonist affinity states (superhigh, high and low) in the ventral hippocampus, and only two (high and low) in the dorsal part. The findings thus suggested that the regional diversity in the efficacy of carbachol in stimulating phosphoinositide turnover was related to the complexity with which it bound to muscarinic receptors. Transduction processes that intervene between changes in the muscarinic receptors' conformation and activation of phospholipase C might be relevant to these differences.
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PMID:Differences between rat dorsal and ventral hippocampus in muscarinic receptor agonist binding and interaction with phospholipase C. 843 9

Muscarinic cholinergic receptor function in rat brain cortex was characterized by performing binding assays with [3H](-)quinuclidinyl benzilate ([3H]QNB) in parallel with assays of phospholipase C (PLC) activation by carbachol using membrane preparations and exogenous [3H]-phosphatidylinositol 4,5-bisphosphate ([3H]PIP2). Competitive binding studies revealed high- and low-affinity binding sites for the receptor antagonists, pirenzepine, methoctramine and the p-fluoro analog of hexahydro-sila-difenidol (p-F-HHSiD). Carbachol-stimulated [3H]-phosphatidylinositol 4,5-biphosphate breakdown was specifically inhibited by pirenzepine and p-F-HHiSD. The inhibition curves for these antagonists were best described by interactions at two sites. There was quantitative agreement between the antagonist affinity constants and the proportion of high- and low-affinity sites derived in functional and binding studies. The characteristics of the putative subtypes of muscarinic receptors and their stimulation of phospholipase C was examined after treatment with two alkylating agents, N-ethoxycarbonyl-2-ethoxy-1,2-dihydroquinoline and propylbenzilylcholine mustard. Loss of receptors was closely correlated with loss of PLC activation by carbachol, without alteration of the EC50 value (21 microM) of this agonist, clearly demonstrating a lack of receptor reserve. When both alkylating treatments were adjusted to induce a decrease of 60% in the maximal number of [3H]QNB binding sites, a similar (60%) reduction in the maximal effect of carbachol on PLC activation was found. However, the characteristics of the remaining receptors after the treatment with the two alkylating agents differ markedly as determined by competition of pirenzepine, p-F-HHSiD and methoctramine for [3H]QNB binding, and for inhibition of carbachol-stimulated phospholipase C by pirenzepine and p-F-HHSiD.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differential effects of alkylating agents on the multiple muscarinic receptor subtypes linked to activation of phospholipase C by carbachol in rat brain cortical membranes. 843 4

1. In this paper we have determined the different signalling pathways involved in muscarinic acetylcholine receptor (AChR)-dependent inhibition of contractility in rat isolated atria. 2. Carbachol stimulation of M2 muscarinic AChRs exerts a negative inotropic response, activation of phosphoinositide turnover, stimulation of nitric oxide synthase and increased production of cyclic GMP. 3. Inhibitors of phospholipase C, protein kinase C, calcium/calmodulin, nitric oxide synthase and guanylate cyclase, shifted the dose-response curve of carbachol on contractility to the right. These inhibitors also attenuated the muscarinic receptor-dependent increase in cyclic GMP and activation of nitric oxide synthase. In addition, sodium nitroprusside, isosorbide, or 8-bromo cyclic GMP, induced a negative inotropic effect, increased cyclic GMP and activated nitric oxide synthase. 4. These results suggest that carbachol activation of M2 AChRs, exerts a negative inotropic effect associated with increased production of nitric oxide and cyclic GMP. The mechanism appears to occur secondarily to stimulation of phosphoinositides turnover via phospholipase C activation. This in turn, triggers cascade reactions involving calcium/calmodulin and protein kinase C, leading to activation of nitric oxide synthase and soluble guanylate cyclase.
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PMID:Endogenous nitric oxide signalling system and the cardiac muscarinic acetylcholine receptor-inotropic response. 856 14

Calcium signaling in fura-2 acetoxymethyl ester-loaded enteric glia was investigated in response to neuroligands; responses to ATP were studied in detail. Carbachol (1 mM), glutamate (100 microM), norepinephrine (10 microM), and substance P (1 microM) did not increase the intracellular calcium concentration ([Ca2+]i) in cultured enteric glia. An increasing percentage of glia responded to serotonin (4%; 100 microM), bradykinin (11%; 10 microM), and histamine (31%; 100 microM), whereas 100% of glia responded to ATP (100 microM). ATP-evoked calcium signaling was concentration dependent in terms of the percentage of glia responding and the peak [Ca2+]i achieved; responses were pertussis toxin insensitive. Based on responsiveness of enteric glia to purinergic agonists and peak [Ca2+]i evoked, ATP = UTP > ADP > beta, gamma-methyleneadenosine 5'-triphosphate >> 2-methylthioadenosine 5'-triphosphate = alpha,beta-methyleneadenosine 5'-triphosphate = AMP = adenosine, suggesting a glial P2U receptor. Depletion of D-myo-inositol 1,4,5-trisphosphate-sensitive calcium stores by thapsigargin (10 microM) abolished glial responses to ATP. Similarly, calcium responses were decreased 92% by U-73122 (10 microM), an inhibitor of phospholipase C, and 93% by the phorbol ester phorbol 12-myristate 13-acetate (100 nM), an activator of protein kinase C. Thus, cultured enteric glia can respond to neurotransmitters with increases in [Ca2+]i. Our data suggest that glial responses to ATP are mediated by a P2U receptor coupled to activation of phospholipase C and release of intracellular calcium stores.
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PMID:Enteric glia exhibit P2U receptors that increase cytosolic calcium by a phospholipase C-dependent mechanism. 859 30

In the present series of experiments, the ability of the postulated incretin factor, glucagon-like peptide-1 (GLP-1), to stimulate insulin release from desensitized islets was determined. Compared with responses observed from control islets incubated for 3.5 hours with 5.6 mmol/L glucose alone, prior exposure to 10 mmol/L glucose, 20 mmol/L glucose, or 10 micromol/L carbachol reduced peak second-phase insulin release rates to a subsequent 20-mmol/L glucose stimulus by 63%, 81%, or 70%, respectively. Efflux of 3H-inositol from prior high-glucose- or carbachol-exposed islets was abolished and accumulation of inositol phosphates (IPs) in response to 20 mmol/L glucose was reduced. Further addition of 10 nmol/L GLP-1 together with 20 mmol/L glucose significantly increased insulin output from desensitized islets. Carbachol (10 micromol/L) preexposure also abolished the subsequent insulin secretory and 3H-inositol efflux responses to 8 mmol/L glucose plus 10 micromol/L carbachol. Inclusion of 10 nmol/L GLP-1 together with 8 mmol/L glucose plus 10 micromol/L carbachol improved but did not normalize secretion from these islets. These improvements in secretory responsiveness from high-glucose- or carbachol- desensitized islets occurred despite the lack of any apparent restorative effect of GLP-1 on agonist-induced increases in phosphoinositide (PI) hydrolysis. Finally, unlike the situation observed with carbachol or high-glucose preexposure, chronic exposure of islets to GLP-1 (100 nmol/L) did not desensitized islets to a subsequent 20 mmol/L glucose stimulus. We conclude from these studies that the incretin factor GLP-1 may play an important role in maintaining insulin output from islets in which phospholipase C (PLC)-mediated hydrolysis of islet PI pools in impaired. GLP-1 may prevent a further decline in beta-cell function and the associated deterioration in glucose tolerance that accompanies chronic exposure of islets to one of several agonists, including high glucose.
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PMID:Glucagon-like peptide-1 stimulates insulin secretion but not phosphoinositide hydrolysis from islets desensitized by prior exposure to high glucose or the muscarinic agonist carbachol. 859 2

Morphological transformation of Chinese hamster ovary (CHO) cells can be induced by exogenous addition of cyclic AMP (cAMP) or through the stimulation of G protein-coupled receptors ectopically expressed in these cells. The morphological transformation has been shown to represent a phenotypic suppression of CHO cell tumorigenic potential. Studies were undertaken to determine which receptor-activated signal transduction pathway initiates the progression from a tumorigenic to a non-tumorigenic phenotype. Stimulation of CHO cells expressing the dopamine D1 receptor (CHOD1) with a D1 selective agonist, SKF38393, resulted in an increase in cAMP accumulation which correlated with morphologic transformation. SKF38393 had no effect on intracellular calcium levels, arguing against a requirement for phospholipase C or calcium mobilization in the D1-stimulated morphology change. In contrast, stimulation of muscarinic m5 (CHOm5) or vasopressin V1a (CHOV1a) receptors expressed in CHO cells with carbachol or arginine vasopressin (AVP), respectively, did not result in an increase in intracellular calcium and a morphology change. The time course of carbachol-stimulated calcium influx correlated with the time course of morphological transformation, but not with carbachol-stimulated cAMP or inositol, 1,4,5-trisphosphate (IP3) accumulation. Furthermore, no increase in cAMP accumulation was observed in AVP-stimulated CHOV1a cells, suggesting a cAMP-independent stimulation of the transformation process. Carbachol-stimulated CHO cells expressing the m2 muscarinic receptor (CHOm2) failed to undergo a morphological transformation, yet released IP3. Therefore, phospholipase C-mediated signal transduction is not sufficient for the morphological transformation of CHO cells. It appears that receptor-stimulated morphologic transformation of CHO cells can be induced via two independent signaling pathways, mediated by adenylate cyclase or receptor-operated calcium channels.
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PMID:Independent induction of morphological transformation of CHO cells by receptor-activated cyclic AMP synthesis or by receptor-operated calcium influx. 861 96

The function of the phosphoinositide second messenger system was assessed in occipital, temporal, and frontal cortex obtained postmortem from subjects with bipolar affective disorder and matched controls by measuring the hydrolysis of [3H]phosphatidylinositol ([3H]PI) incubated with membrane preparations and several different stimulatory agents. Phospholipase C activity, measured in the presence of 0.1 mM Ca2+ to stimulate the enzyme, was not different in bipolar and control samples. G proteins coupled to phospholipase C were concentration-dependently activated by guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) and by NaF. GTP gamma S-stimulated [3H]Pl hydrolysis was markedly lower (50%) at all tested concentrations (0.3-10 microM GTP gamma S) in occipital cortical membranes from bipolar compared with control subjects. Responses to GTP gamma S in temporal and frontal cortical membranes were similar in bipolars and controls, as were responses to NaF in all three regions. Brain lithium concentrations correlated directly with GTP gamma S-stimulated [3H]Pl hydrolysis in bipolar occipital, but not temporal or frontal, cortex. Carbachol, histamine, trans-1-aminocyclopentyl-1,3-dicarboxylic acid, serotonin, and ATP each activated [3H]Pl hydrolysis above that obtained with GTP gamma S alone, and these responses were similar in bipolars and controls except for deficits in the responses to carbachol and serotonin in the occipital cortex, which were equivalent to the deficit detected with GTP gamma S alone. Thus, among the three cortical regions examined there was a selective impairment in G protein-stimulated [3H]Pl hydrolysis in occipital cortical membranes from bipolar compared with control subjects. These results directly demonstrate decreased activity of the phosphoinositide signal transduction system in specific brain regions in bipolar affective disorder.
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PMID:The phosphoinositide signal transduction system is impaired in bipolar affective disorder brain. 863 63

Intracellular calcium measurements were performed in cultured human trabecular meshwork cells preloaded with the cell permeant dye fura 2-AM. Fluctuations in calcium levels were then monitored with microscope-based ratio fluorometry. Carbachol increased intracellular calcium in a dose-dependent manner; as did oxotremorine-M, aceclidine, and pilocarpine. Carbachol's effect was blocked by the non-selective muscarinic antagonist atropine, as well as by muscarinic receptor subtype-selective antagonists such as pirenzepine (M1-selective), p-fHHSiD (M3-selective), and 4-DAMP (M1, M3 subtypes). Rank order of potencies for the antagonists' effects was atropine = 4-DAMP > p-fHHSiD > pirenzepine, a profile suggesting that the M3 receptor subtype is essential in the carbachol effect. Phospholipase C activity was estimated via measurement of total production of inositol phosphates in cultured human trabecular meshwork cells pre-exposed to 3H-myoinositol. In these cells, carbachol also stimulated phosphoinositide production in a dose-dependent manner, and an antagonist profile similar to that seen for calcium response was obtained when carbachol was used as the effector. The data indicate that muscarinic effects on cultured human trabecular meshwork calcium mobilization and phospholipase C activity are mediated by an M3-like receptor subtype. Therefore, the muscarinic M3 receptor may play a role in trabecular meshwork cell function(s).
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PMID:Effects of muscarinic agents on cultured human trabecular meshwork cells. 869 29

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