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)

Adenylyl cyclase exists as a family of closely related subtypes which differ in their tissue distribution and regulatory properties. Submicromolar rises in [Ca2+]i produced via activation of phospholipase C (PLC) or Ca2+ channel opening, provide a mechanism by which Ca2+/calmodulin (CaM) or protein kinase C (PKC)-sensitive isoforms of adenylyl cyclase can be regulated. In this study we have examined, in detail, the muscarinic (M3) regulation of adenylyl cyclase in SH-SY5Y cells and report a role for both [Ca2+]e and [Ca2+]i. Carbachol (1 mM) and potassium (100 mM) caused a time (T1/2 = 3 and 4 min, respectively) and dose (EC50 = 6.95 microM and 34.7 mM respectively) related increase in cAMP formation. This amounted to an approximate two-fold increase over basal levels. Carbachol and potassium also caused a biphasic increase in [Ca2+]i with basal, peak and plateau values of 118.4 nM, 697.6 nM, 253.0 nM and 104.0 nM, 351.6 nM, 181.5 nM, respectively. Calcium channel blockade with nickel (2.5 mM) abolished potassium-stimulated cAMP formation and rises in [Ca2+]i. However, carbachol-stimulated cAMP formation was significantly decreased only at the later time points, where rises in [Ca2+]i were also essentially abolished. Further evidence for a role for [Ca2+]e and [Ca2+]i is provided by the stimulation of cAMP formation by carbachol in the absence of added Ca2+, followed by a further increase on its re-addition. Carbachol- and potassium-stimulated cAMP formation were inhibited by the CaM antagonist trifluoperazine (100 microM). The mu-opiate agonists, morphine and fentanyl also inhibited carbachol-stimulated cAMP formation. In addition, cAMP formation in SH-SY5Y cell membranes was significantly increased in the presence of Ca2+ (1.46 microM), CaM (200 nM) and forskolin (1 microM). PKC inhibition with Ro 31 8220 did not affect carbachol-stimulated cAMP formation. Taken collectively, these data suggest that SH-SY5Y cells express type 1, and possibly type 8 isoforms of adenylyl cyclase, which can be regulated by intra- and extracellular Ca2+.
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PMID:Adenylyl cyclase in SH-SY5Y human neuroblastoma cells is regulated by intra- and extracellular calcium. 778 4

Inhibitory effects of the anti-manic agent lithium on carbachol-stimulated phosphoinositide signaling have been investigated in Chinese hamster ovary (CHO) cells transfected with human m1 muscarinic receptor cDNA (Bmax, 816 fmol/mg of protein). In the presence of Li+, a time-dependent inhibition of inositol-1,4,5-trisphosphate [Ins(1,4,5)P3] mass accumulation was observed within 10 min of agonist addition (IC50 for lithium inhibition at 20 min after carbachol addition, 0.5 mM). The Li(+)-induced decrease in agonist-stimulated Ins(1,4,5)P3 levels was preceded by a dramatic increase in CMP-phosphatidate accumulation. The idea that Li+ blockade of inositol monophosphatase caused a rapid depletion of the cellular myo-inositol pool in CHO-m1 cells was supported by the reversal of Li+ effects by exogenous myo-inositol. Carbachol (1 mM) alone caused a rapid and dramatic decrease in phosphatidylinositol-4,5-bisphosphate [PtdIns(4,5)-P2]in CHO-m1 cells labeled to equilibrium with [3H]-inositol. Carbachol-evoked decreases in PtdIns(4,5)P2 were time-dependently accentuated by Li+ (IC50 for Li+ inhibition at 20 min after carbachol addition, 1.2 mM). Measurements of changes in PtdIns(4,5)P2 mass demonstrated that the effect of Li+ was completely and concentration-dependently reversed by addition of myo-inositol. Sequential 30-min periods of carbachol stimulation resulted in similar time courses of Ins(1,4,5)P3 accumulation when an intervening 20-min recovery period was included in the protocol. Inclusion of Li+ throughout resulted in a more rapid and dramatic attenuation of Ins(1,4,5)P3 during the agonist rechallenge period, which could be correlated with accentuated changes in PtdIns(4,5)P2. These data demonstrate that, although mechanisms operate to efficiently resynthesize PtdIns(4,5)P2, the temporal correlation of carbachol-evoked decreases in PtdIns(4,5)P2 levels in the presence of Li+ strongly suggests that phosphoinositide-specific phospholipase C substrate depletion may be causal in the subsequent decrease in Ins(1,4,5)P3 levels.
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PMID:Disruption by lithium of phosphatidylinositol-4,5-bisphosphate supply and inositol-1,4,5-trisphosphate generation in Chinese hamster ovary cells expressing human recombinant m1 muscarinic receptors. 780 34

We studied the effects of the aminosteroid U-73122, a putative phospholipase C (PLC) inhibitor, on carbachol-induced increases in insulin release, [Ca2+]i, and IP3 in beta-TC3 cells. Carbachol (0.1-100 microM) increased [Ca2+]i and carbachol (0.1-1000 microM) increased insulin release dose-dependently. Carbachol (100 microM) also increased inositol 1,4,5-trisphosphate (IP3) production. U-73122 (2-12 microM) inhibited the effects of carbachol on [Ca2+]i and insulin release in a dose-dependent manner, and at the highest dose studied (12 microM) it abolished or greatly attenuated all three effects of carbachol. In contrast, U-73343 (12 microM), the analog of U-73122 that does not inhibit PLC, only inhibited the effect of carbachol on [Ca2+]i by 20%, and did not inhibit the effect of carbachol on insulin release. Since carbachol increases IP3, [Ca2+]i, and insulin release by activating PLC, these results suggested that U-73122 inhibits phospholipase C-dependent processes in beta-TC3 cells.
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PMID:U-73122 inhibits carbachol-induced increases in [Ca2+]i, IP3, and insulin release in beta-TC3 cells. 783 24

The Alzheimer amyloid precursor protein (APP) undergoes complex processing resulting in the production of a 4-kDa amyloid peptide (A beta) which has been implicated in the pathogenesis of Alzheimer's disease. Recent studies have shown that cells can secrete carboxyl terminus truncated APP derivatives (APP-S) in response to physiological stimulus. We have used human central nervous system neurons (NT2N) derived from a teratocarcinoma cell line (NT2) to study the signal transduction pathways involved in APP-S secretion and A beta production. Muscarinic receptors (m2 and m3) as well as the heterotrimeric GTP-binding protein Gq and the beta 1 isoform of phospholipase C were present in NT2N neurons. Stimulation of the muscarinic receptor with carbachol resulted in phospholipase C activation as shown by a transient increase in the second messengers 1,2-diacyl-sn-glycerol and inositol 1,4,5-trisphosphate. Carbachol also caused an increase in intracellular Ca2+ levels measured in single NT2N neurons. Under these conditions, carbachol caused a time-dependent 2-fold increase in APP-S secretion into the medium. In contrast, prolonged treatment with carbachol caused a decrease in A beta production into the medium. These results suggest that APP-S secretion and A beta production in NT2N neurons are regulated by the muscarinic/phospholipase C signal transduction pathway. Furthermore, activation of this pathway results in dissociation of APP-S secretion and A beta production.
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PMID:Muscarinic regulation of Alzheimer's disease amyloid precursor protein secretion and amyloid beta-protein production in human neuronal NT2N cells. 787 66

The coupling of muscarinic-cholinergic receptors (mAChR) to adenylate cyclase and phospholipase C (PLC) second messenger systems has been demonstrated in many animal species. However, little is known about this association in the developing human central nervous system. Because of the proposed role of acetylcholine in the regulation of development and differentiation of neural cells, an understanding of these relationships during human fetal development gains importance. We report, in this communication, the coupling of mAChR with PLC in the human fetal brain. This coupling was determined using two independent approaches that relied upon estimating the accumulation of inositol phosphates (IPs) and cytidine diphosphate diacylglycerol (CDP-DAG). Carbachol treatment of brain slices, in the presence of lithium, resulted in the accumulation of IPs. Analysis of the kinetics of this accumulation showed that IP3 and IP2 increased rapidly, reaching a peak or plateau before IP. The results also showed that agonist-stimulated PLC produced two second messengers, IP3 and DAG. The production of DAG was strongly supported by the carbachol-dependent increase of CDP-DAG. The accumulation of IP and CDP-DAG was dependent on agonist concentration. The obtained EC50 values were approximately: carbachol 47 microM; acetylcholine 6 microM; and oxotremorine 25 microM. Unexpectedly, all three agonists demonstrated a similar efficacy. The cholinergic stimulation of inositide hydrolysis appears to be the result of activation of the m1 muscarinic receptor.
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PMID:Muscarinic receptor-dependent activation of phospholipase C in the developing human fetal central nervous system. 798 80

The effects of PACAPs on [Ca2+]i were compared to those of carbachol in human neuroblastoma NB-OK-1 cells. PACAP(1-27) and PACAP(1-38) increased [Ca2+]i in a biphasic manner: a transient rise and a secondary plateau. The transient phase reflected the mobilization of [Ca2+]i pool(s) via the inositol phosphate pathway. The modest sustained plateau required extracellular Ca2+. Carbachol also increased [Ca2+]i in a biphasic manner, but it mobilized intracellular Ca2+ pool(s) with a higher efficacy than PACAPs, then greatly increased Ca2+ entry, this being accompanied by a more marked and prolonged elevation of IP3 and IP4 than with PACAPs. It is likely that cAMP-mediated phosphorylations due to PACAPs facilitated desensitization at the PACAP receptor-phospholipase C level, so that there was less Ca2+ handling through PACAP receptors than with muscarinic M1 receptors.
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PMID:Contrasting effects of PACAP and carbachol on [Ca2+]i and inositol phosphates in human neuroblastoma NB-OK-1 cells. 813 91

Muscarinic agonist-induced contraction of the ciliary muscle is generally believed to increase aqueous outflow facility and effect accommodation. We used cultured human ciliary muscle cells as a model to study the muscarinic receptor subtype(s) involved in the contractile response of the muscle. Thus, a single cell contraction assay for these muscle cells was developed. And since agonist-induced contraction of smooth muscles is expected to involve the activation of phospholipase C (PLC), we also monitored the PLC activity in these cells. Carbachol caused contraction of the muscle cells in a dose-dependent and time-dependent manner with an estimated EC50 of 1-3 microM. The contractile effect of 100 microM carbachol was antagonized by pretreatment of atropine (1 microM) and 4DAMP (10 nM, antagonist selective for the M1 and M3 receptors) but not by pirenzepine (10 microM, antagonist selective for the M1 receptor), suggesting the involvement of the M3 but not the M1 muscarinic receptor. M3 receptor is also essential for the carbachol-induced PLC activation in the ciliary muscle cells, as indicated by the activity profiles of receptor subtype selective antagonists. For example, the stimulative effect of carbachol (EC50 = 20 microM) was antagonized by pirenzepine (pKi = 6.8), HHSiD (pKi = 7.6), 4DAMP (pKi = 9.5) and methoctramine (pKi < 6). Thus, these results indicate that an M3-like receptor subtype is essential in mediating the muscarinic agonists-induced functional changes, such as PLC activation or muscle contraction, in the ciliary muscle.
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PMID:Characterization of muscarinic receptor involvement in human ciliary muscle cell function. 820 20

Previous studies had shown that MyoD promoted nicotinic acetylcholine subunit gene expression; the present experiments were done to determine whether this subsequently led to the development of functional nicotinic acetylcholine receptors. Transfection of C3H 10T1/2 cells with MyoD cDNA resulted in the appearance of [125I]alpha-bungarotoxin binding sites; radiolabelled alpha-toxin binding was not observed in cells transfected with a plasmid that lacked MyoD cDNA. Receptor development plateaued over a time course of several days with maximal binding seven and 11 days after exposure to fusion medium. [125I]alpha-bungarotoxin binding was of high affinity (Kd = 1 nM), saturable and was inhibited by nicotinic but not muscarinic receptor ligands, with IC50s of 1-3 nM for alpha-bungarotoxin, 1-3 microM for d-tubocurarine and 3-10 microM for nicotine. Not only did the cells exhibit a cell surface nicotinic receptor but they also expressed a nicotinic receptor mediated functional response. Carbachol resulted in uptake of 22Na into the cells at concentrations similar to those required for receptor activation at a muscle type nicotinic receptor; furthermore, the functional response was effectively blocked by nicotinic receptor ligands, including alpha-bungarotoxin (IC50 = 2 to 6 nM) and d-tubocurarine (IC50 = 0.1 to 0.4 microM); muscarinic receptor ligands had no effect. A time course study showed that alpha-bungarotoxin binding and carbachol stimulated 22Na uptake developed in parallel, suggesting that the observed functional response was mediated through an interaction at the alpha-bungarotoxin recognition site.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Functional nicotinic receptor expression in mesodermal cells transfected with MyoD cDNA. 830 37

We have studied the long-term effects of lithium on neuronal morphology and the functional expression of phospholipase C-coupled m3-muscarinic acetylcholine receptors (mAChRs) in cerebellar granule cells. There was a biphasic dose-dependent effect on cell morphology following treatment with lithium for 7 days. At low concentrations (< or = 2 mM), this drug elicited an increase in the number and thickness of connecting nerve fibers, and the size of neuronal aggregates. At high concentrations (5-10 mM), lithium induced a severe deterioration of cell morphology, which ultimately resulted in neuronal death. Carbachol-induced phosphoinositide (PI) turnover was similarly affected by lithium treatment with a significant potentiation at concentrations up to 2 mM and a marked inhibition at doses higher than 5 mM due to lithium-induced neurotoxicity. The biphasic effect on mAChR-mediated PI hydrolysis was associated with corresponding changes in the maximal extent of carbachol-induced inositol phosphate accumulation, and was accompanied by similar changes in [3H]N-methyl-scopolamine binding to mAChRs and the levels of mRNAs for m3-mAChR and c-Fos. The up-regulation of m3-mAChR mRNA induced by low concentrations of lithium was associated with a down-regulation of m2-mAChR mRNA and no change in either total RNA or beta-actin mRNA. Lithium's effects on m2- and m3-mAChR mRNAs were time-dependent, requiring a pretreatment time of > or = 3 days. The biphasic effect was also demonstrated by the binding of [3H]ouabain to Na+, K(+)-ATPase, which was shown to be a convenient method for quantifying viable neurons.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Long-term biphasic effects of lithium treatment on phospholipase C-coupled M3-muscarinic acetylcholine receptors in cultured cerebellar granule cells. 838 5

Stimulation of phosphoinositide-specific phospholipase C (PLC) by carbachol, dopamine and serotonin was measured by supplying exogenous [3H]phosphatidylinositol 4,5-bisphosphate to membranes prepared from human cortex dissected and frozen at autopsy. Subjects with Alzheimer's disease, Parkinson's disease or schizophrenia were compared to age-matched controls with no known neurological disorders. Stimulation of PLC by the neurotransmitters was dependent on the presence of GTP gamma S. Carbachol elicited the greatest stimulations of PLC followed by serotonin and then dopamine. The maximal stimulations of PLC evoked by a neurotransmitter were similar for the various categories of subjects except in Parkinson's patients, where dopamine failed to stimulate PLC beyond the activity attained with carbachol. In the presence of carbachol, the sensitivity of PLC to GTP gamma S was significantly increased in Alzheimer's membranes, but not in age-matched controls or Parkinson's. Overall, the experiments demonstrate the feasibility for using the exogenous substrate assay to study the functionality of the phosphoinositide transmembrane signaling system in human brain.
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PMID:Transmembrane signaling through phospholipase C in human cortical membranes. 838 29

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