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)

There is general agreement now that elevation of intracellular calcium ion concentration [( Ca2+]i) mediates the physiological actions of a number of hormones, neurotransmitters and other pharmacological agents. In smooth muscle one way by which these agents elevate [Ca2+]i and induce contraction involves formation of inositol 1,4,5-trisphosphate (IP3) and 1,2-diacylglycerol (DG) from the hydrolysis of phosphatidylinositol 4,5-bisphosphate (PIP2). Our initial observation that the muscarinic-stimulated breakdown of PIP2 into IP3 and DG in the iris smooth muscle is a primary event that could couple activated receptors to contraction is now supported by the following: 1. In the iris sphincter contractions by carbachol (CCh) indicated close correlations, using different concentrations of CCh, atropine- and pirenzepine antagonists, time course, temperature and Ca2+, between the stimulated hydrolysis of PIP2, myosin light chain (MLC) phosphorylation and muscle contraction. Further, studies on the relationships between receptor occupancy of muscarinic acetylcholine receptors in this tissue, measured by [3H]QNB binding, and the CCh-stimulated PIP2 hydrolysis, MLC phosphorylation and contraction revealed that all of these responses are coupled to the M2 receptor subtype. 2. NaF, which activates G proteins by promoting the dissociation of their subunits, produced a concentration-dependent activation of phospholipase C, measured as IP3 accumulation, and contraction in the iris sphincter muscle. 3. In permeabilized smooth muscle fibers, IP3 has been shown to release Ca2+ from the SR and induce contraction. 4. In the iris sphincter, as well as in other smooth muscles, phorbol 12,13-dibutyrate, which mimics the action of DG, induced MLC phosphorylation and contraction in a dose- and time-dependent manner.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Polyphosphoinositides, generation of second messengers, myosin light chain phosphorylation and contraction in rabbit iris sphincter smooth muscle. 284 9

To understand the effects of acetylcholine (ACh) on fluid-absorbing epithelia, we carried out experiments on Necturus gallbladder epithelium. Binding studies with 1-quinuclidinyl[phenyl-4(N)-3H]benzilate (QNB) demonstrated that Necturus gallbladder epithelial cells express high-affinity muscarinic receptors. The effects of ACh and carbachol were exerted from the basolateral surface and consisted of a transient hyperpolarization of both cell membranes and a concomitant decrease in the apparent fractional resistance of the apical membrane. Atropine blocked both effects. ACh also elicited transient elevations of inositol 1,4,5-trisphosphate and intracellular free calcium ([Ca2+]i) levels, the latter by both release from intracellular stores and basolateral influx. The phospholipase C antagonist U-73122 inhibited the effects of ACh, whereas inhibition of prostaglandin and guanosine 3',5'-cyclic monophosphate synthesis with indomethacin or methylene blue, respectively, had no effect. In conclusion, Necturus gallbladder epithelium expresses muscarinic receptors in the basolateral membrane. Receptor activation stimulates phospholipase C and elevates cellular levels of inositol 1,4,5-trisphosphate and [Ca2+]i. The elevation in [Ca2+]i activates K+ channels but apparently not Cl- channels.
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PMID:Muscarinic stimulation of gallbladder epithelium. I. Electrophysiology and signaling mechanisms. 827 20

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

Outer (OHC) and inner (IHC) hair cells in the organ of Corti of the mammalian cochlea process sound. OHC and their efferent synapse are part of a feedback system assumed to control and modulate information carried by afferent neurons passing from IHC to the brain. Underlying mechanisms are not well understood. This paper discusses recent progress. In vivo and in vitro information is presented on structure, pharmacology, function and localization of the pre- and postsynaptic acetylcholine receptors (AChRs) at the efferent synapse. Recent data are given on a presynaptic M3 AChR subtype, probably an autoreceptor involved in transmitter release. Data from our lab on specific binding of [3H]3-quinuclidinyl benzilate ([3H]3-QNB) to non-enzymatically isolated guinea pig OHC reveal a KD several 100 x higher than that for any known muscarinic receptor subtype, including the above-mentioned presynaptic muscarinic AChR of the OHC efferent synapse. The extremely high concentrations of [3H]3-QNB needed for any binding at all to OHC thus rule out presynaptic membrane impurities as the cause of such binding, and also the presence of a typical mAChR subtype on OHC. The number of [3H]3-QNB binding sites (approximately 10(6)/OHC) we found on OHC was 1/10th of that we found for binding of nicotinic ligands to OHC, further making it questionable that an ACh-binding site on OHC binds [3H]3-QNB. Observations may instead point to the possibility of another binding site, e.g. an (allosteric) site involved with the as yet not understood 'weak' muscarinic properties of the OHC AChR. Further new data on the OHC AChR confirm reversible alpha-bungarotoxin, nicotine and d-tubocurarine binding. [3H]alpha-Bungarotoxin and [3H]-nicotine binding sites are estimated at approximately 6.10(7) sites/OHC. Strychnine, a glycine receptor blocker suggested to interfere with cholinergic sites of the efferent OHC synapse, was found to bind to OHC (cold strychnine for unspecific binding). This binding, not seen in the presence of high [glycine], increased in the presence of depolarizing [K+], while ACh (100 microM) had no significant effect. Results suggest strychnine binding to the outside of OHC, but also sites accessible only after cell depolarization, possibly to the hyperpolarizing Ca2(+)-dependent K+ channel. Recent molecular cloning of the OHC AChR indicates a novel alpha-subunit. An often observed ACh-activated Ca(2+)-influx close to zero into OHC leaves an unanswered question. OHC also carry P2-purinergic receptors (P2Rs), a more rapid ionotropic P2zR-like subtype and a quantitatively dominating slow metabotropic P2yR subtype coupled to a G protein-phospholipase C cascade and not desensitized. Both contribute to increased cytoplasmic [Ca2+], from respectively external and internal sources. Whether or not such receptors are part of efferent synaptic activity is unknown; their localization on the OHC plasma membrane is so far only indirect and synaptic vesicles of the efferent nerve endings have not yet been analyzed for their ATP content. Localization, function and interaction of [Ca2+] increases triggered by, respectively, ATP and ACh are currently studied in this laboratory.
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PMID:Cholinergic and purinergic signalling in outer hair cells of mammalian cochlea. 884 30

The molecular mechanisms for the stimulation of inositol 1-phosphate (IP1) formation by vinconate were investigated using preparations of rat brain. Vinconate (10(-8)-10(-3) M) dose-dependently inhibited the binding of [3H]quinuclidinyl benzilate ([3H]QNB) to muscarinic acetylcholine receptors and its IC50 value for [3H]QNB binding was 1.7 x 10(-5) M. The rightward shift of carbachol displacement curve of [3H]QNB binding by GTP (10(-4) M) was completely abolished by vinconate (10(-5) M). Carbachol (10(-8)-10(-2) M) increased [3H]IP1 formation in a dose-dependent manner and the carbachol-induced [3H]IP1 formation was significantly accentuated by vinconate (10(-5) M). The enhancement of [3H]IP1 accumulation by vinconate was inhibited by approximately 50% in the presence of atropine (10(-5) M), although phentolamine and ketanserin had no effects on the stimulatory effect of vinconate on [3H]IP1 formation. Vinconate showed no alteration in the binding of [3H]guanosine 5'-(beta, gamma-imino) triphosphate ([3H]Gpp(NH)p) to the crude synaptic membranes. The enhancement of phosphatidylinositol 4,5-biphosphate (PIP2)-specific phospholipase C (PLC) activity by GTP was unaffected in the presence of 10(-3) M vinconate, whereas vinconate alone dose-dependently enhanced the activities of both PIP2-specific and cytosolic PLC. These results suggest that vinconate may induce the facilitation of phosphatidylinositide (PI) turnover via the stimulation of muscarinic acetylcholine receptors, the enhancement of coupling between muscarinic acetylcholine receptors and GTP-binding protein, and the direct activations of PIP2-specific and cytosolic PLC.
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PMID:Vinconate, a cognitive enhancer, and PI turnover-phospholipase C systems in the brain. 906 64

Muscarinic-cholinergic signals in brain are mediated in part through the hydrolysis of phosphoinositides (PtdIns) by phospholipase C (PLC). To test the hypothesis that muscarinic PtdIns signals change during aging, membranes were prepared from the cerebral cortex and hippocampus of young (4-6 months old), middle aged (8-10 months old) and senescent (24-26 months old) Fisher 344 rats. Carbachol dose-dependently increased [3H]-PtdIns hydrolysis in both brain regions in all three age groups, however, in senescent rats the maximal response was decreased to 69.26 +/- 4.33% (p < 0.01) in cortex and to 48.29 +/- 2.55% (p < 0.01) in hippocampus of young rat values. In contrast to the decrease in carbachol-stimulated phosphoinositide hydrolysis, calcium-stimulated phosphoinositide hydrolysis was not altered. GTP gamma S also dose-dependently increased [3H]-PtdIns hydrolysis in membranes from all three age groups through G-protein-PLC activation. Similar to carbachol, GTP gamma S-activated [3H]-PtdIns hydrolysis was reduced approximately 40% in senescent rats membranes. Muscarinic receptor (mAChR) density, as determined by [3H]-QNB binding decreased slightly in cortical membranes, but not in hippocampal membranes. These data suggest that muscarinic stimulated [3H]-PtdIns responses are decreased in senescent brain primarily due to an uncoupling of the receptor-G-protein and/or G-protein-PLC link, although decreases in receptor density may also contribute to reduced muscarinic [3H]-PtdIns signaling.
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PMID:Uncoupling of muscarinic cholinergic phosphoinositide signals in senescent cerebral cortical and hippocampal membranes. 946 Jul 9