Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Using the membrane form of variant surface glycoprotein from Trypanosoma equiperdum labelled with [3H]myristate as a substrate, we identified two glycosylphosphatidylinositol phospholipase C enzymic activities in mouse brain. These activities were associated with particulate membrane fractions. They were characterized by their pH activity maxima and sensitivity to activators and ion chelators. One of the activities was maximal at acidic pH, stimulated by butanol, sensitive to cation chelator and insensitive to manganese. The activity of the other was maximal at neutral pH, stimulated by the detergent deoxycholate and independent of the presence of cation chelator or calcium. On membrane subfractionation, the acidic butanol-stimulated activity was found mainly associated with the lysosomal compartment, whereas the neutral deoxycholate-stimulated activity sediments with the myelin and plasma membrane compartment. These activities could be differentiated from particulate phosphatidylinositol phospholipases C, whose acidic lysosomal form is sensitive to manganese and insensitive to cation chelator or butanol, whereas the deoxycholate-activated enzymes are Ca2(+)-dependent.
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PMID:Identification of glycosylphosphatidylinositol-specific phospholipases C in mouse brain membranes. 216 64

Preparations of rod outer segments from cattle retinas contained soluble and particulate phospholipase C activities which hydrolyzed phosphatidylinositol 4,5-bisphosphate (PIP2) and the other phosphoinositides. Ca2+ was required for PIP2 hydrolysis, but high (greater than 300 microM) concentrations were inhibitory. Mg2+ and spermine at low concentrations stimulated the particulate activity but inhibited the soluble. Mn2+ inhibited both. High (greater than 100 microM) concentrations of the nonhydrolyzable GTP analogue guanylyl beta,gamma-methylenediphosphonate inhibited PIP2 hydrolysis by both the soluble and particulate activities, but guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S), fluoride, and cholera and pertussis toxins were without effect. Overall phospholipase C activity in ROS was unaffected by light. Evidence was found for multiple forms of the enzyme, requiring isolation and separate characterization before ruling out regulation by light or G-protein.
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PMID:Phosphatidylinositol-4,5-bisphosphate phospholipase C in bovine rod outer segments. 216 27

The potent neurotoxin alpha-latrotoxin (alpha LTx), from black widow spider venom, induces neurotransmitter release in both Ca2(+)-containing and Ca2(+)-free medium, following interaction with a specific cell surface receptor. Binding studies revealed two populations of alpha LTx binding sites in bovine synaptosomal membranes, showing the same high affinity (Kd, 0.3 x 10(-10) M) for alpha LTx, with approximately 50% of the sites being Ca2+ sensitive and the rest being Ca2+ insensitive. In contrast, in PC12 cells alpha LTx binding was completely unaffected by the removal of extracellular Ca2+ (Kd, 5 x 10(-10) M). The use of La3+ as an inhibitor of alpha LTx action, previously shown in synaptosomes, was extended to PC12 cells. In this system, La3+ (100 microM) was shown to inhibit Ca2+ influx, both Ca2(+)-dependent and -independent dopamine release, and polyphosphoinositide (PPI) hydrolysis induced by alpha LTx. At the same time, La3+ did not block alpha LTx binding or dopamine release evoked by either the ionophore ionomycin (0.5 microM) or the phorbol ester tetradecanoylphorbol acetate (100 nM). La3+ also blocked the influx of Mn2+ ions through the alpha LTx-induced cation channel, as measured by quenching of fura-2 fluorescence. In this PC12 cell line, PPI hydrolysis could also be induced by ionomycin, but only when it was present at concentrations that caused an elevation of free intracellular Ca2+ ([Ca2+]i) that was not transient but was as persistent as that evoked by alpha LTx. Our conclusions with regard to the mode of action of alpha LTx are as follows. (i) All the effects of alpha LTx in PC12 cells (dopamine release, PPI hydrolysis, and Ca2+ influx) can be mediated via a single, Ca2(+)-insensitive alpha LTx receptor. (ii) alpha LTx-induced PPI hydrolysis is most likely due to the activation of a Ca2(+)-sensitive phospholipase C following the persistent rise in [Ca2+]i elicited by the toxin in Ca2(+)-containing medium, and not via direct coupling of the alpha LTx receptor to the enzyme. (iii) Toxin-evoked Ca2(+)-independent dopamine release can be blocked by La3+ at the extracellular level, most likely by prevention of the entry of divalent cations.
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PMID:Mode of action of alpha-latrotoxin: role of divalent cations in Ca2(+)-dependent and Ca2(+)-independent effects mediated by the toxin. 217 8

In hamster insulinoma (HIT) cells, maitotoxin (MTX) induces a time-dependent and concentration-dependent release of insulin that requires the presence of extracellular calcium. The response is nearly completely blocked by cinnarizine and cadmium, but is not inhibited by the L-type calcium channel blocker nifedipine or by manganese. MTX induces 45Ca+ uptake in these cells in a dose-dependent mode, and the uptake is blocked with cinnarizine, nifedipine and cadmium, and is partially inhibited by manganese. MTX induces phosphoinositide breakdown in HIT cells, and the response is partially blocked by cadmium, but is not affected by nifedipine, cinnarizine or manganese. High concentrations of potassium ions also induce insulin release and calcium uptake in HIT cells. Both effects of potassium are blocked partially by nifedipine, cadmium and cinnarizine. High concentrations of potassium do not induce phosphoinositide breakdown in HIT cells. The results suggest that MTX-elicited release of insulin is attained by two mechanisms: 1) a nifedipine-sensitive action, which results from MTX-induced activation of L-type calcium channels, which can be mimicked with high potassium concentrations; and 2) a nifedipine-insensitive action, which may be initiated by the activation of phosphoinositide breakdown by MTX. Such an activation of phospholipase C would result in the formation of 1,4,5-inositol trisphosphate, a release of intracellular calcium and then release of insulin to the extracellular space. Cinnarizine is proposed to block both MTX-elicited mechanisms, the first by blockade of calcium channels and the second by blocking 1,4,5-inositol trisphosphate-induced release of internal calcium. Either mechanism alone appears capable of eliciting release of insulin.
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PMID:Stimulatory effects of maitotoxin on insulin release in insulinoma HIT cells: role of calcium uptake and phosphoinositide breakdown. 217 5

The hamster islet B cell line HIT retains the ability to secret insulin in response to glucose and several receptor agonists. We used HIT cells to study the initial signaling events in glucose or receptor agonist-stimulated insulin secretion. Glucose stimulated insulin release from HIT cells in a dose-dependent manner with a half-maximal effect seen already at 1 mM. Insulin release was also stimulated by carbachol in a glucose-dependent manner. Glucose depolarized the HIT cell membrane potential as assessed with the fluorescent probe bisoxonol and raised intracellular Ca2+ as revealed by fura-2 measurements. Using a Mn2+ fura-2 quenching technique, we could show that the rise in intracellular Ca2+ was due to Ca2+ influx following opening of voltage-gated Ca2+ channels. Glucose is thought to increase the diacylglycerol (DAG) content of insulin-secreting cells. However, although HIT cells respond to glucose in terms of insulin secretion, membrane depolarization, and Ca2+ rise, the hexose was unable to increase the proportion of protein kinase C activity associated with membranes. In contrast, the membrane-associated protein kinase C activity increased in HIT cells exposed to the two receptor agonists carbachol and bombesin. Bombesin was shown to generate DAG with the expected fatty acid composition of activators of phospholipase C. Glucose, in contrast, only caused minor increases in DAG containing myristic and palmitic acid without affecting total DAG mass. The failure to detect stimulation of protein kinase C by glucose could be due to both the limited amount and to the different fatty acid composition of the metabolically generated DAG. The latter was in part supported by experiments performed on protein kinase C partially purified from HIT cells. Indeed, 1,2-dipalmitoylglycerol, presumed to be the main DAG species generated by glucose, was only one-third as active as 1,2-dioleoylglycerol and 1-stearoyl-2-arachidonylglycerol in stimulating the isolated enzyme at physiological Ca2+ concentration. It is therefore unlikely that DAG and protein kinase C play a major role in glucose-stimulated insulin secretion.
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PMID:Stimulus-response coupling in insulin-secreting HIT cells. Effects of secretagogues on cytosolic Ca2+, diacylglycerol, and protein kinase C activity. 220 66

The extracellular Ca2+ dependence of agonist stimulation of vascular smooth muscle (VSM) has been investigated in rat cultured aortic smooth muscle cells (SMCs) and isolated mesenteric resistance vessels (MRVs). Agonists such as [Arg8]vasopressin (AVP), angiotensin II (Ang II), and adenosine-5'-triphosphate (ATP) stimulated 45Ca2+ entry into the SMCs that was (a) independent of the extent to which the membranes were polarized, and (b) was not inhibited by organic Ca2+ channel antagonists. Measuring the intracellular Ca2+ concentration [( Ca2+]i) after stimulation with agonists revealed a rapid increase of [Ca2+]i, which was followed by a sustained rise that was insensitive to Ca2+ antagonists. In Ca2+-free medium, only the initial peak of [Ca2+]i was still observed, but the sustained response to the agonists disappeared completely. This observation indicates that the sustained elevation seen in Ca2+-containing medium was the consequence of agonist-induced Ca2+ entry. In MRVs, a corresponding Ca2+-antagonist-insensitive, agonist (norepinephrine and AVP)-induced tonic tension was also identified. Moreover, agonists were able to induce sustained tension in the MRVs regardless of whether the membrane was normally polarized or was previously depolarized (80 mM K+) upon their administration. The agonist-stimulated 45Ca2+ entry in the SMCs could be blocked by the multivalent cations La3+, Cd2+, Mn2+, Co2+, Ni2+, and Mg2+ (in this order of potency). Depolarization-induced 45Ca2+ influx was inhibited by these cations in the same order of potency, but was significantly more sensitive to Cd2+ and significantly less sensitive to La3+ than that stimulated by agonists. Treatment with 2-nitro-4-carboxyphenyl-N,N-diphenyl-carbamate (NCDC, a proposed inhibitor of phospholipase C) reduced both the agonist-induced 45Ca2+ influx and the sustained elevation of [Ca2+]i in the SMCs. NCDC also abolished both contraction and depolarization induced by agonists in the MRVs. The kinase C stimulator phorbol-12-myristate-13-acetate (PMA) inhibited the agonist-induced 45Ca2+ influx and sustained increase in [Ca2+]i in the SMCs, whereas the kinase C inhibitor staurosporine had no effect. In the MRVs, in contrast, PMA had no influence on agonist-induced contractions. Staurosporine (1 microM), however, completely prevented these contractions, as did NCDC, but, unlike NCDC, it did so without affecting the agonist-induced depolarization. These data support an important role of receptor-operated Ca2+-permeable channels in VSM activation by agonists and suggest that these channels may be controlled by intracellular enzymic pathways and second messenger systems.
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PMID:Receptor-operated calcium-permeable channels in vascular smooth muscle. 247 25

A previous study revealed that elevation of platelet cyclic GMP induced by a pharmacological activator of soluble guanylate cyclase, 3-morpholinosydnonimine (SIN-1), induced a major inhibition of Ca2+ influx caused by thrombin, as detected by monitoring the fluorescence of the Ca2+ indicator quin-2. In contrast, activation of phospholipase C as well as Ca2+ mobilization presumably promoted by inositol-1,4,5-trisphosphate was less affected by SIN-1 treatment. In the present study, the effects of SIN-1 on Ca2+ influx have been investigated in more detail using platelets loaded with millimolar concentrations of quin-2. Under these conditions, Ca2+ entry from the medium into the platelet cytoplasm could be followed either by detecting fluorescence quenching by Mn2+ or by determination of 45Ca2+ uptake. Both events were inhibited by SIN-1 in a dose-dependent manner. Furthermore, the inhibition of 45Ca2+ uptake and of fluorescence increase observed in the presence of extracellular Ca2+ displayed remarkably parallel dose-response curves, suggesting that elevation of cyclic GMP brought about by SIN-1 inhibits the opening of "receptor-operated channels" whose precise nature remains to be determined.
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PMID:Inhibition of calcium influx in thrombin-stimulated platelets by SIN-1, an activator of soluble guanylate cyclase. 248 86

Phospholipase C (PLC)-mediated degradation of polyphosphoinositides (phosphatidylinositol 4,5-bisphosphate (PIP2) and phosphatidylinositol 4-phosphate (PIP] was found to be present in rat heart ventricular soluble and total membrane fractions (100,000g supernatant and pellet). Distribution of polyphosphoinositide-specific phospholipase C activity between the membrane and soluble fraction was approximately 63 and 33% of total activity, respectively, whereas, phosphatidylinositol (PI) degradation could be detected only in the soluble fraction. Optimal PIP2-PLC activity occurred at a pCa2+ of 4.5. A similar peak in PIP-PLC activity could be demonstrated in soluble and membrane preparations; however, the rate of PIP degradation in the soluble fraction continued to increase at the highest calcium level tested (pCa2+ 3). With the exception of Sr2+, other noncalcium polycations did not support homogenate PIP2-PLC activity. In the presence of Ca2+, addition of Mg2+, La3+, or Sr2+ (10(-3) M) inhibited PIP2-PLC while Mn2+ and Gd3+ stimulated activity. In both the total membrane and soluble fractions, maximal polyphosphoinositide degradation occurs at pH 5.5 and 6.8. The detergents deoxycholate, cholate, and saponin exert a biphasic effect on PIP2-PLC activity (stimulating at lower concentrations and inhibiting at higher concentrations). The deoxycholate effect is observed in both the cytosolic and membrane fractions. Neutral and cationic detergents inhibit PIP2-PLC activity in a concentration-dependent manner. Similar to cytosolic PI-PLC activity, PIP2-PLC appears to depend on intact sulfhydryl groups. In the presence of a mixture of all three inositol phospholipids or the three phosphoinositides plus noninositol phospholipids, polyphosphoinositides are preferentially degraded.
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PMID:Characterization of phospholipase C-mediated polyphosphoinositide hydrolysis in rat heart ventricles. 253 55

1. The distribution of phosphatidylinositol3, phosphatidylinositol 4-phosphate and phosphatidylinositol 4,5-bisphosphate hydrolysis or phosphatidylinositol-specific phospholipase C (PI-PLC), activity in the bull reproductive system showed the highest specific activity in the isolated spermatozoa (SZ) followed by testis and different epididymal segments. Both the head and tail fractions of SZ were active. 2. The optimal solubilization of the enzyme from SZ was obtained with 0.2% Triton X-100 or at 0.05% detergent concentration when combined with a 60 sec sonication. The sucrose gradient centrifugation showed that PI-PLC was enriched in membrane fraction distinct from mitochondria and acrosomes. 3. The enzyme was purified by ammonium sulphate precipitation and fractionations by hydrophobic interaction chromatography, gel filtration, Con A-Sepharose affinity and chromatofocusing columns. The purified enzyme was able to hydrolyse all phosphatidylinositol substrates with optimum at pH 7.0 and activation by Ca2+, Cd2+ and Mn2+ but not phospholipids lacking the inositol residue. 4. In PAGE (8-25% gradient) the purified (aggregated) enzyme did not enter the gel. In SDS-PAGE two closely located bands were found with Mr-values of 15,000 and 18,000. Isoelectric focusing showed a wide band at pl 4.5-5.1. 5. Gel filtration resulted in a broad elution peak indicating multiple molecular forms (aggregates); the basic form had an apparent molecular weight of 100,000. The binding of the enzyme to Con A-Sepharose indicated that the enzyme is a glycoprotein.
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PMID:Purification and characterization of phosphatidylinositol-specific phospholipase C from bovine spermatozoa. 255 6

Activation of alpha 1-adrenergic receptors increases [Ca+2]i and phosphatidylinositol phosphodiesterase (phospholipase C) activity in the pinealocyte. In this report the receptor involved in the stimulation of phospholipase C activity was further characterized, and the role of Ca2+ in this effect was investigated in some detail. Phospholipase C activity was estimated by measuring the production of [3H]inositol phosphates by [3H]inositol-labelled dispersed pinealocytes in suspension culture. Norepinephrine stimulated [3H]inositol monophosphate production severalfold; this was blocked by alpha 1-adrenergic antagonists, including prazosin, WB 4101, and phenoxybenzamine, but by neither an alpha 2- nor a beta-adrenergic antagonist, confirming that an alpha 1-adrenoceptor is involved in the regulation of phosphatidylinositol hydrolysis. Treatment with the Ca2+ chelator, EGTA, or with inorganic Ca2+ blockers, including Co2+, Mn2+, and La3+, reduced the norepinephrine-stimulated response, suggesting that the alpha 1-adrenergic stimulation of phospholipase C activity is Ca2+ dependent. However, phospholipase C activity was not increased by elevating intracellular Ca2+ with either the Ca2+ ionophore A23187 or with depolarizing concentrations of K+. These results indicate that although Ca2+ is necessary for alpha 1-adrenergic stimulation of phospholipase C activity, an increase in [Ca2+]i alone is not sufficient to stimulate the activity of this enzyme, and that effects which A23187 and depolarizing concentrations of K+ have on pineal function probably do not involve stimulation of phospholipase C activity.
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PMID:Permissive role of calcium in alpha 1-adrenergic stimulation of pineal phosphatidylinositol phosphodiesterase (phospholipase C) activity. 290 66


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