Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Aggregation of human platelets induced by a variety of agonists was inhibited by 1-[6-[[17 beta-3-methoxyestra-1,3,5(10)-trien-17-yl] amino]hexyl]-1H-pyrrole-2,5-dionel (U-73122) (IC50 values 1-5 microM), but not by the close analog 1-[6-[[17 beta-3-methoxyestra- 1,3,5(10)-trien-17-yl]amino]hexyl]-2,5-pyrrolidine-dione (U-73343) in which pyrrolidinedione was substituted for pyrroledione. Inhibition by U-73122 was not mediated by an increase in intracellular cyclic AMP. In contrast, the production of inositol 1,4,5-trisphosphate (IP3) and the subsequent rapid increase in cytosolic Ca++ induced by either thrombin or the thromboxane-mimetic, (5Z,9 alpha, 11 alpha, 13E, 15S) 15-hydroxy-11,9-(epoxymethano)prosta- 5,13,-dien-1-oic acid (U-46619), was inhibited by U-73122 but not by U-73343. Reduction of IP3 levels appeared to reflect an inhibition of IP3 production because the hydrolysis of phosphatidyl[3H]inositol and phosphatidyl[3H]inositol 4,5-bisphosphate catalyzed by a soluble fraction from platelets was inhibited by U-73122 (Ki = 9 and 40 microM, respectively). In addition, U-73122 inhibited thromboxane B2 production induced by collagen but not that supported by exogenously added arachidonic acid, suggesting that U-73122 also inhibited receptor-coupled mobilization of arachidonic acid. After preincubation of platelets with [3H]arachidonic acid, the loss of [3H]phosphatidylinositol and accumulation of [3H]phosphatidic acid induced by thrombin was attenuated by U-73122. U-73122 did not inhibit the activities of phospholipases A2 purified either from porcine pancreas or from the venoms of Crotalus adamanteus and Naja naja. Although U-73122 inhibited neither the conversion of exogenous arachidonic acid to thromboxane B2 nor the binding of the thromboxane receptor antagonist [1S-[1 alpha, 2 beta (5Z), 3 beta, 4 alpha]]-7-[3-[[2- [2-[(phenylamino)-carbonyl]- hydrazino]methyl]-7-oxabicyclo [2.2.1]-hept-2-yl-5-heptenoic acid to platelet membranes, it was an effective inhibitor of arachidonic acid-induced aggregation of platelets. These data are consistent with the observed inhibition by U-73122 of platelet activation by the thromboxane receptor agonist, U-46619, via a mechanism that involves inhibition of a phospholipase C-dependent component(s) of signal transduction. U-73122, but not U-73343, inhibited also N-formyl-methionyl-leucyl-phenylalanine-induced aggregation of human polymorphonuclear neutrophils (PMN) and the associated production of IP3 and diacyglycerol. Diradylglycerol produced in PMN stimulated with N-formyl- methionyl-leucyl-phenylalanine was 74 +/- 7% saponifiable and inhibited by U-73122 (Ki = 2 microM).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Selective inhibition of receptor-coupled phospholipase C-dependent processes in human platelets and polymorphonuclear neutrophils. 214 38

The newly isolated peptide, endothelin-1 (ET-1), is a potent pressor agent that reduces GFR and the glomerular ultrafiltration coefficient. Recent evidence demonstrates that ET-1 mobilizes intracellular Ca2+ [( Ca2+]i) in glomerular mesangial cells by activating the phosphoinositide cascade. The present experiments were designed to examine whether ET-1 stimulates mesangial cell contraction and regulates the synthesis of PGE2 and cAMP, which dampen vasoconstrictor-induced mesangial contraction. ET-1 (greater than or equal to 1 nM) reduced the cross-sectional area of rat mesangial cells cultured on three-dimensional gels of collagen type I. ET-1 also caused complex rearrangements of F-actin microfilaments consistent with a motile response. Contraction in response to ET-1 occurred only at concentrations that activate phospholipase C, and contraction was unaffected by blockade of dihydropyridine-sensitive Ca2+ channels. Elevation of [Ca2+]i with ionomycin, to equivalent concentrations of [Ca2+]i achieved with ET-1, also reduced mesangial cell cross-sectional area. ET-1 (0.1 microM) also evoked [3H]arachidonate release and a fivefold increase in PGE2 synthesis as well as increased synthesis of PGF2 alpha and small changes of TXB2. ET-1 caused a minor increase in intracellular cAMP accumulation only in the presence of 3-isobutyl-1-methylxanthine. ET-1 also amplified cAMP production in response to isoproterenol. TPA and ionomycin, alone and in combination, failed to mimic the potentiating effect of ET-1; however, indomethacin blocked ET-1-induced potentiation of isoproterenol-stimulated cAMP, which was restored by addition of exogenous 10 nM PGE2. Thus the present data demonstrate that ET-1 stimulates mesangial cell contraction via pharmacomechanical coupling and activates phospholipase A2 to produce PGE2, PGF2 alpha, and TXB2. ET-1 also amplified beta adrenergic-stimulated cAMP accumulation by a PGE2-dependent mechanism.
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PMID:Endothelin-1 stimulates contraction of rat glomerular mesangial cells and potentiates beta-adrenergic-mediated cyclic adenosine monophosphate accumulation. 215 27

This study analyses early biochemical events in collagen-induced platelet activation. An early metabolic event occurring during the lag phase was the activation of PtdIns(4,5)P2-specific phospholipase C. Phosphatidic acid (PtdOH) formation, phosphorylation of P43 and P20, thromboxane B2 (TXB2) synthesis and platelet secretion began after the lag phase, and were similarly time-dependent, except for TXB2 synthesis, which was delayed. Collagen induced extensive P43 phosphorylation, whereas P20 phosphorylation was weak and always lower than with thrombin. The dose-response curves of P43 phosphorylation and granule secretion were similar, and both reached a peak at 7.5 micrograms of collagen/ml, a dose which induced half-maximal PtdOH and TXB2 formation. Sphingosine, assumed to inhibit protein kinase C, inhibited P43 phosphorylation and secretion in parallel. However, sphingosine was not specific for protein kinase C, since a 15 microM concentration, which did not inhibit P43 phosphorylation, blocked TXB2 synthesis by 50%. Sphingosine did not affect PtdOH formation at all, even at 100 microM, suggesting that collagen itself induced this PtdOH formation, independently of TXB2 generation. The absence of external Ca2+ allowed the cleavage of polyphosphoinositides and the accumulation of InsP3 to occur, but impaired P43 phosphorylation, PtdOH and TXB2 formation, and secretion; these were only restored by adding 0.11 microM-Ca2+. In conclusion, stimulation of platelet membrane receptors for collagen initiates a PtdInsP2-specific phospholipase C activation, which is independent of external Ca2+, and might be the immediate receptor-linked response. A Ca2+ influx is indispensable to the triggering of subsequent platelet responses. This stimulation predominantly involves the protein kinase C pathway associated with secretion, and appears not to be mediated by TXB2, at least during its initial stage.
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PMID:Collagen-induced platelet activation mainly involves the protein kinase C pathway. 216 6

In stimulated human platelets dense-granule secretion in response to the 'weak agonists' ADP, adrenaline, platelet activating factor and low concentrations of thrombin as well as Ca2+ mobilisation in response to thrombin are enhanced by a Na+/H+ exchanger. In the present study the role of this antiport in collagen stimulated human platelets was examined. While stimulation of platelets loaded with the fluorescent intracellular pH-sensitive dye, bis-carboxyethyl-5-(6)-carboxyfluorescein (BCECF) with thrombin resulted in the activation of the Na+/H+ exchanger, activation of this antiport did not occur in collagen-stimulated platelets. The lack of antiport activity in response to collagen using BCECF-loaded platelets correlated with the lack of any functional role of the antiport in collagen stimulated platelets. In the presence of a Na+/H+ exchange inhibitor, ethylisopropylamiloride, neither collagen-induced platelet aggregation or dense-granule secretion was affected. Furthermore, while the removal of extracellular Na+ (Na+ext), a condition that also prevents activation of the antiport, inhibited dense-granule secretion in response to a low concentration of thrombin, collagen-induced secretion was potentiated. This potentiatory effect could not be attributed to changes in either the membrane potential or in collagen-induced phospholipase C or protein kinase C activity. The present results indicate that in contrast to the 'weak agonists' (1) collagen-induced platelet activation does not require activation of the Na+/H+ exchanger and (2) Na+ext per se is an inhibitor of collagen-induced secretion.
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PMID:Stimulation of human platelets by collagen occurs by a Na+/H+ exchanger independent mechanism. 216 91

The CD9 molecule is a 24 kDa surface-membrane glycoprotein present on platelets and a variety of haematopoetic and non-haematopoetic tissues. In the present study we utilized specific inhibitors of thromboxane A2 (TxA2) formation (aspirin), protein kinase C [H-7 [1-(5-isoquinolinesulphonyl)-2-methylpiperazine]] and autocrine stimulation by secreted ADP (apyrase) to modify platelet activation by a monoclonal antibody ALB-6 to the CD9 antigen. This activation is only partially inhibited by aspirin alone but, in combination with either H-7 or apyrase, more than 50% inhibition of platelet aggregation and secretion was observed. This combination of inhibitors was also required to inhibit effectively the phosphorylation of myosin light chain and the 47 kDa substrate of protein kinase C. Intracellular Ca2+ flux monitored by the fluorescent dye fura-2 showed that this was almost completely mediated by the aspirin-sensitive TxA2 pathway. We suggest that the aspirin-insensitive pathway is primarily mediated by phospholipase C formation of diacylglycerol to activate protein kinase C. The inhibition by apyrase suggests a strong dependency on autocrine stimulation by secreted ADP to fully activate both phospholipase C and express fibrinogen-binding sites mediating platelet aggregation. This alternate pathway of phospholipase C activation by ALB-6 may be mediated by cytoplasmic alkalinization [monitored by SNARF-1 (5'(6')-carboxy-10-bismethylamino-3-hydroxy-spiro-[7H- benzo[c]xanthine-1',7(3H)-isobenzofuran]-3'-one) fluorescence of the dye]. Both activation pathways are dependent on intact antibodies, since F(ab')2 fragments of SYB-1, a monoclonal antibody against the CD9 antigen with activation characteristics identical with those of ALB-6, do not elicit activation. Besides thrombin, collagen is another physiological agonist shown to induce aspirin-insensitive activation. Similarities to ALB-6 in collagen sensitivity to apyrase in combination with aspirin inhibitors were noted with respect to aggregation and secretion, as well as a complete block of Ca2+ flux by aspirin. However, it is unlikely that collagen activation is mediated by the CD9 antigen, since SYB-1 F(ab')2 fragments had no effect on collagen activation and aspirin also completely blocked the alkalinization response to collagen, in contrast with ALB-6.
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PMID:Stimulus-response coupling in human platelets activated by monoclonal antibodies to the CD9 antigen, a 24 kDa surface-membrane glycoprotein. 231 2

To understand how glomerular epithelial cell (GEC) growth might be regulated in health and disease, we studied the effects of growth factors and extracellular matrix on proliferation and membrane phospholipid turnover in cultured rat GECs. In GECs adherent to type I collagen matrix, epidermal growth factor (EGF), insulin, and serum stimulated DNA synthesis and increased cell number. In addition, GECs proliferated when adherent to type IV collagen, but not to laminin or plastic substrata. Attachment of GECs to the substrata that facilitated proliferation (types I or IV collagen) produced increases in 1,2-diacylglycerol (DAG), an activator of protein kinase C (PKC). Increased DAG was associated with hydrolysis of inositol phospholipids and an increase in inositol trisphosphate and was not dependent on the presence of growth factors. After PKC downregulation (by preincubation with a high dose of phorbol myristate acetate), DNA synthesis was enhanced in GECs adherent to collagen. Thus contact of GECs with collagen matrices is required for serum, EGF, or insulin to induce proliferation. Collagen matrix also activates phospholipase C. As a result, the DAG-PKC signaling pathway desensitizes GECs to the mitogenic effects of growth factors and might promote cell differentiation. Understanding the interaction between GECs, growth factors, and extracellular matrix may elucidate the mechanisms of proliferation during glomerular injury.
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PMID:Extracellular matrix regulates proliferation and phospholipid turnover in glomerular epithelial cells. 238 8

The action of phospholipases A2 and C in the course of collagen-stimulated platelet activation and the effect of cytochalasins on the responses were studied. Stimulation of human platelets with collagen was accompanied by aggregation, Ca2+ mobilization, inositol phosphate formation, and arachidonic acid release. However, in the presence of a cyclooxygenase inhibitor or a thromboxane A2 (TXA2) receptor antagonist, collagen induced only weak arachidonic acid release and weak inositol phosphate formation. The TXA2 mimetic agonist U46619 induced all the responses except for arachidonic acid release, which was induced by synergistic action of collagen and U46619. The result that U46619 did not induce arachidonic acid release despite the activation of phospholipase C suggested that arachidonic acid was not released via phospholipase C but by phospholipase A2. These findings suggested that collagen initially induced weak activation of phospholipases A2 and C and that further activation of phospholipase C as well as Ca2+ mobilization and aggregation were induced by TXA2, whereas further activation of phospholipase A2 required the synergistic action of collagen and TXA2. Platelets pretreated with cytochalasins did not respond to collagen. Further analysis revealed that the initial activation of phospholipases A2 and C was specifically inhibited by cytochalasins, but the responses induced by U46619 or a synergistic action of collagen and U46619 were not inhibited. Therefore, we proposed that interaction of collagen receptor with actin filaments might have some roles in the collagen-induced initial activation of phospholipases.
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PMID:Possible involvement of cytoskeleton in collagen-stimulated activation of phospholipases in human platelets. 249 64

The effect of ethanol on signal generation in collagen-stimulated human platelets was evaluated. Incubation of washed human platelets with physiologically relevant concentrations of ethanol (25-150 mM) resulted in a dose-dependent inhibition of aggregation and secretion in response to collagen (0.5-10 micrograms/ml), but did not inhibit shape change. In platelets labeled with [3H]arachidonic acid, ethanol significantly inhibited the release of arachidonic acid from phospholipids, in both the presence and the absence of indomethacin. Thromboxane B2 formation was also inhibited in proportion to the reduction in free arachidonic acid. There was a close correlation between the extent of inhibition of arachidonic acid release and secretion. The inhibition of platelet aggregation and secretion by ethanol was partially overcome by the addition of exogenous arachidonic acid. In the presence of indomethacin, ethanol had no effect on the activation of phospholipase C by collagen as determined by the formation of inositol phosphates and phosphatidic acid. Moreover, ethanol had no effect on the mobilization of intracellular calcium by collagen and only minimally inhibited the early phases of the phosphorylation of myosin light chain (20 kDa) and a 47-kDa protein, a known substrate for protein kinase C. Arachidonic acid formation was also inhibited by ethanol in response to ionomycin under conditions where phospholipase C activation was prevented. The results suggest that the functional effects of ethanol on collagen-stimulated platelets are due, at least in part, to an inhibition of phospholipase A2.
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PMID:Ethanol interferes with collagen-induced platelet activation by inhibition of arachidonic acid mobilization. 249 46

In rabbit platelets, collagen (50 micrograms/ml)- or thrombin (0.5 U/ml)-induced diacylglycerol formation was dose-dependently prevented by phorbol 12-myristate 13-acetate (PMA, 2-50 nM). However, collagen-induced arachidonic acid liberation and lysophosphatidylcholine formation were rather enhanced by PMA, while the thrombin-induced liberation was not. We also demonstrated with saponin-permeabilized platelets that collagen (100 micrograms/ml)-induced arachidonic acid liberation was enhanced by GTP gamma S and inhibited by GDP beta S, both dose-dependently. Since these results lead us to consider that protein kinase C affects a guanine-nucleotide-binding protein (G-protein) to modulate phospholipase A2 and C, we investigated this dual effect of PMA on arachidonic acid liberation and diacylglycerol formation induced by G-protein activator. Addition of GTP gamma S (100 microM) to saponin-permeabilized platelets significantly induced these responses, and PMA (2-10 nM)-pretreatment before the cell permeabilization inhibited diacylglycerol formation and enhanced arachidonic acid liberation and lysophosphatidylcholine formation, dose-dependently. Likewise, PMA (20 nM) had differential effects on the similar NaF (20 mM)-induced responses in intact platelets. Contrarily, 10 nM PMA had no effect on diacylglycerol formation caused by an addition of high concentration of Ca2+ (1 mM) alone after the cell permeabilization, while it still had a potentiating effect on arachidonic acid liberation under the condition. These results suggest that protein kinase C may have a dual regulatory effect on the activation of phospholipase A2 (positive feedback) and phospholipase C (negative feedback), probably through influences on two distinct G-proteins associated separately with these two enzymes.
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PMID:Differential effects of phorbol 12-myristate 13-acetate on GTP gamma S-induced diacylglycerol formation and arachidonic acid liberation in saponin-permeabilized rabbit platelets. 249 43

Flounder (Platichthys flesus) muscle contains two types of cholinesterases, that differ in molecular form and in substrate specificity. Both enzymes were purified by affinity chromatography. About 8% of cholinesterase activity could be attributed to collagen-tailed asymmetric acetylcholinesterase sedimenting at 17S, 13S and 9S, which showed catalytic properties of a true acetylcholinesterase. 92% of cholinesterase activity corresponded to an amphiphilic dimeric enzyme sedimenting at 6S in the presence of Triton X-100. Treatment with phospholipase C yielded a hydrophilic form and uncovered an epitope called the cross-reacting determinant, which is found in the hydrophilic form of a number of glycosyl-phosphatidylinositol-anchored proteins. This enzyme showed catalytic properties intermediate to those of acetylcholinesterase and butyrylcholinesterase. It hydrolyzed acetylthiocholine, propionylthiocholine, butyrylthiocholine and benzoylthiocholine. The Km and the maximal velocity decreased with the length and hydrophobicity of the acyl chain. At high substrate concentrations the enzyme was inhibited. The p(IC50) values for BW284C51 and ethopropazine were between those found for acetylcholinesterase and butylcholinesterase. For purified detergent-soluble cholinesterase a specific activity of 8000 IU/mg protein, a turnover number of 2.8 x 10(7) h-1, and 1 active site/subunit were determined.
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PMID:Cholinesterases from flounder muscle. Purification and characterization of glycosyl-phosphatidylinositol-anchored and collagen-tailed forms differing in substrate specificity. 252 88


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