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)

The mitogenic effect of extracellular ATP on porcine aortic smooth muscle cells (SMC) was examined. Stimulation of [3H]thymidine incorporation by ATP was dose-dependent; the maximal effect was obtained at 100 microM. ATP acted synergistically with insulin, IGF-1, EGF, PDGF, and various other mitogens. Incorporation of [3H]thymidine was correlated with the fraction of [3H]thymidine-labeled nuclei and changes in cell counts. The stimulation of proliferation was also determined by measurement of cellular DNA using bisbenzamide and by following the increase of mitochondrial dehydrogenase protein. The effect of ATP was not due to hydrolysis to adenosine, which shows synergism with ATP. ATP acted as a competence factor. The mitogenic effect of ATP, but not adenosine, was further increased by lysophosphatidate, phosphatidic acid, or norepinephrine. The inhibitor of adenosine deaminase, EHNA, stimulated the effect of adenosine but not ATP. The adenosine receptor antagonist theophylline depressed adenosine-induced mitogenesis. ADP and the non-hydrolyzable analogue adenosine 5'-[beta, gamma-imido]triphosphate (AMP-PNP) were equally mitogenic. Thus extracellular ATP stimulated mitogenesis of SMC via P2Y purinoceptors. The mechanism of ATP acting as a mitogen in SMC was further explored. Extracellular ATP stimulated the release of [3H]arachidonic acid (AA) and prostaglandin E2 (PGE2) into the medium, and enhanced cAMP accumulation in a dose-dependent fashion similar to ATP-induced [3H]thymidine incorporation. Inhibitors of the arachidonic acid metabolism pathway, quinacrine and indomethacin, partially inhibited the mitogenic effect of ATP but not of adenosine. Pertussis toxin inhibited ATP-stimulated DNA synthesis, AA release, PGE2 formation, and cAMP accumulation. Down-regulation of protein kinase C (PKC) by long-term exposure to phorbol dibutyrate (PDBu) partially prevented stimulation of DNA synthesis and activation of the AA pathway by ATP. The PKC inhibitor, staurosporine, antagonized mitogenesis stimulated by ATP. No synergistic effect was found when PDBu and ATP were added together. Therefore, a dual mechanism, including both arachidonic acid metabolism and PKC, is involved in ATP-mediated mitogenesis in SMC. In addition, ATP acted synergistically with angiotensin II, phospholipase C, serotonin, or carbachol to stimulate DNA synthesis. Finally, the possible physiological significance of ATP as a mitogen in SMC was further studied. The effect of endothelin and heparin, which are released from endothelial cells, on ATP-dependent mitogenesis was investigated. Extracellular ATP acted synergistically with endothelin to stimulate a greater extent of [3H]thymidine incorporation than was seen with PDGF plus endothelin. Heparin, believed to have a regulatory role, partially inhibited the stimulation of DNA synthesis caused both by ATP and PDGF.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Extracellular ATP and ADP stimulate proliferation of porcine aortic smooth muscle cells. 135 98

Phosphoinositide-specific phospholipase C (PI-PLC) activity in whole homogenates of mouse pancreatic islets decreased 60-85% when the homogenates were incubated at 37 degrees C for 1 h in the presence of down to micromolar concentrations of Ca2+. Ca(2+)-induced inactivation was augmented by calmodulin, the phorbol ester 12-O-tetradecanoylphorbol 13-acetate in the presence of ATP-Mg, and by Mg2+. Inactivation was inhibited when ATP was removed and completely abolished by trifluoperazine and EGTA. Inactivation was not affected by the non-phosphorylating ATP analogue, AMP-PCP, GMP-PNP, glucose, Zn2+ or a series of protease inhibitors. These observations suggest that PI-PLC in broken cell preparations of pancreatic islets may be inactivated via phosphorylation by Ca(2+)-calmodulin-stimulated protein kinase and/or protein kinase C. Inactivation of PI-PLC was reversible. Reactivation started after approx. 2 h incubation, when the concentration of ATP in the homogenate was below 0.15 x 10(-6) M. PI-PLC activity returned to values approx. 25% higher than the initial values. PI-PLC inactivation via phosphorylation by the mentioned protein kinases may constitute a feedback control on the phosphoinositide response, attenuating subsequent diacylglycerol formation and/or Ca2+ mobilization by inositol trisphosphate.
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PMID:Ca(2+)- and ATP-dependent reversible inactivation of pancreatic islet phosphoinositide-specific phospholipase C activity. 166 65

The possibility, that a GTP-binding protein is involved in the transducing mechanism leading to the formation of inositol trisphosphate (InsP3) in heart was explored in rat heart ventricles. Accordingly, a crude membrane fraction was isolated from 3[H] inositol prelabelled rat heart ventricles. When incubated with the non-hydrolysable GTP analogues GTP gamma S and GMP-PNP, it produced InsP3 in a time- and concentration-dependent manner. GDP beta S and the aminoglycoside antibiotic neomycin were effective inhibitors of this activation. In the absence of GTP gamma S or GMP-PNP, no such formation occurred with Ca2+ concentration from 10 nM to 1 microM but formation tripled in relation to the control level when Ca2+ concentration was raised from 1 microM to 100 microM. GTP gamma S increased the Ca2+ sensitivity of InsP3 production towards more physiologically relevant concentrations occurring during diastole (100 nM). These findings strongly suggest the presence in heart of a particulate Ca2(+)-dependent phospholipase C, whose activity is regulated by guanine nucleotides. This Ca2(+)-dependent phospholipase C observed in a cell free system was evidenced also in a multicellular system when altering the free Ca2+ concentrations around the physiological range. The results support the possibility that the enzyme might be activated during each cardiac cycle and thus produce two potential activators of cardiac contraction, namely InsP3 and diglycerides.
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PMID:Mediation by GTP gamma S and Ca2+ of inositol trisphosphate generation in rat heart membranes. 218 85

Binding parameters for the interaction of GTP-gamma-[35S] with isolated platelet plasma membranes have been studied. Analysis of the data by a non-linear curve fitting program indicates that the interaction can be satisfactory described by a model with a single, high affinity binding site (Kd = 0.3 +/- 0.07 microM and Bm = 0.4 +/- 0.2 nmoles of GTP-gamma-S/mg of membrane protein). Binding is selectively inhibited by GDP-beta-S and GMP-PNP (1 microM), but not affected by ATP, CTP, ITP, or UTP, even at mM concentration. Optimal conditions for the interaction were 30 degrees C and pH 8.0. Incubation of the isolated membranes with GTP-gamma-S results in a measurable phospholipase C activity (as detected both by a breakdown of phosphoinositides and an increase of inositide phosphates) which under our experimental conditions is only slightly enhanced by addition of cytosolic proteins. Our results indicate that platelet plasma membranes contain all the necessary elements for signal transduction through the diacylglycerol/inositolphosphates pathway.
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PMID:Characterization of GTP-gamma-S binding to isolated human platelet plasma membranes and its relationship with the stimulation of a phospholipase C activity. 255 Oct 69

The role of guanine nucleotides in catecholamine secretion was investigated in alpha-toxin-permeabilized chromaffin cells. The stable GTP analogues, GTP-gamma-S (guanosine 5'-(gamma-thio)triphosphate) and GMP-PNP (guanosine 5'-(beta,gamma-imido)triphosphate), potentiated calcium-evoked catecholamine release in a dose-dependent manner. This effect was reversed by GDP-beta-S (guanosine 5'-(beta-thio)diphosphate) indicating that a GTP-binding protein plays a modulatory role in the calcium-dependent secretory process in chromaffin cells. Calcium and the phosphorylating nucleotide ATP were both necessary for secretion, even in the presence of GTP analogues, suggesting that the activation of a GTP-regulatory protein alone does not trigger exocytosis in these cells. TPA (12-O-tetradecanoylphorbol-13-acetate), a direct activator of protein kinase C, was found to mimic the effects of the GTP analogues, inducing a dose-dependent potentiation of the calcium-evoked release in alpha-toxin-permeabilized cells. Treatment of the permeabilized cells with sphingosine, a potent inhibitor of protein kinase C, completely abolished the stimulatory effects of both TPA and GTP-gamma-S. Moreover, long term incubation of chromaffin cells with TPA, a treatment which depletes cells of protein kinase C activity, suppressed the stimulatory effects of GTP-gamma-S. Protein kinase C is activated when it becomes membrane-bound in the presence of calcium and diacylglycerol; here, GTP-gamma-S was found to enhance the calcium-induced translocation of protein kinase C to membranes in alpha-toxin-permeabilized cells. These results suggest that guanine nucleotides modulate secretion by activating protein kinase C-linked events in chromaffin cells. Furthermore, the potentiation of calcium-induced secretion in alpha-toxin-permeabilized cells following activation of protein kinase C either directly with TPA or indirectly with GTP analogues provides additional support for the concept that protein kinase C may exert a positive control directly on the intracellular exocytotic machinery.
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PMID:A reassessment of guanine nucleotide effects on catecholamine secretion from permeabilized adrenal chromaffin cells. 267 32

The stimulation of gonadotropin release from pituitary cell cultures by GnRH has been linked to inositol phospholipid breakdown to diacylglycerols and subsequent activation of protein kinase C as well as Ca2+ mobilization. In order to examine the means of receptor coupling to a phospholipase C-type reaction, we evaluated the role of guanine nucleotides in inositol phospholipid breakdown. In these studies ATP (50 microM) was used for cell permeabilization to allow guanine nucleotides access to the intracellular compartment. Under these conditions GTP and the GTP analog, guanylylimidodiphosphate (GMP-PNP), stimulated a time- and dose-dependent increase in LH release and inositol phosphate accumulation. These actions of GTP and GMP-PNP were not observed unless ATP was included in the treatment media. Other closely related nucleotides and nucleosides alone, or in the presence of ATP, did not elevate LH release above basal levels. We also evaluated the actions of pertussis toxin and cholera toxin on mediating the effect of GTP, GMP-PNP, and GnRH on LH release and inositol phosphate accumulation. After treatment with these agents, no changes were observed in the ability of GnRH, GTP, or GMP-PNP to stimulate either LH release or inositol phosphate accumulation. The additional observation that GnRH-, GTP-, or GMP-PNP-stimulated LH release and inositol phosphate accumulation were blocked by a potent GnRH antagonist suggests that a G protein is functionally associated with the GnRH receptor recognition site.
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PMID:Stimulation of luteinizing hormone (LH) release and phospholipid breakdown by guanosine triphosphate in permeabilized pituitary gonadotropes: antagonist action suggests association of a G protein and gonadotropin-releasing hormone receptor. 302 16

Agonists that elevate calcium in T84 cells stimulate chloride secretion by activating KBIC, an inwardly rectifying K channel in the basolateral membrane. We have studied the regulation of this channel by calcium, nucleotides and phosphorylation using patch clamp and short-circuit current (ISC) techniques. Open probability (Po) was independent of voltage but declined spontaneously with time after excision. Rundown was slower if patches were excised into a bath solution containing ATP (10 microM-5 mM), ATP (0.1 mM)+protein kinase A (PKA; 180 nM), or isobutylmethylxanthine (IBMX; 1 mM). Analysis of event durations suggested that the channel has at least two open and two closed states, and that rundown under control conditions is mainly due to prolongation of the long closed time. Channel activity was restimulated after rundown by exposure to ATP, the poorly hydrolyzable ATP analogue AMP-PNP, or ADP. Activity was further enhanced when PKA was added in the presence of MgATP, but only if free calcium concentration was elevated (400 nM). Nucleotide stimulation and inward rectification were both observed in nominally Mg-free solutions. cAMP modulation of basolateral potassium conductance in situ was confirmed by measuring currents generated by a transepithelial K gradient after permeabilization of the apical membrane using alpha-toxin. Finally, protein kinase C (PKC) inhibited single KBIC channels when it was added directly to excised patches. These results suggest that nonhydrolytic binding of nucleotides and phosphorylation by PKA and PKC modulate the responsiveness of the inwardly rectifying K channel to Ca-mediated secretagogues.
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PMID:Regulation of an inwardly rectifying K channel in the T84 epithelial cell line by calcium, nucleotides and kinases. 753 42

The role of GTP-binding proteins in autophagic vacuole formation was investigated in isolated rat hepatocytes permeabilized by alpha-toxin from Staphylococcus aureus, an agent which creates stable plasma membrane channels allowing exchange of small (< or = 1000 Da) molecules. Vacuole formation was monitored from the uptake of 125I-tyramine-cellobiitol (125ITC) into osmotically sensitive vacuoles isolated on colloidal silica density gradients. Separation was based on an established observation that autophagic vacuoles are retained in a heavy midgradient band when samples are layered, but are selectively shifted to dense fractions when they are previously dispersed in the gradient material. The vacuolar uptake of 125ITC was concentration-dependent and required exogenous ATP: 94% was directly mediated by sequestration; 6% was acquired by fluid-phase endocytosis as monitored by [carboxyl-14C]dextran-carboxyl. Although the amino acid control of proteolysis was lost, addition of the nonhydrolyzable GTP analog GTP gamma S (as well as GMP-PNP) decreased fractional rates of direct vacuolar 125ITC uptake and long-lived proteolysis by similar amounts (1.02-1.03% h-1), substantiating the notion that the effects were the direct result of autophagic inhibition. These and associated findings, supported by quantitative electron microscopy, indicate the presence of ongoing macro- and microautophagy in alpha-toxin-permeabilized cells and suggest that one or more GTP-binding proteins is required in macroautophagic vacuole formation.
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PMID:De novo autophagic vacuole formation in hepatocytes permeabilized by Staphylococcus aureus alpha-toxin. Inhibition by nonhydrolyzable GTP analogs. 810 15

Until recently, the signal transduction pathways involved in the processes of tumor growth have been poorly understood. In the present study, we investigated cell surface receptors which utilize phosphatidylinositol (Pl) turnover/Ca2+ mobilization as a signal transduction pathway to regulate cell growth in a metastatic human lung carcinoma cell line, PG. We found that purinoceptor agonists, including ATP and its analogs, and bombesin, an amphibian tetradeca-peptide of mammalian homology gastrin-releasing peptide, induced rapid transient increase of cytoplasmic-free Ca2+ in PG cells loaded with fura-2. The Ca2+ responses were derived both from release from internal stores and the opening of plasma membrane Ca2+ channels. HPLC analysis of inositol 1,4,5-triphosphate (Ins(1,4,5)P3) and its isomers showed a receptor-linked phospholipase C activation by ATP and bombesin. Although ATP and bombesin were both able to induce Pl turnover and Ca2+ mobilization in PG cells, they had differential growth regulatory effects on PG cells. Treatment with bombesin stimulated PG cell growth while treatment with ATP inhibited significantly PG cell growth. Pharmacological studies showed that the purinoceptors on PG cells were of the P2 subtype. Other hydrolysis-resistant P2 purinoceptor agonists, including ATP gamma S and AMP-PNP, were as effective as ATP in stimulating Pl turnover and Ca2+ mobilization as well as in inhibiting PG cell growth in vitro, suggesting the potential usefulness of such ATP analogs in clinical trials. Preliminary results suggest G protein involvement in the differential regulation of ATP and bombesin signal transduction pathways.
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PMID:Differential growth regulation of a metastatic human lung carcinoma cell line through activation of phosphatidyl inositol turnover signal transduction pathway. 831 79

The effect of ethanol on maxi Ca2+-activated K+ channels (BK channels) in GH3 pituitary tumor cells was investigated using single-channel recordings and focusing on intracellular signal transduction. In outside-out patches, ethanol caused a transient concentration-dependent increase of BK-channel activity. 30 mm (1.4 per thousand) ethanol significantly increased mean channel open time and channel open probability by 26.3 +/- 9% and 78.8 +/- 10%, respectively; single-channel current amplitude was not affected by ethanol. The augmenting effect of ethanol was blocked in the presence of protein kinase C (PKC) inhibitors staurosporine, bisindolylmaleimide, and PKC (19-31) pseudosubstrate inhibitor as well as by AMP-PNP (5'-adenylylimidodiphosphate), a nonhydrolyzable ATP-analogue, but not by the phospholipase C blocker U-73122. Phosphatase inhibitors microcystin-LR and okadaic acid promoted the ethanol effect. The blocking effect was released at higher concentrations of ethanol (100 mm) suggesting a second site of action or a competition between blockers and ethanol. Our results suggest that the effect of ethanol on BK-channels is mediated by PKC stimulation and phosphorylation of the channels which increases channel activity and hence may influence action potentials duration and hormone secretion.
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PMID:Ethanol activates maxi Ca2+-activated K+ channels of clonal pituitary (GH3) cells. 917 11


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