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)

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

Early signals elicited after membrane receptor binding of agonists, the transmembrane signaling pathway of which involves activation of phosphoinositide-specific phospholipase C, were compared in fetal (22 days gestation) and adult rat hepatocytes. Free cytosolic calcium changes varied depending on the agonist and type of stimulated cells. Angiotensin II and ATP elicited the maximal responses in both types of cells, whereas the maximal Ca2+ increase produced by vasopressin was twice as much in adult than in fetal hepatocytes. The opposite response was observed for bombesin- or gastrin-releasing peptide-stimulated cells. Triggering of fetal and adult hepatocytes with substances that maximally promote endoplasmic reticulum calcium release or phosphoinositide-specific phospholipase C activation revealed that at least for the actions mediated through the angiotensin II and P2 purinergic receptor, the agonist stimulation was near the maximal response capacity of the signaling pathway. Agreement was observed between the relative number of membrane receptors and the biological responses.
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PMID:Differential calcium mobilization by vasopressin, angiotensin II, gastrin-releasing peptide, and adenosine triphosphate in adult and fetal hepatocytes. Relevance for the activation of calcium-dependent enzymes. 838 Mar 81

Pigment dispersion in frog melanophores is classically mediated by receptors that activate protein kinase A via an elevation of intracellular cyclic AMP. Here, 12-O-tetradecanoylphorbol-13-acetate (TPA), an activator of protein kinase C, is found to induce pigment dispersion. To demonstrate that an increase in cAMP is not required for the melanosome movement, a murine bombesin receptor was expressed in the melanophores. When these cells were treated with bombesin, they accumulated intracellular inositol phosphates but not cAMP and dispersed their pigment. Four agonists, one partial agonist, and two antagonists for the bombesin receptor were compared for their ability to induce or block bombesin-induced pigment dispersion. In all cases, the degree of pigment dispersion followed simple equilibrium reactions. The resulting dose-response curves allowed for the determination of the effective concentration for half-maximal pigment dispersion (EC50) or half-maximal inhibition of bombesin-stimulated pigment dispersion (IC50) for the peptides. As the pigment dispersion assay can rapidly evaluate chemicals for their effects on receptors that activate phospholipase C via a functional assay, it has potential utility for investigations of ligand-receptor interactions and for massive drug screening.
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PMID:Pigment dispersion in frog melanophores can be induced by a phorbol ester or stimulation of a recombinant receptor that activates phospholipase C. 838 80

Xenopus laevis melanophores are capable of functionally expressing recombinant receptors which couple via G-proteins to adenylate cyclase or phospholipase C (PLC). Receptor-mediated stimulation of either of these enzymes causes dispersion of melanosomes while receptor stimulation leading to inhibition of adenylate cyclase induces their aggregation. Translocation of melanosomes within thousands of individual pigment cells was simultaneously tracked by capturing gray scale video images before and after receptor activation. Digital subtraction of poststimulation from prestimulation images was performed on a microcomputer, generating bitplane images containing pixels with nonzero gray scale values wherever melanosome movement had occurred. Movement in both centripetal and centrifugal directions was detectable. The assay was tested using four receptors: a human beta 2-adrenergic receptor which stimulates adenylate cyclase, murine substance P and bombesin receptors which stimulate PLC, and a human D2 dopamine receptor which inhibits adenylate cyclase. Based on melanosome translocation following application of ligands, expression of functional receptors could be consistently detected in melanophores which received only single copies of a plasmid encoding any of the four receptors. By imaging fields containing up to 11,000 melanophores, the presence of a plasmid coding for a receptor could be detected when its frequency was one per 10,000 plasmids transfected. Combining receptor-mediated pigment translocation in melanophores with the rapid data-handling ability of video technology should provide a bioassay useful for investigating the function of G-protein-coupled receptors and for screening cDNA libraries for clones encoding new receptors.
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PMID:Functional expression of recombinant G-protein-coupled receptors monitored by video imaging of pigment movement in melanophores. 838 90

Phospholipase C isoenzymes can generate different proportions of cyclic and non-cyclic inositol phosphates. Stimulation of [3H]-inositol labeled pancreatic minilobules by buffer, bombesin, neuromedin B or carbachol in presence of 10 mM lithium, followed by separation of inositol phosphates, yielded the following results for cyclic inositol monophosphate (cIP) [DPM/mg protein; Mean +/- SEM (n)]: control [21 +/- 6, (9)]; bombesin [145 +/- 24, (12)]; neuromedin B (99 +/- 22 (9)] and carbachol [512 +/- 60, (12)]. The generation of cIP and IP were significantly correlated [r2 = 0.72 (p < 0.05)] following carbachol activation, while no significant correlation was obtained following bombesin receptor activation by either bombesin or neuromedin B. Presence of zinc (100 microM) in the final incubation medium failed to amplify the bombesin-stimulated cIP accumulation. Based on our studies we postulate that different phospholipase C isoenzymes may be activated following muscarinic and bombesin receptor stimulation in pancrea.
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PMID:Bombesin and muscarinic receptor activation in rat pancreas generate cyclic inositol monophosphate: possible involvement of different phospholipase C isoenzymes. 838 41

Small G-proteins (SMGs) require isoprenylation for their association with membranes. We have examined protein isoprenylation, subcellular distribution of SMGs, cytosolic Ca2+ changes and insulin secretion in HIT-T15 cells after treatment with lovastatin, which inhibits the production of isoprenoids by blocking mevalonate production by 3-hydroxy-3-methylglutaryl-CoA reductase. Numerous proteins in the 20-70 kDa range were found to be isoprenylated. Most of these proteins co-migrated with SMGs (21-27 kDa). Lovastatin treatment (25 microM, 24 h) decreased protein isoprenylation and affected the distribution of several SMGs, causing a large accumulation in the cytosol and a detectable decrease in membranes. Lovastatin selectively attenuated the potentiating action of bombesin and vasopressin, which activate phospholipase C in these cells, on insulin secretion stimulated by nutrients (glucose + leucine + glutamine). This lovastatin effect was overcome by mevalonate. Insulin secretion stimulated by nutrients alone or insulin release in the presence of the potentiating agents forskolin or phorbol myristate acetate remained unaffected. As the modulation of insulin secretion by isoprenaline and somatostatin were not altered by lovastatin, the drug does not non-selectively affect the binding of ligands to their receptors. Lovastatin did not interfere with the activation of phospholipase C by bombesin and vasopressin, since the rise in cytosolic Ca2+ induced by these agents was not changed. Limonene, proposed to block specifically prenyl-protein transferases of SMGs, did not alter protein isoprenylation patterns, but inhibited the stimulated insulin secretion. In conclusion, lovastatin selectively attenuated the potentiation of nutrient-induced insulin secretion by bombesin and vasopressin without affecting their activation of phospholipase C. The concomitant changes in SMG isoprenylation and their subcellular distribution after lovastatin treatment suggest that SMGs could play an important role in the bombesin and vasopressin action on insulin secretion.
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PMID:Blockade of mevalonate production by lovastatin attenuates bombesin and vasopressin potentiation of nutrient-induced insulin secretion in HIT-T15 cells. Probable involvement of small GTP-binding proteins. 842 83

Tyrosine kinase inhibitors such as erbstatin and lavendustin derivative inhibited platelet-derived growth factor (PDGF)- and bombesin-induced inositol phosphate formation and phospholipase C (PLC) activation in quiescent NIH3T3 cells. However, bombesin-induced PLC activation was only partially inhibited by tyrosine kinase inhibitors, whereas PDGF-induced activation was completely. Moreover, although bombesin-induced PLC activation was partially inhibited by pertussis toxin alone, this toxin inhibited almost completely in the presence of tyrosine kinase inhibitors. Thus, tyrosine kinase was suggested to be involved in PDGF- and bombesin-induced PLC activation in a different manner.
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PMID:Involvement of tyrosine kinase in growth factor-induced phospholipase C activation in NIH3T3 cells. 844 36

In pancreatic beta-cells, calcium is required for insulin secretion, but can also stimulate gene transcription. High potassium-induced membrane depolarization and calcium influx have previously been shown to activate kinases that phosphorylate and thereby activate the transcription factor cAMP response element (CRE-binding protein (CREB) binding to CREs. It is unknown, however, whether hormones and neurotransmitters can activate this mechanism. Arginine vasopressin (AVP), bombesin, and acetylcholine potentiate glucose-induced insulin secretion and are known to raise cytosolic calcium levels through binding to cell surface receptors that activate phospholipase C. The effect of AVP on CRE-directed transcription was examined in the beta-cell line HIT. AVP (0.1-100 nM) stimulated gene transcription after transient transfection of a reporter gene that was placed under the transcriptional control of a CRE. This effect was inhibited by a vasopressin V1 receptor antagonist and depended on calcium influx and calcineurin phosphatase activity. By immunoblots with antiphospho-CREB antibodies and by using a Gal4-CREB fusion protein, it was shown that AVP induces the phosphorylation and activation of CREB. Like AVP, bombesin (100 nM) and the muscarinic agonist carbachol (200 microM) stimulated CRE-mediated transcription. These results show that calcium-mediating insulin secretagogues can activate CREB/CRE-directed transcription in HIT cells, offering a mechanism by which these secretagogues could produce long term effects on beta-cell function, changing the pattern of gene expression.
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PMID:Calcium-mobilizing insulin secretagogues stimulate transcription that is directed by the cyclic adenosine 3',5'-monophosphate/calcium response element in a pancreatic islet beta-cell line. 853 17

Dual excitation microfluorimetry (Fura-2) was used to measure changes in intracellular calcium ([Ca2+]i) in individual cultured guinea pig myenteric neurons. Bombesin (5-500 nM) induced concentration-dependent increases in [Ca2+]i responses, with a maximal effect at 500 nM (56% of neurons responding, mean peak Ca2+ response 244 +/- 25 nM vs. basal 65 +/- 7 nM). Removal of Ca2+ from the median did not affect the initial [Ca2+]i peak but eliminated the subsequent plateau phase. The [Ca2+]i responses to bombesin was abolished by preincubation with thapsigargin (1 microM), a Ca(2+)-ATPase inhibitor (91 +/- 7% inhibition). [Ca2+]i responses to bombesin were inhibited by U73122 (1 microM), an inhibitor of phospholipase C (84 +/- 6% inhibition).
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PMID:Bombesin-mediated calcium fluxes in myenteric plexus neurons. 854 56

Bombesin elicits multiple signalling pathways in various cell types. It is not clear, however, whether these responses are mediated by a single receptor subtype or by different subtypes that couple preferentially to specific pathways. To resolve this we transfected the mouse bombesin/GRP receptor into Rat-1 fibroblasts and investigated the pathways activated by bombesin. Expression of the transfected receptors was verified by binding of (125I)GRP and two clones were selected, BOR5 and BOR15. Bombesin stimulation of BOR5 and BOR15 cells caused intracellular Ca2+ mobilisation and increased the phosphorylation of 80K/MARCKS, a prominent protein kinase C substrate. The transfected receptor conferred a proliferative response to bombesin demonstrated by incorporation of (3H) thymidine after 18 h and an increase in total cell numbers after 1-2 days. In BOR5 and BOR15 cells, bombesin rapidly stimulated the tyrosine phosphorylation of multiple proteins Mr 110 000-130 000 and 70 000-80 000 including p125fak and paxillin, at low concentrations (half maximum 0.3 nM). The specific bombesin/GRP receptor antagonist, D-F5-Phe6, D-Ala11-Bombesin (6-13)OMe, inhibited all the above responses. These results show that phospholipase C activation, cell growth and tyrosine phosphorylation emanate from a single class of bombesin receptor.
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PMID:The bombesin/GRP receptor transfected into Rat-1 fibroblasts couples to phospholipase C activation, tyrosine phosphorylation of p125FAK and paxillin and cell proliferation. 864 36


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