EC:3.1.4.3 - FACTA Search

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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)

Neomycin, an inositol-phospholipid-binding aminoglycoside antibiotic, is known to interfere with signal transduction mechanisms involving phospholipase C as effector enzyme. In this study, we report that neomycin can also markedly influence agonist binding of G-protein-coupled receptors. In membranes of differentiated human leukemia cells (HL 60 cells), neomycin (0.1-10 mM) was found to induce high-affinity binding of the chemotactic tripeptide, N-formyl-methionylleucylphenylalanine (fMet-Leu-Phe), to its receptor sites in a manner similar to magnesium. Gentamycin and streptomycin, two other aminoglycoside antibiotics, were as potent and as effective as neomycin or magnesium in inducing high-affinity agonist receptor binding. Pretreatment of the cells with pertussis toxin reduced the effects of magnesium and neomycin on agonist receptor binding likewise. In contrast, magnesium but not neomycin largely enhanced the potency of guanine nucleotides, particularly of GTP and its analog, guanosine-5'-O-(3-thiotriphosphate), to reduce fMet-Leu-Phe receptor binding, while maximal inhibition of agonist receptor binding by guanine nucleotides was identical with magnesium and neomycin. Furthermore, neomycin could not replace magnesium in providing stimulation of HL 60 membrane high-affinity GTPase by fMet-Leu-Phe. In close agreement to these findings on the pertussis-toxin-sensitive Gi-protein-coupled formyl peptide receptors, neomycin in a manner similar to magnesium induced high-affinity agonist binding of Gs-protein-coupled beta-adrenoceptors. Similar to formyl peptide receptor binding, high-affinity binding of isoproterenol to beta-adrenoceptors in guinea pig lung membranes induced by magnesium and neomycin was inhibited by the GTP analog, guanosine-5'-O-(3-thiotriphosphate), to a similar maximal extent but with an about 100-fold higher potency in the presence of magnesium than in the presence of neomycin. The data presented thus indicate that neomycin and other aminoglycoside antibiotics can mimic the action of magnesium (or other divalent cations) in inducing high-affinity agonist binding of Gi- and Gs-protein-coupled receptors, but not in inducing subsequent G-protein activation by guanosine triphosphates. The data, furthermore, suggest that neomycin by this selective action will be a powerful tool to dissect the multiple sites of magnesium's action in the agonist receptor-G-protein interaction.
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PMID:Neomycin induces high-affinity agonist binding of G-protein-coupled receptors. 255 74

Mastoparan, a tetradecapeptide toxin from wasp venom stimulates secretion in mast cells and enhances GTPase activity of several purified guanine nucleotide regulatory proteins (G proteins). This suggests that this toxin may effect cellular functions through activation of G proteins. In this report, we probed the effects of mastoparan on cytosolic calcium concentration ([Ca2+]i) and inositol trisphosphate (IP3) formation in human polymorphonuclear leukocytes (PMN). At noncytotoxic concentrations up to 35 microM, mastoparan induced a dose-dependent elevation in [Ca2+]i in PMN, as determined by the fluoroprobe Fura 2. The increase in [Ca2+]i was attained through two discrete processes involving an initial rapid and transient calcium rise followed by a slower sustained increase. The initial but not the second [Ca2+]i increase was absent in PMN pretreated with pertussis toxin. The second but not the first [Ca2+]i rise required external calcium. The kinetics of [Ca2+]i changes and dependency on extracellular calcium induced by mastoparan correlated with the production of IP3. Pertussis toxin inhibited only the initial phase of IP3 production. The ability of pertussis toxin to ADP-ribosylate Gi-like proteins in PMN membrane was potentiated in the presence of mastoparan. Thus, mastoparan activates phospholipase C in PMN through two independent mechanisms. The first pathway is similar to that induced by chemoattractant receptors in that the rapid and transient activation of phospholipase C is dependent on a pertussis toxin-sensitive Gi protein. The second pathway is delayed, sustained, insensitive to pertussis toxin, and requires extracellular calcium.
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PMID:Mastoparan, a wasp venom peptide, identifies two discrete mechanisms for elevating cytosolic calcium and inositol trisphosphates in human polymorphonuclear leukocytes. 276 Apr 63

Enhancement by thrombin of Ca2+-dependent 5HT secretion in the absence of added GTP decreases as the time between electropermeabilisation and addition of thrombin is increased. No decrease occurs if thrombin is added with GTP. Observation of apparent GTP-independent receptor/phospholipase C coupling may result from the presence of bound GTP in the preparation. Enhancement by GTP of Ca2+-dependent 5HT secretion occurs with a significant lag indicating an agonist-independent effect. Cyclic 3'5'-AMP inhibits enhancement by GTP of Ca2+-dependent 5HT secretion while having no effect on enhancement induced by GTP gamma S. Hence cyclic AMP may impair receptor/phospholipase C coupling by enhancing Np GTPase activity.
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PMID:Secretion of 5-hydroxytryptamine from electropermeabilised human platelets. Effects of GTP and cyclic 3',5'-AMP. 282 80

Recently we demonstrated the presence in calf thymocytes of a GTP-binding protein (G-protein) composed of three polypeptides, 54, 41, and 27 kDa, which was physically and functionally associated with a soluble phosphoinositides-specific phospholipase C (PI-phospholipase C). The properties of this G protein were further investigated with the following results. 1) In addition to the ability to bind [35S]guanosine-5'-[gamma-thio]triphosphate (GTP gamma S), the G-protein exhibited GTPase activity, which was enhanced by Mg2+, phosphatidylethanolamine, phosphatidylserine, and phosphatidylinositol, but inhibited by sodium cholate, GTP gamma S and F-.2) The 54-kDa polypeptide was ADP-ribosylated by pertussis toxin and also by endogenous membrane-bound ADP-ribosyltransferase, but none of these three polypeptides was ADP-ribosylated by cholera toxin. 3) The G-protein did not cross-react with either anti-rat brain alpha 1 (alpha-subunit of inhibitory G-protein, G1), alpha 0 (alpha-subunit of other G1-like G-protein, G0) or beta gamma antibodies. 4) Incubation of this G Protein with GTP gamma S caused dissociation of the three polypeptides. 5) The 27 kDa polypeptide showed GTP-binding activity and enhanced the phosphatidylinositol 4,5-bisphosphate hydrolysis by purified PI-phospholipase C. These results suggest that the PI-phospholipase C-associated G-protein in calf thymocytes may be a novel one and that it is involved in the regulation of PI-phospholipase C activity.
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PMID:Properties of a novel GTP-binding protein which is associated with soluble phosphoinositides-specific phospholipase C. 283 52

Guanine nucleotide-binding regulatory proteins similar to Gs and Gi may be involved in the activation of phospholipases C and A2 by hormones and other ligands. The binding of hormones to receptors that activate phospholipase C is decreased by guanine nucleotides and these hormones also stimulate a high-affinity GTPase activity in cell membranes. Effects of hormones on phospholipase C activity in cell-free preparations are dependent on the presence of guanine nucleotides. In addition, fluoride and nonhydrolyzable GTP analogs activate phospholipases in a manner that can be blocked by GDP beta S. The putative guanine nucleotide-binding regulatory protein that appears to be involved in activation of phospholipase C is sensitive to pertussis toxin in some cells but not in others.
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PMID:Evidence for involvement of guanine nucleotide-binding regulatory proteins in the activation of phospholipases by hormones. 283 62

Human recombinant interleukin 1 alpha (IL-1 alpha) and IL-1 beta stimulated prostaglandin E2 synthesis in 3T3 fibroblasts in a time- and concentration-dependent manner. Enhanced prostaglandin E2 synthesis after IL-1 treatment was apparent by 1 hr and continued to increase for at least 2 days. Half-maximal stimulation occurred at 0.5 pM IL-1 alpha or IL-1 beta, and both interleukins were equally effective, with maximal stimulation occurring in response to 5-10 pM IL-1. In contrast to IL-1, bradykinin stimulation of prostaglandin E2 synthesis is rapid; its effect is maximal by 5 min. In cells that had been pretreated with IL-1 for 24 hr, prostaglandin E2 synthesis in response to bradykinin was amplified more than 10-fold. IL-1 also amplified the receptor-mediated formation of prostaglandin E2 by bombesin and thrombin. The lymphokine did not affect bradykinin receptor number or affinity. IL-1 treatment induced phospholipase A2 and cyclooxygenase but not phospholipase C or prostaglandin E isomerase. It also enhanced bradykinin-stimulated GTPase activity, suggesting possible induction of the GTP-binding regulatory protein coupled to the bradykinin receptor. Thus, IL-1 enhanced receptor-mediated release of prostaglandin E2 in response to bradykinin, bombesin, and thrombin by increasing the cellular levels of phospholipase A2, cyclooxygenase, and GTP-binding regulatory protein(s).
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PMID:Interleukin 1 amplifies receptor-mediated activation of phospholipase A2 in 3T3 fibroblasts. 290 Oct 97

Many receptors, in response to ligand activation, trigger inositol phospholipid breakdown, which leads to rapid intracellular responses. The sustained activation of this pathway is believed to be at least one of the factors involved in the stimulation of cell growth and there has been much speculation that certain oncogenes use this pathway to effect uncontrolled cellular proliferation. It has been suggested, by analogy with the receptor-mediated control of adenylate cyclase, that the receptor stimulation of inositol phospholipid metabolism is mediated through a guanine nucleotide regulatory protein (G-protein) called Gp (or Np). Although such a species has not been identified, there is now strong experimental evidence that this process is mediated by a G-protein distinct from the stimulatory and inhibitory G-proteins (Gs and Gi, respectively). The ras genes code for a plasma membrane protein, p21, whose only known biochemical property is a high-affinity GTPase activity. We show here that the expression of normal p21N-ras in NIH 3T3 fibroblasts leads to the coupling of certain growth factor receptors to stimulated inositol phosphate production. We propose that the N-ras proto-oncogene encodes a protein which couples the receptors for certain growth factors to the stimulation of phospholipase C. Thus, N-ras p21 may be the putative Gp or a functionally related protein.
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PMID:Normal p21N-ras couples bombesin and other growth factor receptors to inositol phosphate production. 301 91

The addition of bradykinin to NG108-15 cells results in a transient hyperpolarization followed by prolonged cell depolarization. Injection of inositol 1,4,5-trisphosphate or Ca2+ into the cytoplasm of NG108-15 cells also elicits cell hyperpolarization followed by depolarization. Tetraethylammonium ions inhibit the hyperpolarizing response of cells to bradykinin or inositol 1,4,5-trisphosphate. Thus, the hyperpolarizing phase of the cell response may be due to inositol 1,4,5-trisphosphate-dependent release of stored Ca2+ into the cytoplasm, which activates Ca2+-dependent K+ channels. The depolarizing phase of the cell response to bradykinin is due largely to inhibition of M channels, thereby decreasing the rate of K+ efflux from cells and, to a lesser extent, to activation of Ca2+-dependent ion channels and Ca2+ channels. In contrast, injection of inositol 1,4,5-trisphosphate or Ca2+ into the cytosol did not alter M channel activity. Incubation of NG108-15 cells with pertussis toxin inhibits bradykinin-dependent cell hyperpolarization and depolarization. Bradykinin stimulates low Km GTPase activity and inhibits adenylate cyclase in NG108-15 membrane preparations but not in membranes prepared from cells treated with pertussis toxin. Reconstitution of NG108-15 membranes from cells treated with pertussis toxin with nanomolar concentrations of a mixture of highly purified No and Ni [guanine nucleotide-binding proteins that have no known function (No) or inhibit adenylate cyclase (Ni)] restores bradykinin-dependent activation of GTPase and inhibition of adenylate cyclase. These results show that [bradykinin . receptor] complexes interact with No or Ni and suggest that No and/or Ni mediate the transduction of signals from bradykinin receptors to phospholipase C and adenylate cyclase.
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PMID:Bradykinin-activated transmembrane signals are coupled via No or Ni to production of inositol 1,4,5-trisphosphate, a second messenger in NG108-15 neuroblastoma-glioma hybrid cells. 308 91

We have previously reported that 8-arginine vasopressin (AVP) stimulates phosphatidylinositol turnover and Ca++ mobilization in rat aortic smooth muscle cells (A10). In the present study, N-ethylmaleimide (NEM) was used to further characterize the putative guanine nucleotide binding protein that transduces the V1 receptor effects on phosphatidylinositol turnover and Ca++ efflux in these cells. Pretreatment of the cells with low concentrations of NEM did not affect the basal levels of the inositol phosphates and Ca++ efflux but significantly inhibited the AVP-induced increases. NEM pretreatment did not significantly affect [3H]AVP binding to intact cells. Guanyl-5'-yl imidodiphosphate reduced the apparent binding affinity of AVP to cell membranes. NEM pretreatment abolished this guanyl-5'-yl imidodiphosphate effect. AVP stimulated a specific GTPase activity in cell membranes; this effect was also abolished by NEM pretreatment. The results suggest that in A10 cells a guanine nucleotide binding protein sensitive to NEM couples vasopressin receptors to phospholipase C.
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PMID:Effects of N-ethylmaleimide on arginine vasopressin-induced responses in an established smooth muscle cell line. 311 65

The GTP-binding proteins involved in signal transduction now constitute a large family of so called 'G proteins'. Among them, Gs and Gi mediate the stimulation and inhibition of adenyl cyclase, respectively. Recently, another G protein (Go) abundant in brain was purified, but its function is still unknown. Like other G proteins, Go is a heterotrimer (alpha, beta, gamma) and the beta-gamma subunits seem to be identical to those of Gs and Gi. The alpha subunit of Go (Go-alpha) has a molecular weight of 39 kDa lower than those of Gi (41 kDa) or Gs (45-52 kDa). A positive immunoreativity with antibodies against Go-alpha was found in peripheral nervous tissues, adrenal medulla, heart, adenohypophysis and adipocytes. Go ressembles Gi in its ability to be ADP-ribosylated by pertussis toxin, and sequence analysis reveals a 68% homology between their alpha subunits. The GTPase activity of Go is several times higher than that of Gi. The affinity of the beta-gamma entity is about 3 times higher for Gi than for Go. In reconstitution studies, Go does not mimic the inhibitory effect of Gi on adenyl cyclase-stimulated by Gs. On the contrary, Go is as efficient as Gi in reconstituting the functional coupling with the muscarinic, alpha 2-adrenergic and chemotactic agent f-Met-Leu-Phe (fMLP), receptors. Recent studies seem to rule out Go as the coupling G protein of phospholipase C, the enzyme involved in phosphatidyl inositol trisphosphate hydrolysis. However, Go remains a putative candidate for transduction mechanisms coupled to a potassium channel or to a voltage-dependent calcium channel.
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PMID:Go, a major brain GTP binding protein in search of a function: purification, immunological and biochemical characteristics. 311 14

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