EC:3.1.4.3 - FACTA Search

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 opposing actions of phosphatidylserine (PS) and cromolyn on histamine release were studied in rat peritoneal mast cells in vitro. Histamine-releasing drugs could be separated into 2 groups on the basis of whether they were potentiated by PS and inhibited by muM cromolyn (dextran, antigen (BSA), concanavalin A) or neither potentiated by PS nor inhibited by muM cromolyn (48/80, polymyxin, phospholipase C and ATP). Compound 48/80 and polymyxin chemically combined with PS, but this could be circumvented by preincubating the mast cells in PS for one hour, and then washing them free of PS in solution prior to addition of the drugs. These data define at least 2 pathways for induction of histamine release: (1) a PS-potentiated pathway inhibited by muM cromolyn, and (2) a PS-independent pathway unaffected by muM cromolyn. Dose-response curves of the muM cromolyn inhibition of PS-potentiated release revealed a parallel shift, suggesting that cromolyn may compete with PS.
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PMID:Relationship between phosphatidylserine and cromolyn in histamine release. 6 50

The mechanism by which receptors coupled to phospholipase C (PLC) induce Cl- secretion in amiloride-pretreated cultures of human nasal epithelial (HNE) cultures was investigated. Histamine (10(-4) M, basolateral administration) stimulated a rapid increase in equivalent short-circuit current, an index of Cl- secretion, that returned to baseline within 5 min. Intracellular recordings with double-barreled Cl(-)-selective microelectrodes showed that the apical and basolateral membrane potentials rapidly hyperpolarized, the fractional resistance of the apical membrane increased, and the transepithelial resistance decreased in response to histamine. Intracellular Cl- activity remained constant. Equivalent circuit analysis revealed that the early portion (< 0.9 min) of the Cl- secretory response was driven by an activation of a hyperpolarizing basolateral conductance, likely K+, whereas the later (> 0.9 min) phase of Cl- secretion reflects activation of the apical membrane Cl- conductance. Histamine raised intracellular Ca2+ (Ca2+i) measured by fura-2 in HNE with a potency similar to that observed for induction of Cl- secretion. Both intracellular release and plasma membrane influx pathways were identified, typical of receptor-mediated activation of PLC. The intracellular Ca2+ chelator 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid (15 microM), coupled with reduced bathing solution Ca2+, blunted the rise in Ca2+i and the net transepithelial Cl- secretory response to histamine. We conclude that 1) histamine induced Cl- secretion in HNE by a sequential mechanism: the rapid initial component reflects activation of the basolateral K+ conductance, and the later component reflects activation of an apical Cl- conductance; and 2) the level of Ca2+i may participate in the activation of both the basolateral and apical conductances.
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PMID:Histamine-induced Cl- secretion in human nasal epithelium: responses of apical and basolateral membranes. 133 87

Incubation of either C3a, C3ades Arg, or synthetic analogues of the C-terminal sequence of C3a with purified rat peritoneal mast cells resulted in a rapid and dose-dependent histamine release. The natural factors C3a and C3ades Arg were the most active of the factors tested exhibiting EC50 values of 3.3 and 2.2 microM, respectively. The corresponding 21- and 22-residue C-terminal analogues of C3a (Y21R and Y21) were less potent than intact factor exhibiting EC50 values of 10.9 and 25.1 microM, respectively. Histamine was released in a nonlytic manner and the mast cell stimulation by both natural and synthetic factors was sensitive to pertussis toxin, neuraminidase, benzalkonium chloride, and to an excess of calcium. C3a stimulated the generation of inositol polyphosphates that was inhibited by either pertussis toxin or benzalkonium chloride. The C3a anaphylatoxin also directly stimulates purified G proteins (i.e., GTPase activity) in a dose-dependent manner. The evident correlation between efficiency of C3a and C3a analogues to stimulate purified G proteins and their capacity to induce cellular histamine release led us to conclude that C3a fails to activate mast cells via a mechanism involving specific receptors on the cell. Instead, we propose that C3a either causes direct activation of G proteins of the Gi subtype, with a subsequent activation of phospholipase C, or interacts with a binding site of the cell surface specific for cationic molecules that is coupled to the G protein cascade.
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PMID:A mechanism of action for anaphylatoxin C3a stimulation of mast cells. 137 70

Histamine H1 receptors mediate activation of phospholipase C, with subsequent increases in cytosolic Ca2+ concentration ([Ca2+]i), and H2 receptors mediate accumulation of cAMP. HL-60 promyelocytes possess H2 receptors, but it is not known whether these cells also possess H1 receptors. We studied the effects of histamine on [Ca2+]i and the functional importance of histamine receptors in HL-60 promyelocytes. In these cells, histamine and dimaprit increased [Ca2+]i with EC50 values of 15 microM and 30 microM, respectively. Diphenhydramine inhibited the effect of histamine (100 microM) on [Ca2+]i up to 40%, with an IC50 of 100 nM. Famotidine and cimetidine diminished the effect of histamine (100 microM) up to 75%, with IC50 values of 85 nM and 300 nM, respectively. Diphenhydramine plus famotidine abolished histamine-induced rises in [Ca2+]i. Impromidine, with an IC50 of 100 nM, abolished the effect of histamine (100 microM) on [Ca2+]i. Diphenhydramine, famotidine, cimetidine, and impromidine showed marked noncompetitive antagonism with histamine. Histamine-induced increases in [Ca2+]i were largely due to influx of Ca2+ from the extracellular space. Ca2+ influx was inhibited by 1-(beta-[3-(4-methoxyphenyl)propoxyl]-4-methoxyphenethyl)-1H-imida zole hydrochloride (SK&F 96365). Histamine activated phospholipase C. Histamine induced expression of formyl peptide receptors, which effect was abolished by famotidine. In U-937 promonocytes and in the human erythroleukemia cell lines HEL and K-562, histamine did not induce rises in [Ca2+]i. Our data suggest the following. (i) In HL-60 promyelocytes, histamine increases [Ca2+]i predominantly via H2 receptors and to a lesser extent via H1 receptors. (ii) The agonist/antagonist profile of the H2 receptor-mediated increases in [Ca2+]i differs markedly from that for cAMP accumulation, suggesting the involvement of different H2 receptor subtypes. (iii) In HL-60 promyelocytes, histamine activates nonselective cation channels and induces functional differentiation via H2 receptors.
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PMID:Histamine increases cytosolic Ca2+ in HL-60 promyelocytes predominantly via H2 receptors with an unique agonist/antagonist profile and induces functional differentiation. 138 Oct 44

Histamine produces a rapid and massive increase of the c-GMP level of guinea-pig lung tissue. The EC50 value for this in vitro response is found to be 27 microM and the c-GMP level is maximally 9-fold elevated by 100 microM histamine. The response is stereoselectively inhibited by the enantiomers of chlorpheniramine, indicating H1-receptor involvement. Preincubation of lung tissue with 200 microM NCDC, a phospholipase C inhibitor, reduces the histamine (100 microM) responses to 16 +/- 3% (N = 6) of the control c-GMP production. Inhibition of protein kinase C by 50 microM H-7 does not significantly attenuate the H1-receptor response, whereas omittance of extracellular Ca2+ results in almost complete inhibition of the c-GMP production. The histamine-induced c-GMP response is inhibited by hemoglobin, methylene blue and the antioxidants butylated hydroxytoluene and nordihydroguaretic acid, indicating the involvement of a nitric oxide-dependent activation of soluble guanylate cyclase. This suggestion is supported by the concentration-dependent inhibition of the c-GMP production by NG-monomethyl-L-arginine (NMA). At a concentration of 20 microM NMA the histamine (100 microM) response is inhibited to 34 +/- 8% (N = 6) of the control response. This inhibition is reversed to 127 +/- 20% (N = 6) by the exogenous addition of 1 mM L-arginine. These findings show that after an initial H1-receptor-mediated, phospholipase C-dependent, Ca(2+)-mobilization the enzymatic conversion of L-arginine to nitric oxide is stimulated. This nitric oxide production is finally responsible for the activation of soluble guanylate cyclase, leading to the production of c-GMP.
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PMID:Histamine H1-receptor-mediated cyclic GMP production in guinea-pig lung tissue is an L-arginine-dependent process. 165 Feb 6

The involvement of G proteins in hormonal regulation of phospholipase C in bovine pulmonary arterial endothelial cells and human umbilical vein endothelial cells has been investigated. Histamine and bradykinin stimulated phosphoinositol (PI) turnover in a dose-dependent manner, and phorbol-myristate-acetate inhibited hormone-dependent activation of PI turnover, indicating a feedback control of this process. Activation of PI turnover by histamine and bradykinin is guanine nucleotide-dependent. Stimulation of the endothelial cell G proteins by guanosine 5'-O-(3-thiotriphosphate) leads to the potentiation of hormone-induced activation of PI turnover, whereas guanosine 5'-O-(2-thiodiphosphate), which inactivates G proteins, blocks the hormone-dependent PI turnover. Pertussis toxin blocked the histamine-dependent stimulation but did not affect the bradykinin-dependent stimulation of phospholipase C. By contrast, botulinum toxin (C2 + C3 components) blocked the bradykinin-dependent stimulation of phospholipase C but did not affect the histamine-dependent stimulation of this enzyme. These data suggest that at least two different G proteins are involved in hormone-dependent stimulation of phospholipase C in endothelial cells.
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PMID:Two types of G proteins involved in regulation of phosphoinositide turnover in pulmonary endothelial cells. 165 92

Bradykinin, kallidin (Lys-bradykinin) and [Thi 5,8, D-Phe7]-bradykinin, a functional B2 antagonist, induce histamine release from rat peritoneal mast cells. The histamine release is dependent upon added calcium when mast cells are placed in calcium-free medium 30 min before being triggered with the kinins. Histamine release was dose-dependently inhibited by pertussis toxin (1-100 ng/ml) and by benzalkonium chloride (0.1-3 micrograms/ml). The efficiency of ionophore A23187 on histamine release was affected neither by pertussis toxin nor by benzalkonium chloride. The parallel response of rat peritoneal mast cells to kinins and to substance P suggest that these peptides have the same mechanisms of action i.e. activation of a pertussis toxin-sensitive G protein and of phospholipase C defining a peptidergic triggering pathway of mast cells.
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PMID:A pertussis toxin-sensitive G protein is required to induce histamine release from rat peritoneal mast cells by bradykinin. 169 72

Histamine release induced by the introduction of a nonhydrolyzable analogue of GTP, GTP-gamma-S, into ATP-permeabilized mast cells, is associated with phosphoinositide breakdown, as evidenced by the production of phosphatidic acid (PA) in a neomycin-sensitive process. The dependency of both PA formation and histamine secretion on GTP-gamma-S concentrations is bell shaped. Whereas concentrations of up to 0.1 mM GTP-gamma-S stimulate both processes, at higher concentrations the cells' responsiveness is inhibited. At a concentration of 1 mM, GTP-gamma-S self-inhibits both PA formation and histamine secretion. Inhibition of secretion can, however, be overcome by the basic secretagogues compound 48/80 and mastoparan that in suboptimal doses synergize with 1 mM GTP-gamma-S to potentiate secretion. Secretion under these conditions is not accompanied by PA formation and is resistant both to depletion of Ca2+ from internal stores and to pertussis toxin (PtX) treatment. In addition, 48/80, like mastoparan, is capable of directly stimulating the GTPase activity of G-proteins in a cell-free system. Together, our results are consistent with a model in which the continuous activation of a phosphoinositide-hydrolyzing phospholipase C (PLC) by a stimulatory G-protein suffices to trigger histamine secretion. Basic secretagogues of mast cells, such as compound 48/80 and mastoparan, are capable of inducing secretion in a mechanism that bypasses PLC by directly activating a G-protein that is presumably located downstream from PLC (GE). Thereby, these secretagogues induce histamine secretion in a receptor-independent manner.
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PMID:Exocytosis in mast cells by basic secretagogues: evidence for direct activation of GTP-binding proteins. 169

In human HeLa carcinoma cells, histamine causes a dose-dependent formation of inositol phosphates, production of diacylglycerol and a transient rise in intracellular [Ca2+]. These responses are completely blocked by the H1-receptor antagonist pyrilamine. In streptolysin-O-permeabilized cells, formation of inositol phosphates by histamine is strongly potentiated by guanosine 5'-[gamma-thio]triphosphate and inhibited by guanosine 5'-[beta-thio]diphosphate, suggesting the involvement of a GTP-binding protein. Histamine stimulates the rapid but transient formation of Ins(1,4,5)P3, Ins(1,3,4)P3 and InsP4. InsP accumulates in a much more persistent manner, lasting for at least 30 min. Studies with streptolysin-O-permeabilized cells indicate that InsP accumulation results from dephosphorylation of Ins(1,4,5)P3, rather than direct hydrolysis of PtdIns. The rise in intracellular [Ca2+] is biphasic, with a very fast release of Ca2+ from intracellular stores, that parallels the Ins(1,4,5)P3 time course, followed by a more prolonged phase of Ca2+ influx. In individual cells, histamine causes a rapid initial hyperpolarization of the plasma membrane, which can be mimicked by microinjected Ins(1,4,5)P3. Histamine-induced hyperpolarization is followed by long-lasting oscillations in membrane potential, apparently owing to periodic activation of Ca2+-dependent K+ channels. These membrane-potential oscillations can be mimicked by microinjection of guanosine 5'-[gamma-thio]triphosphate, but are not observed after microinjection of Ins(1,4,5)P3. We conclude that H1-receptors in HeLa cells activate a PtdInsP2-specific phospholipase C through participation of a specific G-protein, resulting in long-lasting oscillations of cytoplasmic free Ca2+.
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PMID:Histamine-H1-receptor-mediated phosphoinositide hydrolysis, Ca2+ signalling and membrane-potential oscillations in human HeLa carcinoma cells. 215 7

Histamine receptors are present on the surface of various normal and tumor-derived cell types, where their biological function is incompletely understood. Here we report that histamine not only stimulates cell proliferation under serum-free conditions, but also is chemotactic for human carcinoma (Hela and A431) and melanoma (A875) cells expressing H1 type receptors. Histamine was found to be a potent activator of phospholipase C, leading to polyphosphoinositide hydrolysis and subsequent intracellular Ca2+ mobilization. In addition, histamine also causes the protein kinase C-mediated activation of Na+/H+ exchange, as evidenced by an amiloride-sensitive rise in cytoplasmic pH. All histamine-induced responses, including chemotaxis and DNA synthesis, are completely inhibited by the H1 receptor antagonist pyrilamine, but not by cimetidine, an inhibitor of histamine H2 type receptors. Our results suggest that histamine may have a previously unrecognized role in the migration and proliferation of cells expressing H1 receptors.
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PMID:Histamine as a growth factor and chemoattractant for human carcinoma and melanoma cells: action through Ca2(+)-mobilizing H1 receptors. 218 46

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