Quercetin: A novel inhibitors of Ca2+ influx and exocytosis in rat peritoneal mast cells

The effect of the transport ATPase inhibitor, quercetin on histamine secretion from antigen sensitized mast cells was examined. At micromolar concentrations, quercetin had an immediate inhibitory effect on histamine secretion mediated by antigen, concanavalin A and ATP but it had little effect on release induced by the ionophores A23187 and X537A. Quercetin exerts its effect after the binding of the releasing ligands and the distinction between its effect on ligand induced and A23187 induced secretion suggests that it affects the normal path of Ca²⁺ entry into the cell.The inhibitory effects of quercetin were compared with those of the structurally related anti-allergic drugs cromoglycate and AH7725.     

Flavonoid glycosides extracted from hop (Humulus lupulus L.) as inhibitors of chemical mediator release from human basophilic KU812 cells

The antiallergic properties of hop water extract (HWE) were studied by evaluating histamine release from human basophilic KU812 cells induced by calcium ionophore A23187. HWE significantly inhibited histamine release, but boiling water extract and chloroform-methanol extract did not show any inhibitory effect on it. A 50% methanol-eluted fraction separated from HWE by XAD-4 column chromatography (MFH) had a strong inhibitory effect as compared with HWE. Quercetin glycosides and kaempherol glycosides were identified in MFH, of which quercetin glycosides contributed to the inhibition of histamine release. Most quercetin in HWE existed in glycoside form and its quercetin content, obtained by acid hydrolysis, was about 200 mug/g. HWE and MFH significantly inhibited protein kinase C, which plays a pivotal role in the degranulation of chemical mediators. These results indicate that HWE can inhibit type-I allergic reactions.     

Flavonoid Glycosides Extracted from Hop (Humulus lupulus L.) as Inhibitors of Chemical Mediator Release from Human Basophilic KU812 Cells

The antiallergic properties of hop water extract (HWE) were studied by evaluating histamine release from human basophilic KU812 cells induced by calcium ionophore A23187. HWE significantly inhibited histamine release, but boiling water extract and chloroform–methanol extract did not show any inhibitory effect on it. A 50% methanol-eluted fraction separated from HWE by XAD-4 column chromatography (MFH) had a strong inhibitory effect as compared with HWE. Quercetin glycosides and kaempherol glycosides were identified in MFH, of which quercetin glycosides contributed to the inhibition of histamine release. Most quercetin in HWE existed in glycoside form and its quercetin content, obtained by acid hydrolysis, was about 200 μg/g. HWE and MFH significantly inhibited protein kinase C, which plays a pivotal role in the degranulation of chemical mediators. These results indicate that HWE can inhibit type-I allergic reactions.     

Modulatory effect of HCO3- on rat mast cell exocytosis: cross-talks between bicarbonate and calcium.

HCO-3 modulation of histamine release and its relationship with the Ca2+ signal were studied in serosal rat mast cells. Histamine release was induced by Ca2+ mobilizing stimuli, namely compound 48/80, thapsigargin, Ca2+ chelators, ionophore A23187, and PMA and ionophore A23187 in a HCO-3-buffered medium or a HCO-3-free medium. The presence of HCO-3 reduced histamine release by 48/80, Ca2+ chelators, A23187, and PMA/A23187, but increased histamine release induced by thapsigargin. Histamine release by PMA was significantly higher in a HCO-3-free medium than in a HCO-3-free medium, as it was the PMA potentiation of histamine release by A23187. [Ca2+]i changes induced by these drugs were measured in fura-2-loaded mast cells. In thapsigargin and EGTA or BAPTA preincubated mast cells [Ca2+]i increase was higher in a HCO-3-buffered medium than in a HCO-3-free medium in the presence of Ca2+. On the contrary, in compound 48/80 and PMA/A23187 activated mast cells the [Ca2+]i increase is the same both in the presence and in the absence of HCO-3. The effect of HCO-3 on histamine release in serosal rat mast cells depends on the stimulus, but it is not related to the presence of Cl-. In thapsigargin-stimulated mast cells the effect of HCO-3 on histamine release may be related to the Ca2+ signal, but in compound 48/80, EGTA, and PMA/A23187-activated mast cells there is no relationship between intracellular Ca2+ and the inhibitory effect of HCO-3 on histamine release. Additionally, the PKC pathway is implicated in the inhibitory effect of HCO-3 on histamine release, the higher the chelation of calcium rendering the higher the enhancement of the response after adding calcium in the absence of HCO-3.     

FK-506, a potent novel inhibitor of the release of proinflammatory mediators from human Fc epsilon RI+ cells.

FK-506, a macrolide that binds with high affinity to a specific binding protein, and the structurally related macrolide rapamycin (RAP) were compared to cyclosporin A (CsA) for their effects on the release of preformed (histamine) and de novo synthesized (peptide leukotriene C4) inflammatory mediators from human basophils. FK-506 (1 to 300 nM) concentration dependently inhibited histamine release from basophils activated by Der p I Ag, anti-IgE, or compound A23187. FK-506 was more potent than CsA when basophils were challenged with Ag (IC50 = 25.5 +/- 9.5 vs 834.3 +/- 79.8 nM; p less than 0.001), anti-IgE (IC50 = 9.4 +/- 1.7 vs 441.3 +/- 106.7 nM; p less than 0.001), and A23187 (IC50 = 4.1 +/- 0.9 vs 36.7 +/- 3.8 nM; p less than 0.001). The maximal inhibitory effect of FK-506 was higher than that caused by CsA when basophils were activated by Der p I (80.0 +/- 3.6 vs 49.5 +/- 4.7%; p less than 0.001) and anti-IgE (90.4 +/- 1.8 vs 62.3 +/- 2.9%; p less than 0.001). FK-506 had little or no effect on the release of histamine caused by f-met peptide, phorbol myristate (12-tetradecanoyloxy-13-acetoxy-phorbol), and bryostatin 1. RAP (30 to 1000 nM) selectively inhibited only IgE-mediated histamine release from basophils, although it had no effect on mediator release caused by f-met peptide, A23187, 12-tetradecanoyloxy-13-acetoxy-phorbol, and bryostatin 1. FK-506 also inhibited the de novo synthesis of sulfidopeptide leukotriene C4 from basophils challenged with anti-IgE. Low concentrations of FK-506 and CsA synergistically inhibited the release of mediators from basophils induced by anti-IgE or compound A23187. IL-3 (3 and 10 ng/ml), but not IL-1 beta (10 and 100 ng/ml), reversed the inhibitory effect of both FK-506 and CsA on basophils challenged with anti-IgE or A23187. RAP was a competitive antagonist of the inhibitory effect of FK-506 on A23187-induced histamine release from basophils with a dissociation constant of about 30 nM. In contrast, RAP did not modify the inhibitory effect of CsA on A23187-induced histamine release. These data indicate that FK-506 is a potent antiinflammatory agent that acts on human basophils presumably by binding to a receptor site (i.e., FK-506 binding protein).     

Role of calcium in histamine release from rat mast cells activated by various secretagogues; intracellular calcium mobilization correlates with histamine release

Anti-IgE, con A or antigen caused an increase in the intracellular calcium concentration, [Ca2+]i, of mast cells. The increase occurred in two stages: a rapid initial rise caused by Ca-mobilization from intracellular Ca-stores and a second sustained rise caused by an influx of extracellular calcium (White, J.R., Pluznik, D.V., Ishizaka, K. & Ishizaka, T. (1985) Proc. Natl. Acad. Sci. U.S.A. 82, 8193-8197). The rapid initial rise was followed by a release of histamine, which seemed to coincide with the second rise. A23187 and compound 48/80 induced a rapid initial rise in [Ca2+]i, followed by a gradual decrease in [Ca2+]i, GMCHA-OPhBut, a specific pH 7 tryptase inhibitor (Muramatu, M., Ito, T., Takei, M. & Endo, K. (1988) Biol. Chem. Hoppe-Seyler 369, 617-625), strongly inhibited both the initial and second rises of [Ca2+]i, as well as histamine release by these secretagogues, and its effects on the initial rise were closely correlated with those on histamine release. Addition of GMCHA-OPhBut immediately after the initial rise strongly inhibited the second rise, thereby decreasing the final [Ca2+]i. These results strongly suggested a possible involvement of pH 7 tryptase, not only in Ca-mobilization leading to the initial rise in [Ca2+]i, but also in the second rise. Trapping of extracellular calcium by 3mM EGTA decreased both the initial rise in [Ca2+]i and histamine secretion induced by anti-IgE or con A; the magnitude of this effect depended on the time between induction and EGTA addition. Histamine release was closely correlated with the initial rise in [Ca2+]i. Similar results were obtained with A23187, but even 5 min after the addition of EGTA an initial rise of [Ca2+]i could still be induced, and histamine (30% of total histamine) was still released. However, A23187 did not induce a rise in [Ca2+]i in mast cells which had been exhaustively washed with Tyrode/Hepes solution containing 3mM EGTA, followed by suspension in the same solution. Even at 20 min after depletion of the extracellular calcium, compound 48/80 still caused an initial rise in [Ca2+]i to above half the maximal value, and histamine secretion was even less affected. The above results indicated that the initial rise in [Ca2+]i, due to Ca-mobilization, correlates with the histamine release promoted by the secretagogues described. On the other hand, isoproterenol strongly induced histamine secretion with no change of [Ca2+]i, while EGTA treatment prior to isoproterenol stimulation had no effect on histamine release, indicating a different secretion mechanism.     

On the mechanism of stimulation of H+ transport in gastric mucosa by Ca++ ionophore A23187. II. Ca++-cyclic AMP interactions

The possibility of interactions between calcium and cyclic AMP (cAMP) in the mechanism of stimulation of H+ transport by A23187 was studied in the isolated gastric mucosa of the toad Bufo marinus. A23187 stimulated H+ secretion and histamine release. The amount of histamine released by A23187 did not explain the degree of stimulation. Metiamide partially inhibited the response to A23187. Ca++ ionophore produced an overstimulation of secretion after H+ transport had been induced by supramaximal effective concentrations of histamine (10-4 M). In the presence of metiamide, IMX potentiated the response to A23187. Also, in the same condition (metiamide treated) the effects of db-cAMP and A23187 were additive. The results are consistent with an interaction between Ca++ and ionophore-released histamine at the oxyntic cell in the stimulation by A23187. The stimulatory response may be the result of a potentiation between calcium and cAMP at the intracellular level.     

Possible role of calmodulin in the control of histamine release from human basophil leukocytes

We investigated the possible role of calmodulin (CaM) in the control of histamine release from human basophil leukocytes using several CaM antagonists. Trifluoperazine (TFP) (10(-6)-2 X 10(-5) M), pimozide (10(-6)-1.5 X 10(-5) M), chlorpromazine (CPZ) (10(-5)-10(-4) M) and promethazine (PMZ) (2 X 10(-5)-10(-4) M) inhibited in vitro histamine secretion from human basophils induced by several immunological (antigen, anti-IgE, and formyl-L-methionyl-L-leucyl-L-phenylalanine: f-met peptide) and nonimmunological (Ca2+ ionophore A23187 and the tumor promoter 12-0-tetradecanoyl-phorbol-13-acetate: TPA) stimuli. Trifluoperazine sulfoxide (TFP-S) and chlorpromazine sulfoxide (CPZ-S), which have very low affinity to CaM, had practically no inhibitory effect on histamine release from human basophils. The inhibitory effect of TFP could be made irreversible by irradiating the cells with UV light. A sulfonamide derivative, the compound N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide hydrochloride (W-7) (2.5 X 10(-5)-2 X 10(-4) M), which selectively binds to CaM, inhibited the release of histamine from basophils. In contrast, the chloride deficient analogue, W-5, which interacts only weakly with CaM, had practically no inhibiting effect. The IC50 for enzyme release by a series of eight CaM antagonists was closely correlated (r = 0.91; p less than 0.001) with the CaM specific binding, supporting the concept that these agents act by binding to CaM and thereby inhibiting histamine release. TFP and W-7 inhibited histamine release in the absence and in the presence of increasing concentrations of extracellular Ca2+. These results emphasize the possible role of CaM in the control of histamine secretion from human basophils.     

Inhibitory effect of diethylstilbestrol on histamine release by rat mast cells and its relation to the cellular ATP content

The effect of diethylstilbestrol, a synthetic estrogen, on mast cell secretion was investigated. The results showed that 50 microM diethylstilbestrol inhibited histamine release from rat peritoneal mast cells in the presence and absence of glucose, but did not affect 45Ca uptake stimulated by concanavalin A. Diethylstilbestrol also inhibited histamine release induced by compound 48/80, exogenous ATP, or ionophore A23187. Since estradiol benzoate, hexestrol and daidzein were not inhibitory, the inhibitory action of diethylstilbestrol must be independent of its estrogenic activity. The ATP content of mast cells decreased to less than 0.1 nmol/10(6) cells on treatment with 50 microM diethylstilbestrol at 37 degrees C for 15 min. This effect of diethylstilbestrol in decreasing the ATP content of mast cells correlated well with its inhibitory effect on histamine release. Diethylstilbestrol at 50 microM depleted the cells of ATP at 37 degrees C, but not at 0 degrees C, whereas [3H]diethylstilbestrol ( [monoethyl-3H]diethylstilbestrol) binding to rat mast cells was the same at 0 and 37 degrees C. It is concluded that diethylstilbestrol reduced the ATP content of rat mast cells by inhibiting metabolism of the cells, and consequently inhibited degranulation.     

Epigallocatechin gallate inhibits histamine release from rat basophilic leukemia (RBL-2H3) cells: role of tyrosine phosphorylation pathway

Some tea polyphenolic compounds including (-)-epigallocatechin gallate (EGCG) have been shown to inhibit histamine release from mast cells through poorly understood mechanisms. By using a mast cell model rat basophilic leukemia (RBL-2H3) cells we explored the mechanism of the inhibition. EGCG inhibited histamine release from RBL-2H3 cells in response to antigen or the calcium-ionophore A23187, while (-)-epicatechin (EC) had little effect. Increased tyrosine phosphorylation of several proteins including approximately 120 kDa proteins occurred in parallel with the secretion induced by either stimulation. EGCG also inhibited tyrosine phosphorylation of the approximately 120-kDa proteins induced by either stimulation, whereas EC did not. The tyrosine kinase-specific inhibitor piceatannol inhibited the secretion and tyrosine phosphorylation of these proteins induced by either stimulation also. Further analysis showed that the focal adhesion kinase pp125(FAK) was one of the approximately 120-kDa proteins. These findings suggest that EGCG prevents histamine release from mast cells mainly by inhibiting tyrosine phosphorylation of proteins including pp125(FAK).     

Changes in cellular levels of cyclic AMP in rat mast cells during secretion of histamine induced by immunoglobulin E decapeptide and ACTH(1–24) peptide: Comparison with immunological and ionophore triggers

The role of cyclic AMP in the secretory mechanism of mast cells has been investigated by comparing the time course of changes in cellular levels of this cyclic nucleotide with the kinetics of secretion induced by basic peptides, antigen, anti-IgE and calcium ionophore. ACTH(1–24) peptide and a synthetic decapeptide representative of the sequence 497–506 within the Cε4 domain of human IgE induced a transient rise in cyclic AMP which reached approx. 150% of the resting levels by 10 s. Peptide-induced secretion of histamine was also rapid, reaching a maximum after 5–10 s. Immunological triggering of mast cells with antigen and anti-IgE raised levels of cyclic AMP to 150% of resting levels within 15 s, accompanying secretion of histamine which reached a maximum after 30 s. A relatively slower release of histamine induced by the calcium ionophore A23187 was paralleled by a significant reduction in cyclic AMP to 50% of the resting levels after 300 s. These data suggest a relationship between the accumulation of cyclic AMP in mast cells and secretion of histamine mediated by the Cε4 decapeptide and the ACTH(1–24) peptide as well as by IgE-dependent mechanisms. However, the simultaneous increase in cyclic AMP and secretion of histamine suggests that the two events may not be causally related.     

Process of re-establishment of beta-adrenergic induced protein secretion after cytochalasin D inhibition in rat parotid gland. Effect of cholinergic agonist, phorbol ester and calcium.

In rat parotid gland, 3H-protein secretion is stimulated by beta-adrenergic receptor activation (via cAMP) and also by cholinergic receptor activation (via IP3, calcium and diacylglycerol). The disorganization of microfilament system by cytochalasin D induced an inhibition of beta-adrenergic induced 3H-protein secretion whereas it did not modify the cholinergic muscarinic one. Cytochalasin D induced the formation of vacuoles in the parotid cell. In this work we show that the activation of muscarinic receptors (with carbachol) partially abolished the inhibitory effect of cytochalasin D on beta-adrenergic induced secretion. Since carbachol induced both intracellular calcium increase and protein kinase C activation, we decided to test separately the effect of calcium (using the calcium ionophore A23187) and protein kinase C activation (using phorbol ester) on the inhibitory effect of cytochalasin D on beta-adrenergic induced secretion. A23187, in the presence of calcium in the external medium was able to partially abolish cytochalasin D effect (ie re-establishing protein secretion) whereas activation of protein kinase C by phorbol 12-13 di-butyrate had no effect. These results suggest that protein kinase C is not involved in re-establishing a 'normal' secretion phenomenon whereas calcium does interfere. Furthermore, our fluorescence study shows that, when cytochalasin D is present in the incubation medium, the actin network is disturbed even in the presence of carbachol. This indicates that a calcium entry in the cell is not sufficient to restore a 'normal' actin network.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of protein kinase C activation on mast cell histamine release

The role of protein Kinase C activators in the process of histamine secretion has been studied in rat peritoneal mast cells purified by a density gradient. TPA (12-O-tetradecanoyl-phorbol-13-acetate), a tumor promoter which activates protein kinase C, induced histamine release in the presence and in the absence of external free Ca2+. TPA and the calcium ionophore A23187 have an additive effect on secretion. Histamine release induced by TPA is energy-dependent. In the presence of 100 microM KCN secretion was moderately inhibited, however when glucose was removed from the incubation medium TPA-induced histamine release in the presence of KCN was strongly depressed.     

Role of Ca in stimulus-secretion coupling in the gastric oxyntic cell: Effect of A23187

The effects of Ca⁺⁺ ionophore A23187 on H⁺ secretion and histamine release were studied in the isolated gastric mucosa of the toad . A23187 added from the mucosal side stimulated H⁺ secretion. At high concentrations, A23187 also caused histamine release. This histamine was not sufficient to explain the effects of A23187 on H⁺ secretion. Metiamide, only partially inhibited the effect of ionophore. There was summation and/or potentiation of effects between A23187 and histamine. The results are consistent with the hypothesis that Ca⁺⁺ acts as a second messenger in stimulus-secretion coupling in the oxyntic cell. It is possible that Ca⁺⁺ and cAMP may interact as parallel second messengers in the control of gastric H⁺ secretion.     

Characterization of the anti-inflammatory effect of FK-506 on human mast cells.

We have examined the effects of FK-506 and of the struturally related macrolide rapamycin, which bind with high affinity to a specific binding protein (FKBP), to evaluate the involvement of this protein in the release of preformed (histamine) and de novo synthesized inflammatory mediators (sulfidopeptide leukotriene C4 and prostaglandin D2) from mast cells isolated from human lung parenchyma. FK-506 (0.1 to 300 nM) concentration dependently inhibited histamine release from lung parenchymal mast cells activated by anti-IgE. FK-506 was more potent in lung mast cells than in basophils (IC50 = 1.13 +/- 0.46 nM vs 5.28 +/- 0.88 nM; p less than 0.001), whereas the maximal inhibitory effect was higher in basophils than in lung mast cells (88.4 +/- 2.5% vs 76.4 +/- 3.8%; p less than 0.01). FK-506 had little or no inhibitory effect on histamine release from lung mast cells challenged with compound A23187, whereas it completely suppressed A23187-induced histamine release from basophils. FK-506 also inhibited the de novo synthesis of 5-lipoxygenase (sulfidopeptide leukotriene C4) and cyclo-oxygenase (prostaglandin D2) metabolites of arachidonic acid from mast cells challenged with anti-IgE. Unlike in basophils, Il-3 (3 to 30 ng/ml) did not modify anti-IgE- or A23187-induced histamine release from lung mast cells nor did it reverse the inhibitory effect of FK-506. Rapamycin (3 to 300 nM) had little or no effect on the release of histamine from lung mast cells, but it was a competitive antagonist of the inhibitory effect of FK-506 on anti-IgE-induced histamine release from human mast cells with a dissociation constant of about 12 nM. These data indicate that FK-506 is a potent anti-inflammatory agent that acts on human lung mast cells presumably by binding to a receptor site (i.e., FKBP).     

Arachidonate lipoxygenase inhibitors in guinea-pig isolated trachea. Effects on contractions to antigen and various agonists

We compared the effects of the leukotriene (LT) D4 receptor antagonist FPL55712 and some lipoxygenase inhibitors on contractions of isolated guinea-pig trachea induced by antigen (ovalbumin, OA) and calcium ionophore A23187 in the presence of the cyclooxygenase inhibitor indomethacin (5 microM), and by arachidonic acid (AA), melittin and LTD4. FPL55712 (0.1 and 1 microM) inhibited contractions induced by AA (100 microM) and the phospholipase A2 activator melittin (3 micrograms/ml), while the lipoxygenase inhibitor nordihydroguaiaretic acid (NDGA, 10 microM) was a more effective inhibitor of the melittin response than the AA response. FPL55712 inhibited contractions induced by OA (100 micrograms/ml) more than by A23187 (1 microgram/ml), and these inhibitory effects of FPL55712 were much less in the presence of l-serine-borate complex (45 mM), an inhibitor of LTC4 conversion to LTD4. NDGA (10 microM) had no significant effect on the OA response, whereas the lipoxygenase inhibitors 1-phenyl-3-pyrazolidone (phenidone, 10 microM) and 5,8,11,14-eicosatetraynoic acid (ETYA, 10 microM) clearly inhibited it. In contrast, NDGA and phenidone inhibited the A23187 response, but ETYA had no effect on it. FPL55712, phenidone and ETYA, but not NDGA, had a large inhibitory effect on LTD4-induced contractions, but these inhibitors had no effect on histamine-induced contractions. These results suggest that in the guinea-pig trachea inhibitors of LTD4-induced contractions decrease antigen-induced contractions, whereas lipoxygenase inhibitors reduce the contraction to A23187.     

Comparative functional characterization of mouse bone marrow-derived mast cells and peritoneal mast cells in response to non-immunological stimuli

The cultured mouse mast cells that are dependent on spleen-derived factor for their proliferation and maintenance and have been shown to be similar to mucosal mast cells in terms of their T-cell dependence and histochemical staining characteristics. Mast cell heterogeneity has been confirmed by functional characterization of mouse bone marrow-derived mast cells (MBMMC) and mouse peritoneal mast cells (MPMCs). MPMCs released around 30% of histamine when stimulated with compound 48/80 whereas MBMMC were almost unresponsive to the same stimulus. Calcium Ionophore A23187 on the other hand, released histamine in dose-dependent manner from MBMMC. The study was undertaken to investigate the effect of antiallergic drug, disodium cromoglycate (DSCG), a synthetic cromone and quercetin, a plant-derived flavonoid on Ca ionophore A23187 induced histamine release from MBMMC. MBMMCs were almost unresponsive to DSCG whereas Ca Ionophore induced histamine release was blocked by Quercetin. The results indicate that response of mast cells at one anatomic site to a given stimulus does not necessarily predict the response of mast cells at a different anatomic location to the same stimulus. It shows functional heterogeneity within a single species. So, it cannot be assumed that antiallergic compounds stabilizing mast cells in one tissue site or organ will be equally efficacious against mast cells in other sites.     

Synergistic signals in the mechanism of antigen-induced exocytosis in 2H3 cells: evidence for an unidentified signal required for histamine release

The aim of this study was to determine whether the increase in cytosolic free Ca2+ concentration ([Ca2+]i) in response to antigen (aggregated ovalbumin) on IgE-primed 2H3 cells was sufficient to account for exocytosis. When the [Ca2+]i responses to antigen and the Ca2+ ionophore A23187 were compared, A23187 was much less effective at releasing histamine at equivalent [Ca2+]i increases, and little or no stimulated histamine release occurred with A23187 concentrations that matched the [Ca2+]i response to antigen concentrations that stimulated maximal histamine release. The [Ca2+]i response to antigen is not, therefore, sufficient to account for exocytosis, although extracellular Ca2+ is necessary to initiate both the [Ca2+]i response and histamine release: the antigen must generate an additional, unidentified, signal that is required for exocytosis. To determine whether this signal was the activation of protein kinase C, the effects of the phorbol ester 12-0-tetradecanoyl phorbol 13-acetate (TPA) on the responses to antigen were examined. TPA blocked the antigen-induced [Ca2+]i response and the release of inositol phosphates but had little effect on histamine release and did not stimulate exocytosis by itself. The unidentified signal from the antigen is therefore distinct from the activation of protein kinase C and is generated independently of the [Ca2+]i response or the release of inositol phosphates. Taken together with other data that imply that there is very little activation of protein kinase C by antigen when the rate of histamine release is maximal, it is concluded that the normal exocytotic response to antigen requires the synergistic action of the [Ca2+]i signal together with an unidentified signal that is not mediated by protein kinase C.     

Histamine release by pharmacological agents in the absence of external free Ca2+

The involvement of extracellular free Ca2+ in histamine release was investigated in rat peritoneal mast cells. Incubation of non-antigenized cells in a media with high extracellular potassium did not increase histamine release. Secretion induced by A23187 and compound 48/80 in the presence of Ca2+ requires metabolic energy. In the absence of external free Ca2+ (2.5 microM) histamine release induced by A23187 is reduced but not abolished. Secretion induced by compound 48/80 is independent of extracellular Ca2+. These results lead us to suggest that mast cell plasma membranes probably lack voltage-gated Ca2+ channels and that external Ca2+ may not be an absolute requisite for histamine secretion.     

Role of Ca2+ in H+ transport by rabbit gastric glands studied with A23187 and BAPTA, an incorporated Ca2+ chelator

The role of Ca2+ in stimulation of H+ gastric secretion by cAMP-dependent and -independent secretagogues was studied in isolated rabbit glands using Ca2+ ionophore, A23187, and an intracellular Ca2+ chelator (BAPTA, 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid) incorporated as its acetoxymethyl ester (BAPTA-AM). Acetylcholine (ACh), tetragastrin (TG), histamine and forskolin induced a transitory increase of intracellular Ca2+ concentration, [Ca2+]i, measured in gastric glands loaded with Ca2+-sensitive dye fura-2, and provoked an acid secretory response evaluated with aminopyrine accumulation ratio (AP ratio). The Ca2+-ionophore A23187 also induced an increase in [Ca2+]i and in AP ratio. cAMP-dependent secretagogues were more potent stimulants of acid secretion than cAMP-independent secretagogues. cAMP analogue, 8-bromo-adenosine 3',5'-cyclic monophosphate (8-BR-cAMP) induced an increase in AP ratio without modifying [Ca2+]i. BAPTA-AM (5-25 microM) induced a transient decrease of resting [Ca2+]i which returned to basal level due to extracellular Ca2+ entry. Increases in [Ca2+]i produced by ACh and TG were abolished by BAPTA and those produced by Ca2+ ionophore A23187 were partially buffered. BAPTA inhibited in a dose-dependent manner H+ secretion induced by cholinergic and gastrinergic stimulants in the presence of cimetidine. A23187 increased the AP ratio to values similar to those obtained with ACh or TG and was not inhibited by BAPTA. BAPTA partially inhibited (40%) the increase in AP ratio induced by forskolin and histamine inspite of the complete inhibition of the Ca2+ response. BAPTA did not inhibit the response to 8-BR-cAMP. BAPTA inhibition of forskolin stimulation was reversed by A23187 and the response was potentiated. These results indicate that ACh and TG response are completely dependent on an increase of [Ca2+]i. The response to cAMP-dependent agonists histamine and forskolin depend both on Ca2+ and cAMP. For forskolin stimulation the response may be the result of a potentiation between Ca2+ and cAMP.