The effect of non-steroidal anti-inflammatory drugs on adenosine triphosphate content and histamine release from rat peritoneal cell suspensions rich in mast cells.

1 Non-steroidal anti-inflammatory drugs (NSAID) suppressed compound 48/80-induced histamine release from rat peritoneal cells in vitro in a dose-dependent manner. 2 NSAID suppressed the adenosine triphosphate (ATP) content of rat peritoneal cells in vitro and this correlated strongly with the suppression of compound 48/80-induced histamine release. 3 The correlation demonstrated suggests that the mechanism of action of NSAID in the rat peritoneal cells is via depletion of cellular ATP.     

Cyclic AMP independent inhibition by papaverine of histamine release induced by compound 48/80.

Compound 48/80-induced histamine release from isolated rat peritoneal mast cells was inhibited in a dose-dependent manner by papaverine (ic₅₀ approx 20 μM). This effect of papaverine was not influenced by PGE₁ (14–140 μM), even though PGE₁ markedly increased must cell cAMP levels. Papaverine (0.5 mM) completely inhibited histamine release without causing any change in cAMP levels. Theophylline (0.1 and 0.5 mM) potentiated histamine release induced by submaximal concentrations of compound 48/80, while cAMP levels were increased. IBM X was as potent as papaverine in causing inhibition of mast cell phosphodiesterase. IBM X (0.14–0.7 mM) had no effect on histamine release but caused a 6–20 fold increase in mast cell cyclic AMP. Papaverine inhibition of histamine release was gradual at the onset and was parallelled by a depletion of mast cell ATP content. The inhibition of 48/80-induced histamine release and depletion of mast cell ATP levels was reversed by glucose. It is concluded that papaverine induced inhibition of 48/80-induced histamine release is independent of cAMP, is unrelated to phosphodiesterase inhibition but is dependent upon inhibition of energy production.     

The utilization of adenosine triphosphate in rat mast cells during histamine release induced by anaphylactic reaction and compound 48/80

Summary The ATP content of rat peritoneal mast cells has been studied in relation to histamine release induced by compound 48/80 and antigen-antibody (anaphylactic) reaction in vitro. When the ATP content of actively sensitized mast cells was reduced to different levels by oligomycin, a good correlation was obtained between the ATP levels and the amounts of histamine released by the anaphylactic reaction. A similar linear relation has previously been demonstrated between the ATP levels of mast cells and histamine release induced by compound 48/80. The ATP content of mast cells was also studied at different intervals after the exposure of the cells to antigen or compound 48/80. No significant change in the ATP content was observed in untreated mast cells during the short period when histamine release occurs. If, however, the mast cells were preincubated with oligomycin or 2-deoxyglucose to reduce the rate of ATP synthesis while a large part of the histamine release remained unaffected—a decrease in the ATP content could be demonstrated in close time relation to both anaphylactic and compound 48/80-induced histamine release. The observations indicate an increased utilization of ATP in mast cells during the release process.     

Increased Utilization of Endogenous ATP in Isolated Rat Mast Cells during Histamine Release Induced by Compound 48/80

Abstract: In order to investigate whether the energy dependence of histamine release induced by compound 48/80 from isolated rat mast cells reflects an increased utilization of ATP during the release process, the ATP content in samples of mast cells was determined 5 sec. before and 25 sec. after the addition of compound 48/80. No change in the ATP content was found when histamine release was induced from cells with an intact energy metabolism. However, when the cells had been preincubated for 1 min. with antimycin A to inhibit oxidative production of ATP, histamine release was accompanied by a greater reduction (P < 0.005) in the ATP content than that observed in the control samples. In contrast, when corresponding experiments were performed with chlorpromazine or n-decylamine as releasing agent, the ATP content was not lower in the samples in which histamine release had been induced than in the controls, regardless of whether antimycin A was present or not. The results indicate that histamine release from rat mast cells induced by compound 48/80, but not by chlorpromazine or n-decylamine, is accompanied by an increased utilization of ATP in the cells.     

Essential role of ATP and possibility of activation of protein kinase C in Ca(2+)-dependent histamine release from permeabilized rat peritoneal mast cells.

To elucidate the role of ATP in histamine release, the present study was performed using beta-escin-permeabilized rat peritoneal mast cells. Ca(2+)-induced histamine release from permeabilized cells is totally dependent upon exogenous ATP in the medium. In the presence of Ca2+, ATP caused histamine release concentration-dependently at concentrations ranging from 0.01 to 5 mmol/l. The maximum release was achieved at 3 mmol/l of ATP in the medium. When the other adenosine nucleotides (AMP, ADP), or nonhydrolyzable ATP analogues (adenylylimidodiphosphate, beta, gamma-methylene ATP) were added in place to ATP, no histamine release took place. Other ribonucleoside triphosphates (GTP, ITP, UTP and CTP) had little effect at the same concentration range. When the ribonucleoside triphosphate content of mast cells was determined by means of HPLC, ITP and CTP were not detectable. A millimolar range of the ATP content was determined in mast cells, but the amounts of other ribonucleoside triphosphates (GTP and UTP) were remarkably lower than that of ATP. These results seem to indicate that the ATP molecule plays a crucial role in histamine release from rat mast cells in association with its concurrent hydrolysis. Furthermore, 12-O-tetradecanoylphorbol-13-acetate and 1-oleoyl-2-acetylglycerol enhanced histamine release elicited in the presence of Ca2+ (0.1 mumol/l) and ATP (3 mmol/l). Calphostin C, a potent inhibitor of protein kinase C, inhibited Ca2+/ATP-dependent histamine release by approximately 60%. At the same concentration, calphostin C inhibited by 95% protein kinase C activity in the crude extract obtained from rat mast cells. It was suggested that protein kinase C activation took place in the Ca2+/ATP-dependent histamine release from permeabilized rat mast cells.     

Inhibitory effect of a novel anticomplementary agent, K-76COONa, on the release of histamine induced by zymosan and compound 48/80

A novel sesquiterpene anticomplementary agent, K-76COONa, if locally applied, was revealed to have an activity to prevent histamine release from rat connective tissue mast cells not only in a zymosan-induced inflammation of the air pouch type (zymosan-air-pouch inflammation) but also in compound 48/80-induced air-pouch inflammation. Moreover, K-76COONa inhibited in vitro histamine release from rat peritoneal mast cells induced by compound 48/80.     

The actions of retinal and retinoic acid on histamine release from rat peritoneal mast cells

Histamine release from rat peritoneal mast cells induced by anti-IgE was potentiated by the retinoids: retinoic acid 2-10 microM and retinal 1-5 microM. Retinal also produced a concentration-dependent increase in anti-IgE-stimulated 45Ca uptake by these mast cells. A similar potentiating action of both retinoids was observed on histamine release induced by 12-O-tetradecanoylphorbol-13-acetate (TPA). For both anti-IgE- and TPA-induced histamine release, the potentiating effect of the two retinoids was only observed in the presence of extracellular calcium. In contrast, histamine release induced by compound 48/80 was inhibited by retinal 1-5 microM and by retinoic acid 10-50 microM and the inhibition was the same in the presence as in the absence of extracellular calcium 1 mM. Histamine release induced by calcium and the calcium ionophore A 23187 was inhibited by retinoid acid 2-10 microM and by retinal 10 microM. Inhibitions of compounds 48/80-induced histamine release by cromoglycate and by retinal were additive. It is concluded that while the actions of retinoids on rat peritoneal mast cells are consistent with the inhibition of protein kinase C, another action of these compounds, unrelated to this enzyme, may explain the data.     

Inhibitory effect of anti-allergic agent NCO-650 on histamine release induced by various secretagogues

Histamine release from rat peritoneal mast cells induced by antigen and anti-IgE was essentially complete within 2 min and 3 min, respectively, but that due to Concanavalin A (Con A) was complete only within 9 min. An anti-allergic agent NCO-650 [trans-4-Guanidinomethylcyclohexanecarboxylic acid p-tert-butylphenyl ester hydrochloride], which is a strong inhibitor of trypsin, dose-dependently inhibited anti-IgE-induced histamine release from rat peritoneal mast cells. Moreover, the rate and extent of histamine release from rat peritoneal mast cells induced by various histamine liberators such as antigen, concanavalin A, ionophore A 23187 and compound 48/80 are significantly diminished in samples incubated with NCO-650. The IC50 values of NCO-650 on histamine release induced by antigen, anti-IgE, Concanavalin A, A23187 and compound 48/80 were in the order of micromolar range, i.e. 1.9, 3.6, 4.6, 2.9 and 6.1 microM, respectively. On a molecular basis, NCO-650 is 1000-fold more potent than DSCG, an anti-allergic drug, in inhibiting the antigen-induced histamine release. The present results suggest that the effect of NCO-650 might be due to the inhibition of a common process underlying the release of histamine by various histamine liberators.     

Characterization of FPL-52694 [5-(2-hydroxypropoxyl)-8-propyl-4-oxo-4H-benzopyran-2-carboxylic acid Na] on histamine release from rat peritoneal mast cells induced by antigen, compound 48/80 and A 23187

We studied the in vitro effects of FPL-52694 [5-(2-hydroxypropoxyl)-8-propyl-4-oxo-4H-benzopyran-2-carboxylic acid Na] on histamine release from rat peritoneal mast cells. These cells exposed to ascaris antigen, compound 48/80 or the ionophore A 23187 concentration-dependently released histamine. About a 30-40% histamine release was obtained by 1 X 10(-4) g/ml of antigen, 1 X 10(-7) g/ml of compound 48/80 and A 23187. FPL-52694 (10(-9)-10(-4) g/ml) concentration-dependently inhibited the histamine release from mast cells in response to antigen (1 X 10(-4) g/ml) and compound 48/80 (1 X 10(-7) g/ml), but only slightly inhibited the histamine release induced by A 23187 (1 X 10(-7) g/ml). Similar results were obtained with disodium cromoglycate (DSCG), in the same dose ranges. However, the inhibitory activity of FPL-52694 on histamine release by antigen and compound 48/80 was approximately 10 times more potent than that of DSCG at certain concentrations. Tachyphylaxis was observed when these two agents were preincubated with mast cells for 10 min. These results show FPL-52694 to be a novel mast cell stabilizer.     

The protective effect of Tinospora cordifolia on various mast cell mediated allergic reactions

This study investigated the effect of an aqueous extract of Tinospora cordifolia (Willd.) Miers (Menispermaceae) stem on mast cell mediated allergic reactions in vivo and in vitro and studied its possible mechanism. T. cordifolia (125 to 1000?mg/kg) dose-dependently inhibited compound 48/80 induced lethality in rats, histamine induced paw edema in mice and histamine induced bronchial asthma in guinea pigs. T. cordifolia significantly (p?<?0.001) inhibited the cutaneous anaphylaxis reaction activated by histamine in a rat model and compound 48/80 induced ear swelling response in mice. T. cordifolia (2.5-160?μg/mL) also showed significant (p?<?0.001) inhibition of histamine induced contraction of guinea-pig ileum in vitro implying the H₁ antihistamine activity. T. cordifolia (0.01 to 10?mg/mL) significantly (p?<?0.001) inhibited the histamine release from rat peritoneal mast cells activated by compound 48/80. In addition, T. cordifolia (0.01 to 10?mg/mL) significantly (p?<?0.001) inhibited the secretion of tumor necrosis factor-α (TNF-α) in antidinitrophenyl (DNP) IgE-stimulated rat peritoneal mast cells. The level of cAMP in RPMC transiently and significantly increased compared with that of control cells when T. cordifolia was incubated with mast cells. T. cordifolia (0.01 to 10?mg/mL) showed concentration-dependent inhibition in compound 48/80 induced reactive oxygen species (ROS) generation. In addition, T. cordifolia decreased intracellular calcium levels of activated mast cells. These results show that T. cordifolia may be beneficial in the treatment of acute and chronic allergic disorders.     

Sodium-potassium ATPase inhibition potentiates compound 48/80-induced histamine secretion from mast cells.

The effect of ouabain on the histamine secretion induced by compound 48/80 has been studied using rat peritoneal mast cells. Ouabain did not modify histamine release in the presence of millimolar concentrations of extracellular calcium. However, when mast cells were previously washed with a calcium-free buffer, ouabain strongly potentiated histamine release elicited by compound 48/80. The full potentiation of mast cell secretion by ouabain required 30 min preincubation before adding compound 48/80. It was inhibited by lanthanum and EGTA. Potassium deprivation mimicked the effect of ouabain. A 30 min preincubation time without potassium was also required. Potassium concentrations below 2.7 mM increased the effect of ouabain whereas higher potassium concentrations reversed this effect. The potentiation of compound 48/80-induced histamine release by ouabain or potassium deprivation was not immediately reversed by washing away ouabain or by adding potassium, respectively. The data confirm that sodium-potassium ATPase is involved, through a calcium-dependent process, in the regulation of histamine release from mast cells.     

Histamine Release Induced by Compound 48/80 from Isolated Rat Mast Cells: Dependence on Endogenous ATP

Abstract: Antimycin A (0.2 μM) reduced the ATP content in isolated rat mast cells to 25–30 % of the original value. Pyruvate (4.9 mM) did not restore the ATP content in antimycin A-treated cells, indicating a complete block of oxidative ATP production. 82–97 % of the glucose which disappeared from suspensions of mast cells in the presence of antimycin A was recovered as lactate. Therefore, the rate of lactate accumulation in suspensions of antimycin A-treated cells was used as a measure of the cellular ATP production rate. Maximal accumulation occurred with 1.1 mM glucose. Incubation with glucose (0.51 mM) for 2.5 min. completely restored the ability of mast cells pretreated with antimycin A to release histamine when exposed to compound 48/80. Concomitantly, the ATP content in the cells was restored to a steady-state level of about 75 % of the original value. 0.29 mM glucose partially restored the histamine release as well as the ATP level whereas 0.13 mM glucose did not affect either of these parameters. The turnover time of ATP at steady-state was about 30 sec. with all three concentrations of glucose, which indicates that the rate of ATP utilization by the cells is directly proportional to the ATP content. The present study supports the view that histamine release induced by compound 48/80 is dependent on the ATP content in the mast cells at the time of exposure to compound 48/80.     

ANTIANAPHYLACTIC PROPERTIES OF EUGENOL

The effects of eugenol, a major component of clove, on anaphylaxis were evaluated in rats. Eugenol inhibited compound 48/80-induced systemic anaphylaxis 100% with a dose of 10 μg g⁻¹body weight (BW). While serum levels of histamine were markedly elevated after compound 48/80 injection in all groups of rats, rats injected with eugenol showed a significant reduction in serum histamine levels. Eugenol also inhibited passive cutaneous anaphylaxis activated by anti-dinitrophenyl (DNP) IgE. Eugenol dose-dependently inhibited histamine release from the rat peritoneal mast cells (RPMC) activated by compound 48/80 or anti-DNP IgE. The morphological examination clearly showed that eugenol prevented the anaphylactic degranulation of RPMC. Moreover, Eugenol (10 μg ml⁻¹) had a significant inhibitory effect on anti-DNP IgE-induced tumor necrosis factor-α production. These results suggest that eugenol has antianaphylactic properties by preventing mast cell degranulation     

Modulation of histamine release by rat peritoneal mast cells in a superfusion set-up.

A new method is presented for studying mediator release in isolated peritoneal cells of the rat. Using a superfusion technique, cells can be maintained in a continuously cleared medium. Cells were stimulated with antigen, compound 48/80 or A23187 to characterize this preparation. In addition, inhibitory effects of theophylline, isoprenaline and cromoglycate on compound 48/80-induced histamine release were studied. We conclude that superfusion is a valid alternative to study mediator release from isolated peritoneal cells.     

Inhibitory Action of Exogenous Adenosine-5′-triphosphate on Glycolysis in Isolated Rat Mast Cells: Significance for Histamine Release

Abstract: Histamine release and lactate content were concomitantly determined in samples of isolated rat mast cells. Histamine release induced by exogenous ATP or compound 48/80 was inhibited by antimycin A (0.2 μM). Glucose (0.60 mM) restored the release induced by compound 48/80 but not that induced by ATP. ATP but not compound 48/80 inhibited the accumulation of lactate in suspensions of mast cells containing glucose (0.60 mM). ATP induced inhibition of lactate accumulation and release of histamine within the same concentration range. However, the time courses for the two processes were different. Antimycin A (0.2 μM) enhanced the accumulation of lactate, an effect which was counteracted by ATP. 0.05 mM ATP or more reduced the lactate accumulation to the same values as those found in the absence of antimycin A. The inhibitory action of ATP on glycolysis may explain the observed inability of glycolytic substrates to restore the ATP-induced histamine release blocked by inhibitors of oxidative metabolism.     

Inhibition of mast cell histamine release by flavonoids and biflavonoids

The effect of 11 flavonoids and 4 biflavonoids on the release of histamine from peritoneal rat mast cells induced by compound 48/80 and calcium ionophore A23187 was studied. Dihydroflavonoids (flavanones) and (+)-catechin did not modify histamine release induced by both secretagogues. Flavone, apigenin and cromoglycate inhibited the secretion elicited by compound 48/80 but did not modify the A23187-induced secretion. The effect of kaempferol on the compound 48/80-induced histamine release was biphasic. Low doses (10 (-6) to 10 (-5)M) of the compound potentiated secretion whereas higher doses inhibited histamine secretion. Some of the drugs tested revealed a higher potency as referred to quercetin. Luteolin, a tetrahydroxyflavone and amentoflavone, a biapigenin, exhibited the highest inhibitory effects of mast cell histamine secretion.     

Anti-allergic action of buckwheat (Fagopyrum esculentum Moench) grain extract

The anti-allergic action of buckwheat grain extract (BGE) was investigated using rodent experimental models. The oral, intraperitoneal and intradermal administration of BGE significantly inhibited the compound 48/80-induced vascular permeability documented by Evans blue extravasation. In addition, BGE showed potent inhibitory effect on passive cutaneous anaphylaxis (PCA) activated by anti-dinitrophenyl (DNP) IgE when orally administered. In an in vitro study, BGE revealed to possess inhibitory potential on the compound 48/80-induced histamine release from rat peritoneal mast cells (RPMC). Moreover, BGE inhibited the IL-4 and TNF-alpha mRNA induction by PMA and A23187 in human leukemia mast cells, HMC-1. Taken together, these results suggest that anti-allergic action of BGE may be due to the inhibition of histamine release and cytokine gene expression in the mast cells.     

Mechanism of histamine release from rat isolated peritoneal mast cells by dextran: the role of immunoglobulin E

In vivo passive sensitization of rat peritoneal mast cells with Nippostrongylus braziliensis antiserum or rat monoclonal myeloma IgE greatly enhanced histamine release in vitro by dextran or anti IgE, but did not alter release by compound 48/80 or A23187. Conversely, removal of IgE from the cells by acid pH abolished histamine release by dextran and anti IgE but did not impair release by compound 48/80. Whereas, histamine release from cells isolated from rats genetically resistant to dextran (NR rats) by anti IgE was potentiated by passive sensitization, dextran was unable to stimulate secretion from control or sensitized NR cells. The results suggest that dextran releases histamine by interaction with cell-fixed IgE and that the NR mast cell membrane lacks the ability to interpret this stimulus.     

Investigation into the mast cell stabilizing activity of nature-identical and synthetic indanones

As part of an ongoing search for novel molecules with therapeutic potential we examined the mediator release inhibition activity of a number of indanones and their derivatives. The aldol condensation product 18 was approximately twice as potent as disodium cromoglycate as an inhibitor of compound 48/80-stimulated histamine release from rat peritoneal mast cells. The activity of this class of dimeric indanone compound is significantly higher than controls and may represent a new class of mast cell stabilizing agents. Compound 18 has been selected for further biological evaluation of its mast cell stabilization profile.     

Calcium dependency of inhibition by arachidonic acid of compound 48/80-induced histamine release from mast cells

Compound 48/80 ( compd 48/80)-induced histamine secretion from rat mast cells was inhibited almost completely by pretreatment of the cells at 37 degrees with 25 microM arachidonic acid in the presence of 1.8 mM Ca2+. As the Ca2+ concentration was reduced below 1.8 mM, 25 microM arachidonic acid became less inhibitory and, then, progressively more stimulatory for histamine release with or without compd 48/80. No additive effect on histamine release was obtained by combining compd 48/80 and arachidonic acid. Pretreatment of mast cells with lidocaine, an inhibitor of Ca2+ binding to phospholipid, or with nordihydroguaiaretic acid, an inhibitor of Ca2+ flux and lipoxygenase, stimulated arachidonic acid-induced histamine release. Arachidonic acid also inhibited a compd 48/80-induced spike increment of intracellular 45Ca2+ uptake and a decrease of total 45Ca2+ uptake by 45Ca2+-preloaded mast cells. Arachidonic acid and Ca2+ also suppressed melittin-induced histamine release and compd 48/80-induced release of radioactivity from mast cells preloaded with [3H]arachidonic acid. These results suggest that exogenous arachidonic acid or its metabolite(s) may interact with membrane-associated Ca2+, disturbing Ca2+ availability for the trigger mechanism of compd 48/80-induced histamine release or inhibiting the subsequent metabolism of arachidonic acid via the lipoxygenase pathway to form active metabolites involved in the histamine liberating mechanism.