Stem cell factor has histamine releasing activity in rat connective tissue-type mast cells.

Stem cell factor (SCF) was documented to be involved in the growth of mast cells controlled by fibroblasts. We tested the effect of recombinant rat SCF on degranulation from rat peritoneal mast cells (connective tissue-type mast cells: CTMC). SCF induced histamine release (approximately 20% of total histamine content) in a dose-dependent fashion. The release response was relatively rapid and reached a maximum within 5 min. The release showed total dependence on the presence of extracellular phosphatidylserine (PTS). These results reveal that SCF has histamine releasing activity in CTMC.     

SG-HQ2 inhibits mast cell-mediated allergic inflammation through suppression of histamine release and pro-inflammatory cytokines

In this study, we investigated the effect of 3,4,5-trihydroxy-N-(8-hydroxyquinolin-2-yl)benzamide) (SG-HQ2), a synthetic analogue of gallic acid (3,4,5-trihydroxybenzoic acid), on the mast cell-mediated allergic inflammation and the possible mechanism of action. Mast cells play major roles in immunoglobulin E-mediated allergic responses by the release of histamine, lipid-derived mediators, and pro-inflammatory cytokines. We previously reported the potential effects of gallic acid using allergic inflammation models. For incremental research, we synthesized the SG-HQ2 by the modification of functional groups from gallic acid. SG-HQ2 attenuated histamine release by the reduction of intracellular calcium in human mast cells and primary peritoneal mast cells. The inhibitory efficacy of SG-HQ2 was similar with gallic acid. Enhanced expression of pro-inflammatory cytokines such as tumor necrosis factor-α, interleukin-1β, interleukin-4, and interleukin-6 in activated mast cells was significantly diminished by SG-HQ2 100 times lower concentration of gallic acid. This inhibitory effect was mediated by the reduction of nuclear factor-κB. In animal models, SG-HQ2 inhibited compound 48/80-induced serum histamine release and immunoglobulin E-mediated local allergic reaction, passive cutaneous anaphylaxis. Our results indicate that SG-HQ2, an analogue of gallic acid, might be a possible therapeutic candidate for mast cell-mediated allergic inflammatory diseases through suppression of histamine release and pro-inflammatory cytokines.     

Dual effects of protoporphyrin and long wave ultraviolet light on histamine release from rat peritoneal and cutaneous mast cells.

In this study we investigated the effects of long wave ultraviolet light (UVA) and various doses of protoporphyrin (PP) on the release of histamine from rat peritoneal and cutaneous mast cells. We also correlated these results with morphologic characteristics and viability of the cells. PP at a dose of 30 ng/ml plus UVA-induced negligible histamine release from rat peritoneal mast cells (RPMC), but was able to suppress the ability of the cells to release histamine in response to subsequent exposure to the calcium ionophore A23187, compound 48/80, or the combination of Ag and IgE. This functional change was associated with an increase in cell size, and cell lysis that gradually occurred during 24 h in culture. PP at a dose of 3 ng/ml plus UVA also significantly inhibited secretogogue-induced histamine release from rat peritoneal mast cells, but this dose was not associated with significant changes in morphology or viability. These various effects of PP plus UVA were also observed with mast cell preparations obtained by the enzymatic dispersion of rat skin. The suppression of secretogogue-induced histamine release in rat peritoneal mast cells treated with PP (3 ng/ml) and UVA could not be reversed by culturing the cells in the dark for 24 h in the absence of PP. Unlike the direct cytotoxic histamine releasing action of high doses of PP plus UVA, the suppressive effect of low PP doses could not be inhibited by catalase, but could be reduced by the absence of calcium. Our results indicate that PP plus UVA has dual effects on mast cells, apparently involving distinct mechanisms. This implies the possibility that PP and UVA at appropriate doses could be used in photochemotherapy of mast cell-mediated skin diseases.     

Characterization of primate bronchoalveolar mast cells. II. Inhibition of histamine, LTC4, and PGD2 release from primate bronchoalveolar mast cells and a comparison with rat peritoneal mast cells

As described in the preceding companion paper, bronchoalveolar lavage (BAL) of the primate Macaca arctoides infected with the nematode Ascaris suum yields a population of cells containing a high proportion of mast cells (21%). Nedocromil sodium, a new drug undergoing clinical evaluation for the treatment of reversible obstructive airways disease, inhibited the release of histamine, LTC4, and PGD2 from these cells challenged with antigen (with IC30 values of 2.1 X 10(-6) M, 2.3 X 10(-6) M, and 1.9 X 10(-6) M, respectively) and with anti-human IgE (IC30 values of 4.7 X 10(-6) M, 1.3 X 10(-6) M, and 1.3 X 10(-6) M, respectively). Cromolyn sodium was essentially inactive. Histamine release from rat peritoneal mast cells induced by anti-rat IgE was, however, inhibited by both nedocromil sodium and cromolyn sodium with IC30 values of 1.1 X 10(-6) M and 5.5 X 10(-7) M, respectively. Both compounds induce phosphorylation of a 78,000 m.w. protein in the rat peritoneal mast cell in the absence of any stimulus at the same concentrations as those required to inhibit histamine release stimulated by anti-IgE. This event may be part of a feedback mechanism to limit degranulation. Nedocromil sodium and cromolyn sodium were equipotent in their ability to inhibit anti-IgE-induced histamine release from rat peritoneal mast cells, but differed markedly in their ability to inhibit histamine release from macaque BAL cells.     

Stimulation of histamine release and arachidonic acid metabolism in rat peritoneal mast cells by thapsigargin, a non-TPA-type tumor promoter

Thapsigargin, a non-TPA-type tumor promoter, releases histamine and stimulates arachidonic acid metabolism in rat peritoneal mast cells. In order to clarify the relationship between the histamine-releasing activity and the arachidonic acid metabolism-stimulating activity of thapsigargin in mast cells, the effects of cyclooxygenase inhibitors, indomethacin and ibuprofen, a lipoxygenase inhibitor, AA861, and dual inhibitors for cyclooxygenase and lipoxygenase, nordihydroguaiaretic acid and BW755C, on histamine release and arachidonic acid metabolism were examined. High-performance liquid chromatography analysis revealed that the peritoneal mast cells preferentially produce prostaglandin D2 by thapsigargin treatment. These inhibitors suppressed thapsigargin-induced prostaglandin D2 production in a dose-dependent manner, but failed to inhibit histamine release, suggesting that the mechanisms for stimulation of histamine release by thapsigargin is not dependent on increased arachidonic acid metabolism. Time-course experiments of histamine release and the release of radioactivity from [3H]arachidonic acid-labeled mast cells also provide evidence for a difference in mechanism.     

Acetaldehyde induces histamine release from purified rat peritoneal mast cells

Acetaldehyde is a widely distributed compound in the human environment and it is also formed in the human body from various endogenous and exogenous sources, exogenous ethanol being the most important one. Many alcohol-associated hypersensitivity reactions, e.g. Oriental flushing reaction, appear to be attributable to acetaldehyde rather than to ethanol itself. The pathogenetic mechanism behind such hypersensitivity reactions has been suggested to be histamine release from mast cells or blood basophils. However, the direct effects of acetaldehyde on mast cells, the main source of histamine in a mammalian body, have not been studied. The aim of the present study was, thus, to evaluate whether physiological concentrations of acetaldehyde could release histamine from purified rat peritoneal mast cells. The effects of ethanol were studied similarly. The results show that acetaldehyde, already at a concentration of 50 microM, significantly increases the release of histamine from mast cells. Ethanol has a similar effect but only at molar concentrations. These results indicate that acetaldehyde may contribute to the development of various hypersensitivity reactions by directly increasing histamine release from mast cells.     

Effect of NCDC, a protease inhibitor, on histamine release from rat peritoneal mast cells induced by anti-IgE.

NCDC dose-dependently inhibited histamine release from rat peritoneal mast cells induced by anti-IgE. Moreover, NCDC inhibited Ca(2+)-mobilization from intracellular Ca(2+)-stores as well as histamine release in mast cells activated by anti IgE, the effect on both of these phenomena being closely correlated. Anti-IgE induced a rapid increase in IP3 production from phosphoinositides in mast cells, with its production in 15 sec, followed to baseline levels within 1 min. Anti-IgE stimulated PLC activity on mast cells membrane preparation. NCDC dose-dependently inhibited the generation of IP3. These results suggest that the inhibitory effect of NCDC on the release of histamine induced by anti-IgE is due to, in part at least, the inhibition of PI-specific PLC and that the inhibitory effects of NCDC are involved in intracellular calcium store.     

Studies in experimental animal models of the effect of ultraviolet radiation (UVC) on blood and isolated cell populations

The cellular and molecular basis of the therapeutically used effect of reinjected ultraviolet ( UVC ) irradiated blood is unknown. First approaches to that problem were made in this study by aid of model experiments. Neither the spontaneous degranulation nor the antigen-induced histamine release from rat connective tissue mast cells (in vivo) was influenced by the injection (i.v.) of ultraviolet irradiated blood or blood lymphocytes. By comparison of the effect of ultraviolet light on blood lymphocytes (number of dead cells, strength of chemoluminescence) after irradiation of the isolated cells and the unfractionated blood respectively, we could show that the strong light absorption within the blood sample prevents damage or functional alterations of the blood lymphocytes. The compound 48/80-induced histamine release from rat peritoneal mast cells can be completely inhibited by ultraviolet irradiation (0.6 mJ/cm2) without increasing the spontaneous histamine release.     

Role of TGF-beta 1 on the IgE-dependent anaphylaxis reaction

TGF-beta1 is a member of a family of polypeptide factors that control proliferation, differentiation, chemotaxis, and other functions in many cell types. TGF-beta1 has been shown to inhibit many immunologic functions. However, here we report that TGF-beta1 has an important role in the elicitation of IgE-dependent allergic reactions. The synthetic antisense TGF-beta1 oligonucleotides dose-dependently inhibit passive cutaneous anaphylaxis (PCA) reaction and histamine release from the mast cells activated by anti-DNP IgE in rats. The level of cAMP in mast cells, when antisense TGF-beta1 oligonucleotides was added, significantly increased approximately 7-fold compared with that of basal cells. The antisense TGF-beta1 oligonucleotides also had a significant inhibitory effect on anti-DNP IgE-induced TNF-alpha release from mast cells. In situ hybridization analysis showed that the PCA reaction sites treated with antisense TGF-beta1 oligonucleotides exhibited no detectable levels of TGF-beta1 and L-histidine decarboxylase mRNA after anti-DNP IgE stimulation, whereas the PCA reaction sites treated with sense TGF-beta1 oligonucleotides possessed significant amounts of their mRNA. Additionally, neutralizing Ab to TGF-beta1 blocked the PCA reaction significantly, but its Ab did not inhibit peritoneal mast cell-released histamine upon treatment with anti-DNP IgE. Our results suggest that TGF-beta1 is critical to the development of IgE-dependent anaphylaxis reactions.     

Magainin-2 releases histamine from rat mast cells.

The magainins are basic 23 amino acid peptides with a broad spectrum of antimicrobial activity. Their bactericidal effect has been attributed to their capacity to interact with lipid bilayer membranes. We observed histamine release by magainin-2 amide from rat peritoneal mast cells (ED50 = 13 micrograms/ml) but not from human basophils. This histamine-releasing reaction from peritoneal mast cells was due to a secretory rather than cytolytic effect, i.e., release occurred without concomitant liberation of lactic dehydrogenase. Furthermore, the pretreatment of mast cells with magainin-2 amide did not desensitize cells against subsequent challenge with other secretagogues. Maximum histamine release occurred in less than a minute at 25 and 37 degrees C. The addition of Ca2+ was not required for histamine release, although release was enhanced by the addition of 0.3-1 mM Ca2+. The addition of 3 mM Ca2+ or Mg2+ was markedly inhibitory. The presence of Na+ or Cl- ions in the medium was not required for release. Therefore, histamine release is not due to the formation of anion-selective channels in the membrane of mast cells. The results indicated that the characteristics of histamine secretion induced by magainin-2 amide were unlike IgE-mediated release but were similar to the mechanism of release attributed to some other basic peptides and to compound 48/80.     

INHIBITION OF RAT PERITONEAL MAST CELL EXOCYTOSIS BY FRUSEMIDE:: A COMPARISON WITH DISODIUM CROMOGLYCATE

Among the loop diuretics, frusemide possesses unique airway protective activities which may be due to the inhibition of airway inflammatory cells such as the mast cell. We previously reported that frusemide and disodium cromoglycate (DSCG) demonstrated a similar profile of inhibitory activities against histamine release from rat peritoneal mast cells activated by various stimuli which increased intracellular calcium via different routes. Furthermore, the inhibitory activities of both compounds demonstrated marked tachyphylaxis and we hence postulated that frusemide and DSCG might share the same mechanism of action which involves the prevention of extracellular calcium influx into the mast cell cytoplasm. The present study confirmed the postulation by (a) demonstrating that cross-tachyphylaxis exists between the two compounds and (b) extending the observations on histamine release to the influx of extracellular calcium (⁴⁵Ca) into rat peritoneal mast cells.© 1997 Elsevier Science Inc.     

High rate of IgE-mediated histamine release from rat mesenteric mast cells.

IgE-dependent histamine release from rat mesenteric mast cells was investigated. Excised mesenterium was cut into pieces and incubated with IgE overnight at 4 degrees C for sensitization. Over 10 pieces of mesenterium specimen could be prepared from a rat. Antigen-induced histamine release from mesenterium specimen was initiated rapidly and reached a plateau in 5 min. In an optimal condition, over 50% of total histamine was released. In contrast, unpurified and purified peritoneal mast cells released only 22.5% and 5.3% of total histamine, respectively, upon IgE stimulation. Tranilast, a mast cell stabilizer, inhibited the histamine release from mesenteric mast cells significantly. The mesenterium might be useful material for studying tissue-associated mast cell activation.     

Effect of disodium cromoglycate on mast cell-mediated immediate-type allergic reactions

We investigated the effect of disodium cromoglycate (DSCG) on mast cell-mediated immediate-type hypersensitivity. DSCG inhibited systemic allergic reaction induced by compound 48/80 dose-dependently. Passive cutaneous anaphylaxis was inhibited by 71.6% by oral administration of DSCG (1 g/kg). When DSCG was pretreated at concentration rang from 0.01-1000 g/kg, the serum histamine levels were reduced in a dose dependent manner. DSCG also significantly inhibited histamine release from rat peritoneal mast cell (RPMC) by compound 48/80. We confirmed that DSCG inhibited compound 48/80-induced degranulation of RPMC by alcian blue/nuclear fast red staining. In addition, DSCG showed a significant inhibitory effect on anti-dinitrophenyl IgE-mediated tumor necrosis factor-alpha production. These results indicate that DSCG inhibits mast cell-mediated immediate-type allergic reaction.     

Morphological and functional characteristics of peritoneal mast cells from young rats

To study why neonatal and young rats are resistant to the effects of some secretagogues, such as compound 48/80 and 2.5-S nerve growth factor, we examined peritoneal mast cells from 14–15-day-old rats (young rats) and compared them to peritoneal mast cells from adults. Peritoneal mast cells from young rats contain approximately one-tenth of the amount of histamine observed in adult peritoneal mast cells. However, both cell populations contained similar low levels of the mucosal mast cell-associated protease rat mast cell protease II. Histochemical analysis of peritoneal mast cells from young rats using safranin O and berberine sulphate suggested that only a portion of the granules of these cells contained heparin. At an ultrastructural level the young rat peritoneal mast cell contains relatively few granules. The majority of mast cells from young rats have a bilobed or indented nucleus which is only rarely observed in adult cells. Functionally, the young rat peritoneal mast cell demonstrates a significantly reduced histamine release in response to the connective tissue mast cellspecific secretagogues compound 48/80 and 2.5-S nerve growth factor. In contrast, the percent histamine release in response to the neurotransmitter substance P, which degranulates both connective tissue mast cells and intestinal mucosal mast cells, was similar in the adult cells and the young rat cells. This study demonstrates substantial differences between the young rat and adult peritoneal mast cells which may explain the ability of very young animals to withstand large doses of certain secretagogues.     

Catestatin (CgA344-364) stimulates rat mast cell release of histamine in a manner comparable to mastoparan and other cationic charged neuropeptides

Catestatin (bovine CgA(344-364)) is a cationic peptide, which besides reducing catecholamine secretion from chromaffin cells in vitro also acts a potent vasodilator in the rat in vivo. The alleged histamine releasing effect of catestatin was tested in vitro in rat mast cells. The most active domain of catestatin (bovine CgA(344-358): RSMRLSFRARGYGFR) caused concentration-dependent (0.01-5 microM) release of histamine from peritoneal and pleural mast cells. The potency and efficacy of catestatin was higher than for the wasp venom peptide, mastoparan. Only in the pleural cells was neurotensin (NT) more potent than catestatin, mastoparan and substance P (SP), consistent with a receptor-mediated histamine release by neurotensin. Amongst these cationic peptides, substance P was least effective. The acidic CgA peptide (WE-14, bovine CgA (324-337)) neither stimulated nor modulated histamine release by the cationic peptides. The catestatin and neurotensin evoked histamine release were suppressed by pertussis toxin (PTX), suggesting involvement of a G(i) subunit. Electron micrographs of rat pleural mast cells responding to catestatin revealed a concentration-dependent discharge of granular material. We propose that catestatin activates histamine release from rat mast cells by a mechanism analogous to that already established for mastoparan and other amphiphilic cationic neuropeptides (the peptidergic pathway) and distinct from the mechanism of inhibition of catecholamine release from chromaffin cells.     

Glucose inhibits insulin release when not promoting the entry of calcium into the beta-cells

The effect of antigen on the metabolism of polyphosphoinositides was investigated in sensitized rat peritoneal mast cells. Addition of antigen to rat peritoneal mast cells prelabelled with [3H]arachidonic acid resulted in a very rapid decrease in the level of phosphatidylinositol 4-phosphate (DPI) within 5 sec, which appeared to precede the breakdown of phosphatidylinositol (PI), while there was no significant decline of PI 4,5-bisphosphate (TPI). The reduced levels of these phosphoinositides returned almost to control or even slightly higher values by 300 sec in parallel with the antigen-stimulated [32P]phosphate incorporation into these lipids. This early and transient disappearance in DPI prior to that in PI was also observed in [3H]glycerol-prelabelled cells. These data suggest that DPI degradation upon stimulation by antigen in mast cells may be an initial step in the histamine release process.     

Differentiation of the mechanisms inducing segmentation and asymetry of chromatids after treatment with 5-bromodeoxyuridine]

Rabbit anti-rat mast cell antibody is capable of liberating histamine from rat peritoneal mast cells in the presence of complement. The cytotoxicity of this complement-mediated histamine release mechanism is attested by a substantial reduction of cell ATP, release of ⁵¹Cr and ⁸⁶Rb and lytic ultrastructural changes. Inhibition of complement-dependent cytotoxic histamine release can be achieved by depressing mast cell ATP with 2,4-dinitrophenol (1 mM), antimycin A (0.2 μM) or potassium cyanide (1 mM). Restoration of cell ATP is accompanied by reversal of the inhibition of the cytotoxic histamine release. Ultrastructural analysis and ⁵¹Cr release studies reveal that in mast cells depleted of ATP, cytolysis occurs but perigranule membranes remain intact, thus preventing histamine release.     

Depletion of mast cell ATP inhibits complement-dependent cytotoxic histamine release

Rabbit anti-rat mast cell antibody is capable of liberating histamine from rat peritoneal mast cells in the presence of complement. The cytotoxicity of this complement-mediated histamine release mechanism is attested by a substantial reduction of cell ATP, release of ⁵¹Cr and ⁸⁶Rb and lytic ultrastructural changes. Inhibition of complement-dependent cytotoxic histamine release can be achieved by depressing mast cell ATP with 2,4-dinitrophenol (1 mM), antimycin A (0.2 μM) or potassium cyanide (1 mM). Restoration of cell ATP is accompanied by reversal of the inhibition of the cytotoxic histamine release. Ultrastructural analysis and ⁵¹Cr release studies reveal that in mast cells depleted of ATP, cytolysis occurs but perigranule membranes remain intact, thus preventing histamine release.     

Histamine release induced by dendroaspis natriuretic peptide from rat mast cells

Dendroaspis natriuretic peptide (DNP), recently isolated from the venom of the green Mamba snake Dendroaspis angusticeps, is a 38 amino acid peptide containing a 17 amino acid disulfide ring structure similar to that of the natriuretic peptide family. The natriuretic peptide family is known to induce histamine release from human and rat mast cells, but there are no published data concerning the effects of DNP on histamine release from mast cells. The purpose of this study is to investigate whether DNP induces the histamine release from rat peritoneal mast cells (RMPCs) and to determine the mechanism of DNP-induced histamine release from RPMCs. After treatment of RPMC with DNP, mast cell degranulation was observed, and calcium uptake and histamine release were measured. DNP released the histamine, induced the mast cell degranulation, and increased the calcium uptake of RPMCs, in a dose-dependent manner. The results indicate that DNP can increase Ca-uptake and induce histamine release.