Effects of histamine, of histidine and of anti-histaminic agents on the release of glucagon and insulin from the rat pancreas.

We have studied the effect of histamine (HA) and histidine (HIS) on the release of immunoreactive glucagon (IRG) and insulin (IRI) by isolated rat islets and pieces of pancreas. In isolated islets, HA and HIS stimulated IRG release at a glucose concentration of 3.0 mg/ml and IRI release at a glucose concentration of 0.5 mg/ml. In pieces of pancreas incubated in the presence of glucose (3.0 mg/ml), HA at a 2mM concentration stimulated IRG release and had no effect on the release of IRI; however, when the concentration of HA was doubled (4 mM), an inhibition of IRI release could also be demonstrated. HIS was ineffective. Perphenazine and dexchlorpheniramine, two anti-histaminic agents, inhibited IRG and stimulated IRI release. These results indicate that histamine, whether endogenous or exogenous, directly stimulated IRG and inhibits IRI release and suggest that some of the in vivo effects of histamine, such as hyperglycemia and lipid mobilization, may be mediated, at least in part, by these endocrinologic effects.     

A novel dioxygenation product of arachidonic acid possesses potent chemotactic activity for human polymorphonuclear leukocytes

We have found that a novel dioxygenation product of arachidonic acid, 8(S),15(S)-dihydroxy-5,11-cis-9,13-trans-eicosatetraenoic acid (8,15-diHETE), possesses chemotactic activity for human polymorphonuclear leukocytes comparable to that of leukotriene B4. Authentic 8,15-diHETE, identified by gas chromatography-mass spectrometry, was prepared by treating arachidonic acid with soybean lipoxygenase and was purified by reverse-phase high performance liquid chromatography. Using a "leading front" assay, 8,15-diHETE exhibited significant chemotactic activity at a concentration of 5.0 ng/ml. Maximum chemotactic activity was observed at a concentration of 30 ng/ml. The 8,15-diHETE generated by mixed human leukocytes after stimulation with arachidonic acid and the calcium ionophore, A23187, exhibited quantitatively similar chemotactic activity. Two synthetic all-trans conjugated isomers of 8,15-diHETE, however, were not chemotactic at concentrations up to 500 ng/ml. In contrast to its potent chemotactic activity, 8,15-diHETE (at concentrations up to 10 micrograms/ml) was relatively inactive with respect to its ability to provoke either degranulation or generation of superoxide anion radicals by cytochalasin B-treated leukocytes. Both leukotriene B4 and 8,15-diHETE may be important mediators of inflammation.     

Allergen induced histamine release and immunoreactive-leukotriene C4 generation from leukocytes in mite sensitive asthmatic patients

Leukocytes from mite sensitive asthmatic patient were challenged with the allergen and the supernatant was assayed for histamine and immunoreactive-leukotriene C4 (i-LTC4). The release of histamine was quantitated by an automated fluorometric technique and i-LTC4 was determined using a commercial radioimmunoassay kit. The results of analysis of the supernatant by high speed liquid chromatography, together with observations of modulation of the formation by agents, indicated that i-LTC4 consisted of LTC4 with a little amount of LTD4. i-LTC4 was generated as a result of basophil activation but not derived from the other cells such as monocytes and eosinophils. Allergen induced a concentration-dependent release of histamine and i-LTC4 and the maximal release of histamine and i-LTC4 occurred at the same dose of the allergen. At optimal concentration of the allergen, basophils produced 20.4 +/- 17.9 ng of i-LTC4/10(6)-cells (mean +/- S.D., n = 39) and histamine release was 55.6 +/- 20.1% of total histamine. There was a significant correlation in the capacity of leukocytes to release histamine and i-LTC4 (r = 0.47, p less than 0.01). We found a correlation between maximal histamine release or cell sensitivity, allergen concentration for 50% histamine release, and a ratio of specific IgE to mite to total IgE in the serum, but the amount of i-LTC4 failed to correlate significantly with the ratio. The releasability and the cell sensitivity of asthmatic patients' cells to the allergen for histamine release paralleled the severity to symptoms, but this correlation was not significant in i-LTC4 generation.     

The human recombinant c-kit receptor ligand, rhSCF, induces mediator release from human cutaneous mast cells and enhances IgE-dependent mediator release from both skin mast cells and peripheral blood basophils.

The gene product of the steel locus of the mouse represents a growth factor for murine mast cells and a ligand for the c-kit proto-oncogene receptor, a member of the tyrosine kinase receptor class of oncogenes (for review, see O. N. Witte. 1990. Cell 63:5). We have studied the effect of the human recombinant c-kit receptor ligand stem cell factor (rhSCF) on the release of inflammatory mediators from human skin mast cells and peripheral blood basophils and compared its activity to that of rhIL-3, rhSCF (1 ng/ml to 1 microgram/ml) activated the release of histamine and PGD2 from mast cells isolated from human skin. Analysis by digital video microscopy indicated that purified human skin mast cells (84 +/- 5% pure) responded to rhSCF (0.1 to 1 microgram/ml) challenge with a rapid, sustained rise in intracellular Ca2+ levels that was accompanied by secretion of histamine. A brief preincubation (10 min) of mast cells with rhSCF (0.1 pg/ml to 1 ng/ml) significantly enhanced (100 +/- 35%) the release of histamine induced by anti-IgE (3 micrograms/ml), but was much less effective on IgE-mediated release of PGD2. In contrast, a short term incubation with rhSCF did not potentiate the secretion of histamine activated by substance P (5 microM). A 24-h incubation of mast cells with rhSCF did not affect the release of mediators induced by anti-IgE (3 micrograms/ml), probably due to receptor desensitization, rhSCF (1 ng/ml to 3 micrograms/ml) neither caused release of histamine or leukotriene C4 (LTC4) release from leukocytes of 14 donors, nor induced a rise in intracellular Ca2+ levels in purified (greater than 70%) basophils. Brief preincubation (10 min) of leukocytes with rhSCF (1 ng/ml to 3 micrograms/ml) caused an enhancement (69 +/- 11%) of anti-IgE-induced release of histamine that was significant at concentrations as low as 3 ng/ml (p less than 0.05), whereas it appeared less effective in potentiating IgE-mediated LTC4 release. In contrast, a prolonged incubation (24 h) with rhSCF (0.1 pg/ml to 100 ng/ml) did not enhance the release of histamine or LTC4 induced by anti-IgE (0.1 microgram/ml), whereas rhIL-3 (3 ng/ml) significantly potentiated the release of both mediators.(ABSTRACT TRUNCATED AT 400 WORDS)     

Measurement of plasma histamine by stable isotope dilution gas chromatography-mass spectrometry: methodology and normal values

A new method for the determination of histamine by stable isotope dilution mass fragmentography is described. The method is specific, sensitive, and accurate, resulting in a within-day coefficient of variation of 4.1% and a day-to-day variation of 7.9%. It was shown that the first blood sample after a venipuncture can contain an artificially elevated plasma histamine concentration. Platelets contain about 7 pmol histamine/10(9) cells. Serum histamine was elevated about four times in comparison with plasma histamine. This phenomenon was mainly ascribed to degranulation of basophilic leukocytes by complement activation during blood clotting. Normal values for plasma histamine were (n = 25) 2.07 +/- 0.75 nmol/liter (mean +/- 1 SD), which is one of the lowest values reported up to now.     

Concanavalin A-induced histamine release from normal rat mast cells.

Concanavalin A- (con A) induced release of histamine from normal rat mast cells was studied. In the presence of phosphatidylserine (PS) con A induced a concentration and temperature-dependent, noncytotoxic histamine release at con A concentrations ranging from 0.1 to 100 mug/ml. The optimal con A concentration, 100 mug/ml, caused a 27.3% (+/- 2.7 S.E.M.) net histamine release. Release began approximately 30 sec after addition of con A and was complete within 45 min. In the absence of PS, no net con A-induced release occurred. The effect of PS was concentration dependent from 1 to 100 mgg/ml. PS alone, however, did not cause histamine release. Binding studies indicated that mast cells bound up to 16 X 10(6) con A molecules per cell without histamine release. Upon removal of unbound con A and the addition of PS, normal histamine release occurred. Alpha-Methyl-D-mannose (50 mM) prevented both con A binding and histamine release and if added after Con A, caused a rapid cessation of histamine release and a reversal of con A binding. This study indicates several important advantages of the con A-induced histamine release system. Binding of con A to mast cells can be dissociated from histamine release by omitting PS from the medium. Release can then be induced by the addition of PS. Alpha-Methyl-D-mannose can be used to terminate rapidly the ongoing release reaction at any phase of the interaction. This system is potentially very useful for investigation of metabolic events during histamine release.     

Histamine release from human leukocytes after treatment with 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine (platelet activating factor) and its structural analogs

The influence of 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine, a platelet activating factor (PAF), and its structural analogs--1-acyl-2-acetyl-sn-glycero-3-phosphocholine and 1-(1'-alkenyl)-glycero-3-phosphocholine--on the histamine release from human leukocytes of healthy and allergic individuals was investigated. It was found that within the concentration range of 10(-10) to 10(-7) M PAF and its analogs induce a moderate histamine release from the leukocytes. However, at higher concentrations (greater than 10(-7) M) PAF induces an enhanced release of histamine from the leukocytes of allergic patients as compared to healthy individuals. PAF and its analogs significantly potentiate the allergens-induced release of histamine from the leukocytes of allergic patients. It was assumed that PAF induces the expression or demasking of additional numbers of IgE receptors on the surface of basophils, which leads tot he stimulation of histamine release from the leukocytes in the presence of allergens.     

Monoclonal antibodies to the leukocyte common antigen (CD45) inhibit IgE-mediated histamine release from human basophils.

mAb were selected that inhibited IgE-mediated histamine release from human basophils. The two mAb, HB 9AB6 and HB 10AB2, are of the IgG1 subclass and have a 50% inhibitory concentration of 0.16 to 1.1 micrograms/ml. The mAb required several hours of incubation with the basophils at 37 degrees C to induce maximum inhibition. Neither mAb directly released histamine from human basophils nor did they inhibit release induced by formylmethionine tripeptide, calcium ionophore A23187, or PMA. There was little inhibition of IgE-mediated release when the cells were preincubated with the mAb at 4 degrees C. By FACS analysis the 2 mAb bound to all peripheral blood leukocytes and immunoprecipitated a approximately 200-kDa protein from peripheral blood leukocytes and several cell lines of human origin. In binding studies and by sequential immunoprecipitation the 2 mAb and a known anti-CD45 mAb bound to the same protein. However, the mAb recognized different epitopes. Therefore, mAb to the CD45 surface Ag, a membrane protein tyrosine phosphatase, inhibits IgE-receptor mediated histamine release from human basophils. The data suggest a link between protein tyrosine phosphorylation and high affinity IgE receptor-mediated signal transduction in human basophils.     

Questionable role of leukotriene B4 in monosodium urate (MSU)-induced synovitis in the dog

Monosodium urate (MSU)-induced synovitis in the dog's stifle (knee joint) is similar to an acute gouty attack in man in which a loss of function of the joint correlates with massive influx of neutrophils and the release of an assortment of inflammatory mediators (e.g. histamine, bradykinin, lysosomal enzymes, complement and eicosanoids) into the synovial space. We found in the urate-induced inflammatory exudates 3 hr post MSU the following: 88 million leukocytes/ml (approximately 95% neutrophils) and eicosanoid concentrations of LTB4, LTC4, and PGE2 of less than 0.1, 1.4 and 20 ng/ml, respectively. Isotonic saline injected knee joints at 3 hr contained 5 million leukocytes/ml (approximately 95% neutrophils) and concentrations of LTB4, LTC4, and PGE2 of less than 0.1, 0.7 and 0.2 ng/ml, respectively. Intrasynovial injections of 1 microgram LTB4, 10 micrograms PGE2 or the combination of LTB4 and PGE2 produced no reduction of paw pressure for up to 3 hr. Leukocyte concentrations measured at 3 hr in joints injected with these arachidonic acids metabolites were similar to saline controls. These results question the role of LTB4 as a chemotactic and inflammatory mediator in urate-induced synovitis in the dog but confirm the importance of PGE2 and possibly LTC4 in this model.     

Anti-human IgG causes basophil histamine release by acting on IgG-IgE complexes bound to IgE receptors.

We have reexamined the ability of anti-human IgG antibodies to induce histamine release from human basophils. A panel of purified murine mAbs with International Union of Immunological Societies-documented specificity for each of the four subclasses of human IgG was used. Of the 24 allergic subjects studied, the basophils of 75% (18/24) released greater than 10% histamine to one or more anti-IgG1-4 mAb, whereas none of the 13 nonatopic donor's basophils released histamine after stimulation with optimal amounts of anti-IgG mAb. The basophils of 85% (11/13) of the nonatopic donors did respond to anti-IgE challenge, as did 92% (22/24) of the atopic donor cells. Histamine release was induced most frequently by anti-IgG3, and 10/18 anti-IgG responder cells released histamine with mAb specific for two or more different subclass specificities. The rank order for induction of histamine release was anti-IgG3 greater than anti-IgG2 greater than IgG1 greater than anti-IgG4. As in our previous study using polyclonal anti-IgG, 100- to 300-micrograms/ml quantities of the anti-IgG mAb were required for maximal histamine release, about 1000-fold higher than those for comparable release with anti-human IgE. Specificity studies using both immunoassays and inhibition studies with IgE myeloma protein indicated that anti-IgG induced histamine release was not caused by cross-reactivity with IgE. Ig receptors were opened by lactic acid treatment so that the cells could be passively sensitized. Neither IgE myeloma nor IgG myeloma (up to 15 mg/ml) proteins could restore the response to anti-IgG mAb. However, sera from individuals with leukocytes that released histamine upon challenge with anti-IgG mAb could passively sensitize acid-treated leukocytes from both anti-IgG responder and nonresponder donors for an anti-IgG response. The only anti-IgG mAb that induced release from these passively sensitized cells were those to which the serum donor was responsive. Sera from non-IgG responders could not restore an anti-IgG response. These data led to the hypothesis that the IgG specific mAb were binding to IgG-IgE complexes that were attached to the basophil through IgE bound to the IgE receptor. This was shown to be correct because passive sensitization to anti-IgG could be blocked by previous exposure of the basophils to IgE. We conclude that anti-IgG-induced release occurs as a result of binding to IgG anti-IgE antibodies and cross-linking of the IgE receptors on basophils.     

Distribution of bronchoconstrictor responses in isolated-perfused rat lung

We studied the effects of bronchoconstrictor stimuli administered selectively through isolated-perfused preparations of the bronchial and pulmonary circulations of 80 Sprague-Dawley rats. Dose-related contraction was elicited with infusion of acetylcholine (ACh), histamine, and serotonin (5-HT). Bolus infusion of 10(-5) mol ACh caused a 3.5-fold increase in pulmonary resistance (RL) after infusion into the pulmonary circulation (PC) and a 2.5-fold increase in the bronchial circulation (BC) (P less than 0.05 vs. control) that was blocked selectively in each circulation with atropine. Administration of 10(-5) mol 5-HT into the BC caused only a 45% increase in RL; the same dose of 5-HT caused a 5.1-fold increase in RL in the PC. A biphasic (increase at lower doses/decrease at higher doses) change in RL was elicited by histamine that was converted to dose-related constriction after H2-receptor blockade with cimetidine in both BC and PC. Response to exogenous ACh remained viable for greater than 5 h. Infusion of the mast cell degranulating agent, compound 48/80 (48/80), caused increase in RL that corresponded to quantitative recovery of histamine in the perfusates of both BC and PC. Histamine concentration in the perfusate increased from 47.2 +/- 31.8 (base line) to 624 +/- 60.1 ng/ml (2-fold increase in RL) in the BC and from 38.3 +/- 17.7 (base line) to 294.4 +/- 38.1 ng/ml (50% increase in RL) in the PC (P less than 0.001 vs. baseline concentration) after a 0.1-mg/ml dose of 48/80.(ABSTRACT TRUNCATED AT 250 WORDS)     

Dissociation of IgE from receptors on human basophils. I. Enhanced passive sensitization for histamine release

Leukocytes of only one of 11 nonatopic donors could be passively sensitized for histamine release elicited by ragweed extract. A short incubation in an unbuffered isotonic saline at pH 3.9 or in an 0.01 M lactic acid/lactate-buffered isotonic saline at pH 3.9 dissociated from 4 X 10(5) to less than 3 X 10(4) IgE molecules per basophil from washed leukocytes of several in a series of six atopic and 11 nonatopic donors. After such treatment, leukocytes of only one of the 11 nonatopic donors could not be sensitized for histamine release. Basophils of the four ragweed-sensitive donors lost their sensitivity to ragweed after the treatment, but all could be passively resensitized; for three of these donors the level of release approximated their original reactivity. Leukocytes of the two mold-sensitive donors could be passively sensitized to ragweed allergens after but not before treatment. Four plasma samples from histamine release-positive volunteers were used for sensitization of treated leukocytes of each cell donor; three were consistently effective and one was consistently ineffective. The positive plasmas had concentrations of antigen E-specific IgE of over 100 ng/ml, which accounted for 17 to 23% of the total IgE; the inactive one had less than 5 ng/ml of specific IgE. For each cell donor, all three samples of active plasma mediated quite similar histamine release, but there was a spectrum of donor cell reactivity ranging from 23 to 70% release. These results suggest that basophils from each donor, atopic or nonatopic, had a maximal potential for in vitro sensitization, which was only attained if the plasma contained appropriate, but yet to be fully defined, concentrations of specific and total IgE. Several unexpected results were obtained. Treated leukocytes from some individuals were sensitized for mediator release to a greater extent by sixfold diluted than undiluted plasma. In addition, a 4-hr incubation with plasma at 37 degrees C, but not at 25 degrees C or 0 degrees C, was less effective than were shorter incubation periods. Treated leukocytes should be useful in studying kinetic and equilibrium parameters of IgE binding to specific receptors on human basophils. Analogous treatments should also be useful in sensitization and measurement of IgE-receptor interactions of mast cell populations.     

Biochemical analysis of desensitization of mouse mast cells

Biochemical mechanisms of desensitization were explored by using peritoneal mouse mast cells saturated with monoclonal mouse IgE anti-DNP antibody. It was found that a 1-min incubation of the sensitized cells with 0.01 micrograms/ml DNP-HSA in the absence of Ca2+ was sufficient to desensitize the cells completely. The treated cells failed to release a detectable amount of histamine upon incubation with an optimal concentration (0.1 to 1.0 micrograms/ml) of DNP-HSA and Ca2+. Determination of the number of antigen molecules bound to mast cells revealed that only a small (less than 10%) fraction of cell-bound IgE antibody molecules reacted with desensitizing antigen, and that desensitized cells and untreated (sensitized) cells could bind comparable amounts of antigen upon incubation with rechallenging antigen. However, the binding of antigen molecules to desensitized cells failed to induce any of the early biochemical events, i.e., phospholipid methylation, cAMP rise, and 45Ca uptake, as well as histamine release. It was also found that intracellular cAMP levels in desensitized cells were comparable to those in sensitized cells. Desensitization by a suboptimal concentration of DNP-HSA was prevented by inhibitors of methyltransferases, such as 3-deaza adenosine plus L-homocysteine thiolactone. Sensitized cells pretreated with 0.01 micrograms/ml DNP-HSA in the absence of Ca2+ and in the presence of the methyltransferase inhibitors responded to an optimal concentration of antigen for histamine release when they were rechallenged in the presence of Ca2+. Inhibition of desensitization by methyltransferase inhibitors was reversed by the addition of S-adenosyl-L-methionine to the system. The results indicated that the activation of methyltransferases, induced by receptor bridging, is involved in the process of desensitization. Desensitization was inhibited by reversible inhibitors of serine proteases, such as p-aminobenzamidine, indole, and synthesized substrates of rat mast cell proteases. It was also found that diisopropylfluorophosphate (DFP), an irreversible inhibitor of serine proteases, completely blocked desensitization at the concentration of 10 to 40 nM. This concentration of DFP did not affect the antigen-induced histamine release, whereas 100- to 1000-fold higher concentrations of DFP did inhibit histamine release. The results suggest that serine proteases are involved in both the induction of histamine release and desensitization, and that the protease involved in desensitization is distinct from that involved in triggering histamine release.     

Base-line and postthermal injury plasma histamine in rats

Although plasma histamine concentration has been reported to increase after thermal injury in the rat to as much as 100-fold over normal human plasma levels, the pathophysiological significance and relevance to human disease is questionable. Lack of confidence in the rat as a model of histamine-mediated disease is based on reports that normal rat base-line plasma histamine concentration exceeds that of human plasma by 20- to 70-fold. The present study confirms that high concentrations of histamine (20-68.9 ng/ml) are found in rat plasma obtained in an uncontrolled manner; but concentrations are lower (1.17 +/- 0.49 ng/ml) or undetectable in a sensitive radioenzymatic assay when sampling technique and plasma isolation are controlled. The primary cause for falsely elevated values for plasma histamine concentration appeared to be due to manipulation of the rat. Plasma histamine concentration increased within 1 min after thermal injury and the increase was proportional to extent of surface area injured. In contrast to the finding of a single time-related peak of plasma histamine concentration after partial-thickness burn, a biphasic elevation was found after full-thickness injury. Thus the data indicate that normal rat plasma histamine concentration is similar to that of the human and below the reported threshold for modulation of a variety of immune responses. Furthermore, the data support a role for histamine and other mast-cell mediators in the local and systemic responses to injury.     

Lactoferrin inhibits the binding of lipopolysaccharides to L-selectin and subsequent production of reactive oxygen species by neutrophils

The activation of leukocytes by lipopolysaccharides (LPS), resulting in the oxidative burst, contributes to the pathogenesis of septic shock. The binding of LPS to L-selectin, which was reported as a serum-independent LPS receptor on neutrophils, induces the production of oxygen free radicals. Human lactoferrin (hLf), an anti-inflammatory glycoprotein released from neutrophil granules during infection, binds to LPS. In this study, we investigated the capacity of hLf to inhibit the L-selectin-mediated activation of neutrophils. Our experiments revealed that hLf prevents the binding of LPS to L-selectin in a concentration-dependent manner. Inhibition was maximum (87.7+/-0.5%) at a concentration of 50 microg/ml of hLf. Furthermore, hLf inhibited up to 55.4+/-0.5% of the intracellular hydrogen peroxide production induced by LPS in neutrophils. These findings suggest that the anti-inflammatory properties of hLf are due, at least in part, to their ability to prevent the binding of LPS to neutrophil L-selectin.     

Synergistic stimulation of histamine release from rat peritoneal mast cells by 12-O-tetradecanoylphorbol 13-acetate (TPA)-type and non-TPA-type tumor promoters

Thapsigargin, a non-TPA (12-O-tetradecanoylphorbol 13-acetate)-type tumor promoter, provoked histamine release from rat peritoneal mast cells at concentrations above 30 ng/ml, but not at 10 ng/ml. TPA-type tumor promoters such as TPA, teleocidin and aplysiatoxin released very little, if any, histamine even at 100 ng/ml. When mast cells were incubated in medium containing thapsigargin at 10 ng/ml and varying concentrations of TPA-type tumor promoters, histamine release was increased synergistically. Maximum synergistic effects were observed at 10 ng/ml of each TPA-type tumor promoter. Palytoxin, another non-TPA-type tumor promoter, having no effect on histamine release at up to 10 pg/ml, also induced histamine release in the presence of 10 ng/ml of each TPA-type tumor promoter. However, no synergistic effect on histamine release was observed when mast cells were incubated in medium containing two different non-TPA-type tumor promoters, e.g., 10 ng/ml thapsigargin and 10 pg/ml palytoxin, or in medium containing two different TPA-type tumor promoters, e.g., TPA and teleocidin, TPA and aplysiatoxin, or teleocidin and aplysiatoxin (all at 10 ng/ml). These results suggest that the release of histamine from mast cells is stimulated synergistically under the mutual influence of TPA-type tumor promoters and non-TPA-type tumor promoters.     

The effect of exogenous peroxidase on the intensity of luminol-dependent macrophage chemiluminescence

The influence of exogenous horse-radish peroxidase on the capacity of mouse peritoneal macrophages to luminol-dependent chemiluminescence induced by zymosan was investigated. It was revealed that peroxidase (1-50 mg/ml) increased the chemiluminescence in a dose-dependent manner. The maximum increase of the response (4-6 times) was obtained with the enzyme concentration being 10 mg/ml. It is found that peroxidase acts as a co-oxidant of the peroxide-dependent extracellular luminol oxidation. The including of the enzyme into macrophages makes it possible to register the intracellular chemiluminescence.     

Human blood cells ultrastructural changes and mediator release after exposure to roentgenographic contrast media.

Adverse reactions to roentgenographic contrast media (RCM) are associated with the release of mediators including complement components (anaphylatoxins), histamine and serotonin. In an in vitro study of platelets and leukocytes from 20 healthy individuals, RCM-induced release of granules from basophils and platelets was correlated with the release of histamine and serotonin respectively. The release of histamine from basophils was augmented in the presence of exogenous complement; in contrast, the release of serotonin from platelets was not dependent on the addition of exogenous complement. Although individual differences were noted, iothalamate most effectively released serotonin, whereas diatrizoate most effectively released histamine.     

Uptake and methylation of histamine by dispersed gastric mucosal cells and its possible influence on acid secretion

Inactivation of histamine by gastric mucosal tissue was examined in dispersed rabbit gastric mucosal cells. Mucosal cells were incubated with [14C]histamine. The formed radioactive metabolites were separated and identified by thin layer co-chromatography and quantitated, in both the cellular and extracellular mediums. Gastric mucosal cells internalized histamine, most of which was immediately methylated primarily to N tau-methylhistamine and released. Cellular histamine product accumulation reached a plateau. The rate of histamine methylation increased with increasing extracellular histamine concentration, moving towards a plateau above 5 microM. Histamine methylation was greatly decreased but not abolished at 4 degrees C, in the absence of Na+ and by phlorizin (0.5 mM), an inhibitor of Na(+)-dependent co-transport. Inhibition of histamine N-methyltransferase decreased intracellular methylhistamine content dose dependently without increasing intracellular histamine. The secretagogues pentagastrin and carbachol did not influence histamine metabolism but ethanol inhibited methylation. The data suggest that gastric mucosal cells take up histamine by a Na(+)-dependent and Na(+)-independent process. The histamine uptake capacity appears to be linked to the methylation activity within the cell. The decrease in histamine uptake and metabolism caused by ethanol could potentially increase histamine concentrations near the target cells and be the reason for the stimulatory effect of ethanol on acid secretion.     

Real-time monitoring of histamine released from rat basophilic leukemia (RBL-2H3) cells with a histamine microsensor using recombinant histamine oxidase

To detect low levels of histamine, we developed a histamine microsensor using recombinant histamine oxidase. Histamine oxidase with a histidine tag was readily purified using a histidine affinity column. The enzyme showed higher catalytic activity on histamine than diamines (e.g., putrescine and cadaverine) or N(tau)-methylhistamine. The sensor had three carbon film electrodes modified with osmium-polyvinylpyridine-based gel containing horseradish peroxidase, histamine oxidase, and Ag. When a standard solution of histamine was aspirated at a flow rate of 2 microl/min, the detected current was proportional to the histamine concentration and the lower detection limit was 11.3 nM. When rat basophilic leukemia cells (1 x 10(6)) were stimulated by various concentrations of antigen (2, 20, and 200 ng/ml), the histamine concentrations were 0.32, 2.7, and 1.3 microM, respectively, and 20 ng/ml of antigen was found to be the optimal concentration for the antigen-antibody reaction. In contrast, when thapsigargin, an inhibitor of Ca-ATPase in the endoplasmic reticulum, was added (50, 100, and 500 nM), the detected current increased with thapsigargin concentrations and the measured histamine concentrations were 28 nM, 1.3 microM, and 2.7 microM, respectively. These results indicate that the microsensor is useful for the analysis of histamine release from mast cells.