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.     

Allisonella histaminiformans gen. nov., sp. nov. A novel bacterium that produces histamine,utilizes histidine as its sole energy source,and could play a role in bovine and equine laminitis

When cattle and horses are fed large amounts of grain, histamine can accumulate in the gastrointestinal tract, and this accumulation can cause an acute inflammation of the hooves (laminitis). When ruminal fluid from dairy cattle fed grain supplements was serially diluted in anaerobic MRS medium containing histidine (50 mM), histamine was detected at dilutions as high as 10(-7). The histidine enrichments were then transferred successively in an anaerobic, carbonate-based medium (50 mM histidine) without glucose. The histamine producing bacteria could not be isolated from the rumens of cattle fed hay; however, histamine producing bacteria could be isolated the feces of cattle fed grain and the cecum of a horse. All of the histamine producing isolates had the same ovoid morphology. The cells stained Gram-negative and were resistant to the ionophore, monensin (25 microM). The doubling time was 110 min, and the yield was 1.5 mg cell protein per mmol histidine. The G+C content was 46.8%. Lysine was the only other amino acid used, but lysine did not allow growth if histidine was absent. Because carbohydrate and organic acid utilization was not detected, it appeared that the isolates used histidine decarboxylation as their sole mechanism of energy derivation. 16s rRNA gene sequencing indicated that the isolates were most closely related to low G+C Gram-positive bacteria (firmicutes), but similarities were < or = 94%. Because the most closely related bacteria (Dialister pneumonsintes, Megasphaera elsdenii and Selenomonas ruminantium) did not produce histamine from histidine, we propose that these histamine producing bacteria be assigned to a new genus, Allisonella, as Allisonella histaminiformans gen. nov., sp. nov. The type strain is MR2 (ATCC BAA610, DSM 15230).     

A high-sampling-rate automated continuous-flow fluorometric technique for the analysis of nanogram levels of histamine in biological samples

An automated continuous-flow technique of the modified fluorometric method of Shore was devised to obtain a high sampling rate (60/h) and a sensitive measurement of the histamine content of biological samples. The volumes of samples range from 50 to 500 microliter. A linear relationship is obtained from 0 to 5 micrograms/ml (histamine base) with a good specificity. The limit of detection is 25 pg (actual amount). The coefficient of variation is less than or equal to +/- 5% for concentrations of less than 2 ng/ml and from +/- 0.2 to +/- 2% for higher concentrations. With this technique more sensitive, more specific, and twice as fast as similar ones, histamine content in 350-400 unknowns can be measured routinely in a working day. It has been used for more than 4 years and has proven to be a reliable and useful tool for the numerous research studies in which histamine is involved: immunology, allergy, pharmacology, dermatology, cancer, nutrition.     

PKC and cAMP positively modulate alkaline-induced exocytosis in the human mast cell line HMC-1

We study in HMC-1 the activation process, measured as histamine release. We know that ammonium chloride (NH(4)Cl) and ionomycin release histamine, and the modulatory role of drugs targeting protein kinase C (PKC), adenosine 3',5'-cyclic monophosphate (cAMP), tyrosine kinase (TyrK) and phosphatidylinositol 3-kinase (PI3K) on this effect. We used G?6976 (100 nM) and low concentration of GF 109203X (GF) (50 nM) to inhibit Ca(2+)-dependent PKC isozymes. For Ca(2+)-independent isozymes, we used 500 nM GF and 10 microM rottlerin (specifically inhibits PKCdelta). Phorbol 12-myristate 13-acetate (PMA) (100 ng/ml) was used to stimulate PKC, and genistein (10 microM) and lavendustin A (1 microM) as unspecific TyrK inhibitors. STI571 10 microM was used to specifically inhibit the activity of Kit, the receptor for stem cell factor, and 10 nM wortmannin as a PI3K inhibitor. Activation of PKC with PMA enhances histamine release in response to NH(4)Cl and ionomycin. PMA increases NH(4)Cl-induced alkalinization and ionomycin-induced Ca(2+) entry. Inhibition of PKCdelta strongly inhibits Ca(2+) entry elicited by ionomycin, but failed to modify histamine release. The effect of cAMP-active drugs was explored with the adenylate cyclase activator forskolin (30 microM), the inhibitor SQ22,536 (1 microM), the cAMP analog dibutyryl cAMP (200 microM), and the PKA blocker H89 (1 microM). Forskolin and dibutyryl cAMP do increase NH(4)Cl-induced alkalinization, and potentiate histamine release elicited by this compound. Our data indicates that alkaline-induced exocytosis is modulated by PKC and cAMP, suggesting that pH could be a modulatory signal itself.     

Augmentation of respiratory mast cell secretion of histamine caused by vagus nerve stimulation during antigen challenge

We studied the effect of vagus nerve stimulation on the mast cell secretion of histamine after intraarterial (i.a.) administration of Ascaris suum antigen (AA) into the bronchial circulation of 10 randomly selected, natively allergic dogs in vivo. Respiratory mast cell response was measured as the arteriovenous difference (AVd) in histamine concentration across the bronchus. Plasma histamine concentration was determined simultaneously from right atrium, right ventricle, and femoral artery 60 and 15 sec before and 15, 30, 45, 60, 75, and 90 sec after i.a. injection of sham (Kreb-Henseleit) diluent, 1:100, and 1:30 concentrations of AA. The mean AVd in plasma histamine for five parasympathetically blocked animals (neural blockade with hexamethonium and beta-adrenergic blockade with propranolol) was 1.28 +/- 0.61 ng/ml (sham), 5.16 +/- 19.7 ng/ml (1:100 AA), and 36.6 +/- 11.1 ng/ml (1:30 AA). Substantial augmentation was obtained when AA was administered during parasympathetic stimulation in five other animals (beta-adrenergic blockade, no neural blockade), which was caused by continuous bilateral electrical stimulation of the vagus nerves. A mean AVd in plasma histamine of 110 +/- 27.6 ng/ml was obtained after 1:100 AA (p less than 0.001 vs parasympathetic blockade) and 166 +/- 32.4 ng/ml for 1:30 AA (p less than 0.001 vs parasympathetic blockade). Parasympathetic stimulation alone did not cause secretion of histamine. In contrast to the AVd response, parasympathetic stimulation did not augment nonrespiratory mast cell secretion after AA challenge. We conclude that vagus nerve stimulation augments secretion of histamine from respiratory mast cells during antigen challenge. We demonstrate that parasympathetic stimulation may potentiate the response to antigen challenge in central airways through augmented mast cell secretion of mediator.     

Intracellular histamine and liver regeneration: high affinity binding of histamine to chromatin, low affinity binding to matrix, and depletion of a nuclear storage pool following partial hepatectomy.

We have demonstrated in rat hepatocytes that 3H-histamine binds specifically to novel low (microM) and high (nM) affinity sites, designated "HIC" to denote their intracellular location. Low affinity HIC sites are associated with microsomes, while both low and high affinity HIC sites are associated with the nucleus. A growth-regulatory action of intracellular histamine at HIC, independent of the rise in cytosolic calcium, has been demonstrated in mitogen-stimulated lymphocytes. We now report that the high affinity HIC sites in liver cell nuclei are associated exclusively with chromatin, while only low affinity sites are found in the residual material containing the nuclear matrix. Moreover, hepatocyte nuclei contain histamine (approximately 1 ng/mg protein), unaffected by incubation for up to 18 hours with the histidine decarboxylase inhibitor, alpha-FMH, suggesting a slow rate of turnover typical of a storage pool. A decrease in nuclear histamine parallels a rise in DNA synthesis in the first 24 hours after partial hepatectomy. Our findings support a role for a nuclear pool of pre-formed histamine in the mediation of liver regeneration.     

Hypothalamic neuronal histamine signaling in the estrogen deficiency-induced obesity

Menopause is one of the triggers that induce obesity. Estradiol (E2), corticotropin-releasing hormone (CRH), and hypothalamic neuronal histamine are anorexigenic substances within the hypothalamus. This study examined the interactions among E2, CRH, and histamine during the regulation of feeding behavior and obesity in rodents. Food intake was measured in rats after the treatment of E2, α-fluoromethyl histidine, a specific suicide inhibitor of histidine decarboxylase that depletes hypothalamic neuronal histamine, or CRH antagonist. We measured food intake and body weight in wild-type mice or mice with targeted disruption of the histamine receptors (H1-R) knockout (H1KO mice). Furthermore, we investigated CRH content and histamine turnover in the hypothalamus after the E2 treatment or ovariectomy (OVX). We used immunohistochemical staining for estrogen receptors (ERs) in the histamine neurons. The E2-induced suppression of feeding was partially attenuated in rats pre-treated with α-fluoromethyl histidine or CRH antagonist and in H1KO mice. E2 treatment increased CRH content and histamine turnover in the hypothalamus. OVX increased food intake and body weight, and decreased CRH content and histamine turnover in the hypothalamus. In addition, E2 replacement reversed the OVX-induced changes in food intake and body weight in wild-type mice but not in H1KO mice. Immunohistochemical analysis revealed ERs were expressed on histamine neurons and western blotting analysis and pre-absorption study confirmed the specificity of ER antiserum we used. These results indicate that CRH and hypothalamic neuronal histamine mediate the suppressive effects of E2 on feeding behavior and body weight.     

IgE-mediated release of histamine from human cutaneous mast cells

We investigated the ability of antigen-IgE interactions to stimulate histamine release from human infant cutaneous mast cells. Skin obtained at circumcision contained numerous perivascular mast cells, as assessed by light and electron microscopy. The histamine content of this tissue averaged 17.7 ng (+/- 1.5 SEM)/mg wet weight. Challenge of 200-microns thick sections of unsensitized skin with varying concentrations of monoclonal murine antibodies to human IgE caused no net release of histamine. After skin sections were incubated in the presence of 5 micrograms/ml of human myeloma IgE (S) for 120 min at 37 degrees C, monoclonal anti-IgE challenge resulted in 40.1% (+/- 6.0 SEM) histamine release. Similar passive sensitization with 1/20 dilutions of serum from humans expressing IgE to purified Juniperus sabinoides (JS) antigen rendered the tissue responsive to specific antigen challenge. Dose-related histamine release occurred over 30 min with optimal release of 12.6% (+/- 2.4 SEM) after stimulation with 100 ng/ml of JS antigen. This reaction required sensitization with serum containing IgE to JS and was antigen-specific. Optimal reactions to antigen occurred at 3 mM added Ca++, 34 degrees C to 37 degrees C, pH 7.2. Antigen-induced release was markedly influenced by the added Ca++ concentration; no release occurred in the absence of Ca++, 54% of the optimal response was observed at 2 mM Ca++, and 28% of the optimal response occurred at 4 mM Ca++. The addition of Mg++ did not influence antigen-induced release. The results of this study provide functional evidence that 1) human infant cutaneous mast cells express Fc-epsilon receptors; 2) these receptors are largely unoccupied in vivo; and 3) stimulation of passively sensitized infant mast cells with anti-IgE or specific antigen leads to immediate histamine release. This new system should permit detailed in vitro studies of immediate hypersensitivity reactions in human skin.     

The effect of somatostatin on baseline and stimulated acid secretion and vascular histamine release from the totally isolated vascularly perfused rat stomach

The effect of somatostatin-(1-14) (S1-14) on the gastrin- and histamine-induced acid secretion and gastrin-evoked vascular histamine release was studied in isolated vascularly perfused rat stomachs being continuously perfused by a gassed buffer containing 10% ovine erythrocytes and 50 microM isobutyl methylxanthine (IMX). Concentrations of gastrin (520 pM) and histamine, (0.5 microM) were chosen to give acid secretion in the same range (61.5 +/- 7.0 and 49.4 +/- 9.4 mumol/60 min). S1-14 induced a concentration-dependent decrease in acid secretion stimulated by both gastrin and histamine. Even at the lowest concentration examined (0.1 nM) somatostatin gave a significant inhibition of both gastrin- and histamine-stimulated acid secretion. The inhibitory effect was, however, most marked for gastrin-stimulated acid secretion (P less than 0.05 at 1 nM concentration of S1-14). Gastrin gave an immediate and marked vascular histamine release which was inhibited by somatostatin in the higher concentrations (1.0 and 5.0 nM). Somatostatin at the lowest concentration tested (0.1 nM) did not inhibit the gastrin-induced vascular histamine release although it did inhibit acid secretion. Furthermore, baseline histamine release was not affected by somatostatin. This study suggests that somatostatin inhibits acid secretion both via a direct effect of the parietal cell and by inhibiting gastrin-induced histamine release. Baseline histamine release is regulated by a mechanism not sensitive to somatostatin.     

Effect of histamine and cimetidine on amino acid meal-stimulated gastrin release at a controlled intragastric pH in healthy human beings

Results of several experiments have suggested that histamine-2 receptors play an inhibitory role in regulating gastrin release. We evaluated this prospectively in healthy human beings by infusing intravenously either histamine (0.33 μg/kg/min) or cimetidine (3.33 mg/min) during a continuous 3-h intragastric infusion of a 3% mixed amino acid meal, a potent stimulus of gastrin release. In order to be certain that effects of histamine or cimetidine on gastrin release were independent of their known effects on gastric acid secretion, intragastric pH was maintained at 5.0 by in vivo intragastric titration with sodium bicarbonate or hydrochloric acid. Although histamine and cimetidine had significant effects on gastric acid secretion, neither significantly affected the rises in serum gastrin concentrations during intragastric amino acid infusion. For example, mean gastrin rises above basal concentrations were 39 ± 9 pg/ml on the control day, 39 ± 9 pg/ml on the histamine day and 44 ± 11 pg/ml on the cimetidine day (P > 0.05). Thus, blockade or stimulation of H₂-receptors at the doses tested had no effect on gastrin release in response to an amino acid meal in humans when intragastric pH was maintained at 5.0.     

Recombinant human IL-1 alpha and -1 beta potentiate IgE-mediated histamine release from human basophils

In this study, we have explored the relationship between interleukins and human basophil activation. Previous studies by ourselves and others have found that recombinant human (rh) IL-3 causes histamine release. The ability to release histamine has also been claimed for IL-1 but we cannot confirm this. In experiments with the basophils of 29 donors (excluding one D2O responder), histamine release with 100 ng/ml rhIL-1 alpha was 1.3 +/- 1% (SEM), whereas with rhIL-1 beta, it was 0.8 +/- 1%. Both IL-1 alpha and -1 beta were also used at concentrations of 0.01 to 1000 ng/ml without causing release. Neither increasing the Ca2+ concentration nor adding D2O or cytochalasin B caused IL-1 alpha and -1 beta to become secretagogues. rhIL-1, however, did augment IgE-dependent histamine release. The enhancement was similar with both rhIL-1 alpha and -1 beta, i.e. they were dose-dependent between 0.1 and 3 ng/ml and reached a plateau from 3 to 100 ng/ml. At submaximal histamine release (less than 10%), there was enhancement of three IgE-dependent secretagogues: 125% with goat anti-human IgE (n = 7), 215% with Ag E (n = 10), and 260% with a histamine releasing factor (n = 7). Non-IgE-dependent stimuli (formyl-methionine-leucine-phenylalanine and the ionophore A23187, n = 10) were enhanced less than 5%. rhIL-1-enhancement persisted after cell washing (n = 10). rhIL-1 was active in preparations of 50 to 75% pure basophils in which mononuclear cells were reduced by greater than 95% (n = 4), and mAbH34 to IL-1 beta blocked the enhancement caused by that molecule. We postulate that basophils have an IL-1 receptor which, when occupied, upregulates the response to IgE-related signals. Thus, this work characterizes a second interaction between interleukins and the cells central to the allergic response.     

Hypothalamic neuronal histamine mediates the thyrotropin-releasing hormone-induced suppression of food intake

We examined the involvement of thyrotropin-releasing hormone (TRH) and TRH type 1 and 2 receptors (TRH-R1 and TRH-R2, respectively) in the regulation of hypothalamic neuronal histamine. Infusion of 100 nmol TRH into the rat third cerebroventricle (3vt) significantly decreased food intake (p < 0.05) compared to controls infused with phosphate- buffered saline. This TRH-induced suppression of food intake was attenuated partially in histamine-depleted rats pre-treated with alpha-fluoromethylhistidine (a specific suicide inhibitor of histidine decarboxylase) and in mice with targeted disruption of histamine H1 receptors. Infusion of TRH into the 3vt increased histamine turnover as assessed by pargyline-induced accumulation of tele-methylhistamine (t-MH, a major metabolite of neuronal histamine in the brain) in the tuberomammillary nucleus (TMN), the paraventricular nucleus, and the ventromedial hypothalamic nucleus in rats. In addition, TRH-induced decrease of food intake and increase of histamine turnover were in a dose-dependent manner. Microinfusion of TRH into the TMN increased t-MH content, histidine decarboxylase (HDC) activity and expression of HDC mRNA in the TMN. Immunohistochemical analysis revealed that TRH-R2, but not TRH-R1, was expressed within the cell bodies of histaminergic neurons in the TMN of rats. These results indicate that hypothalamic neuronal histamine mediates the TRH-induced suppression of feeding behavior.     

Intravenous histamine reduces bombesin-stimulated gastrin release in dogs

The effect of histamine on gastrin release was studied in 7 conscious mongrel dogs with chronic gastric and duodenal fistulas. Histamine-2 HCl was infused in doses of 0 (control), 20, 40, 80, and 160 micrograms/kg per h for 2 h on separate days. During the second hour, bombesin 500 ng/kg per h was infused intravenously. Intragastric pH was constantly kept at 2.5 by intragastric titration during each test. Leakage of gastric contents into the duodenum was prevented by a prepyloric balloon passed retrograde through a duodenal fistula. Gastrin release, as expressed by the integrated response during the last 50 min of the bombesin infusion was significantly (P less than 0.05) decreased by all doses of histamine, compared to control. The infusion doses of histamine studied, 20, 40, 80, and 160 micrograms/kg per h reduced bombesin-stimulated gastrin release 16%, 19%, 19%, and 30%, respectively. This effect was blocked by a histamine H-2 but not an H-1 receptor antagonist. We conclude that by an H-2 mechanism, exogenous histamine reduces bombesin-stimulated gastrin release in dog.     

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.     

The role of calcium and protein kinase C in the IgE-dependent activation of phosphatidylcholine-specific phospholipase D in a rat mast (RBL 2H3) cell line.

Our previous studies have suggested that phosphatidylcholine-specific phospholipase D (PtdCho-PLD) plays a role in IgE-dependent diacylglycerol production, protein kinase C activation and mediator release in the RBL 2H3 mast cell line. We have extended these studies to examine the mechanisms by which PtdCho-PLD may be regulated in these cells. RBL 2H3 cellular lipids were labeled with [14C]arachidonic acid or [3H]myristic acid, then PtdCho-PLD activity was monitored by the formation of radiolabeled phosphatidylethanol when ethanol was included in the incubation medium. Trinitrophenol-ovalbumin conjugate (10 ng/ml), when added to cells previously sensitized with anti-(trinitrophenelated mouse IgE) (0.5 microgram/ml), ionomycin (1 microM) and thapsigargin (0.1 microM), stimulated PtdCho-PLD activation and mediator release in cells incubated in buffer containing 1.8 mM calcium, but not in cells incubated in calcium-free, buffer. Phorbol 12-myristate 13-acetate (0.1 microM) activated PtdCho-PLD in both buffers, but on its own did not trigger mediator release. When intracellular calcium was chelated with 5,5'-dimethyl-1,2-bis(2- aminophenoxy)ethane-N,N,N',N'-tetraacetic acid, trinitrophenol-ovalbumin conjugate failed to activate PtdCho-PLD and histamine release. Similarly, down-regulation of protein kinase C activity by long-term exposure to the phorbol ester (0.1 microM) and preincubation of the cells with protein kinase inhibitors resulted in the loss of the trinitrophenol-ovalbumin response on PtdCho-PLD activity and histamine release. Taken together, the above results suggest that IgE-dependent PtdCho-PLD activation is dependent on both activation of protein kinase C and a rise in the intracellular free calcium concentration.     

Improved fluorometric assay of histamine: condensation with O-phthalaldehyde at -20 degrees C

Histamine reacts with OPT at an alkaline pH giving rise to fluorescent conjugation products. Optimum fluorophore formation was observed at pH 12.5 after 10 hr under nitrogen at ?20°C, i.e., in the frozen state. After acidification with sulfuric acid to pH 2.5 the resulting fluorescence, read at room temperature, was stable for hours. The procedure now measures as little as 1 ng histamine/ml and is much more specific than the conventional fluorometric assay. Spermidine did not interfere with the assay of histamine, and histidine only if present in great excess over histamine. It could be shown that with deproteinized extracts of rat gastric mucosa, histamine could be estimated without further purification, which means saving a lot of time and labor.     

Binding of histamine and histamine analogs to lymphocyte subsets analyzed by flow cytometry

The binding of histamine, 4-methylhistamine (a histamine type 2 receptor agonist), cimetidine (a histamine type 2 receptor antagonist), and telemethylhistamine (an inactive analog) to human peripheral blood mononuclear cell subsets was investigated by flow cytometry by using conjugates of these ligands coupled to fluorescein-labeled human serum albumin. Our results indicate that binding of fluorescent protein conjugates of histamine and its analogs does not selectively identify a lymphocyte subset(s) that mediates the immunomodulatory effects of histaminergic ligands. Conjugates with both low (2.5 to 2.8:1) and high (28 to 57:1) ligand to protein coupling ratios were used. No binding above background could be detected for the low mole ratio reagents. The high mole ratio reagents were bound by 95 to 99% of all lymphocytes when used at ligand concentrations of 50 microM or greater. At lower ligand concentrations, the number of lymphocytes exceeding a set fluorescence threshold was decreased, but fluorescence distributions remained unimodal at all concentrations used (1 to 500 microM). Monocytes also bound the high mole ratio reagents and gave rise to a second high-intensity peak in the fluorescence distribution unless they were excluded by other means. Levels of conjugate binding detected by flow cytometry did not parallel ligand potencies at classical histamine type 2 receptors; at equivalent ligand concentrations, approximately equal amounts of histamine or 4-methylhistamine conjugate were bound per lymphocyte, and only 30% less telemethylhistamine conjugate was bound. Competition with free ligands (10(2)- to 10(4)-fold excess histamine, 4-methylhistamine, cimetidine, or telemethylhistamine) did not significantly decrease the level of binding observed for the high mole ratio reagents at bound ligand concentrations of 1 to 25 microM. Dual staining with fluorescein-labeled conjugate and phycoerythrin-labeled monoclonal antibodies Leu-3ab (anti-helper T), Leu-2a (anti-suppressor T), Leu-M3 (anti-monocyte), or anti-HLA-DR (B cells and monocytes) was also carried out. The extent of conjugate binding to helper and suppressor cells was identical for each of the ligands used, but higher levels of conjugate binding were seen for monocytes and B cells than for T cells in every case. Our data do not exclude the possibility of enhanced conjugate binding to small numbers of activated (HLA-DR positive) T cells that might be involved in mediation of histamine effects.(ABSTRACT TRUNCATED AT 400 WORDS)     

Activation of plasma Hageman factor and kallikrein in ongoing allergic reactions in the skin

Ten atopic subjects, sensitive to intradermal injection of less than or equal to 10 protein nitrogen units of ragweed or grass pollen antigen, underwent paired antigen and buffer skin chamber incubation over the base of denuded skin blisters. The chamber fluids were sampled over a 6-hr period for histamine and activated Hageman factor and plasma kallikrein which were complexed to C1 inhibitor. In 9 of 10 subjects significantly (p less than 0.01) increased histamine levels (74 +/- 11 ng/ml vs 1.5 +/- 0.55 ng/ml) and kallikrein-C1 inhibitor complexes (2.15 +/- 0.78 ng/ml/hr vs 0.51 +/- 0.09 ng/ml/hr, p less than 0.25) were detected at antigen sites compared with buffer sites, respectively. Increased levels of activated Hageman factor (ng/ml/hr) were detected at antigen sites (1.35 +/- 0.60) compared with buffer sites (0.11 +/- 0.05), (p less than 0.01), in 8 of 10 subjects. Whereas peak levels of histamine were obtained after 1 hr of challenge, both Hageman factor and kallikrein activation, as assessed by complex formation, tended to peak later from the 2nd to the 5th hr. This represents the first demonstration that cutaneous IgE-mediated allergic responses are associated with local activation of the intrinsic plasma coagulation-kinin pathways.     

The subsynaptosomal localization of histamine, histidine decarboxylase and histamine methyltransferase in rat hypothalamus

Abstract— We have examined the subcellular localization of histamine, histamine methyltransferase (EC 2.1.1.8) (HMT) and histidine decarboxylase (EC 4.1.1.22) in rat hypothalamus after osmotic lysis of synaptosome-containing primary particulate fractions. When crude mitochondrial fractions are subjected to osmotic lysis, histamine is retained within particulate structures, while HMT is released into the supernatant fluid. The majority of histidine decarboxylase activity is also recovered in the supernatant fluid, although more histidine decarboxylase than HMT is retained in particulate fractions. After sucrose gradient fractionation of osmotically lysed crude mitochondrial or microsomal pellets, histamine is also retained in particulate structures, with the greatest amount occurring in a fraction enriched in synaptic vesicles. In these sucrose gradients histidine decarboxylase activity shows a greater particulate localization than does HMT activity.     

Rat kidney histamine N-methyltransferase: purification and partial characterization

Histamine N-methyltransferase (HMT, EC 2.1.1.8) was purified 8,420-fold in 44% yield from rat kidney. The basic steps in the purification included differential centrifugation, calcium phosphate adsorption, DEAE cellulose chromatography, and affinity chromatography on an S-adenosylhomocysteine-agarose matrix. The resulting protein was homogeneous as determined by gel electrophoresis and was stable for at least five months at -80 degrees C. The apparent molecular weight of the enzyme was found to be 31,500 as determined by gel filtration through Sephadex G-100 and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The isoelectric point of the enzyme was determined to be 5.4. The Km's for histamine and S-adenosyl-L-methionine were 12.4 +/- 1.3 microM and 10.2 +/- 0.5 microM, respectively. When S-adenosyl-L-methionine was the variable substrate, the Ki's for S-adenosyl-L-homocysteine and S-adenosyl-D-homocysteine were 31.9 +/- 3.4 microM and 32.0 +/- 3.5 microM, respectively. When histamine was the variable substrate, the Ki for S-adenosyl-L-homocysteine was 11.8 +/- 0.6 microM. Comparison of physico-chemical and catalytic properties of the rat kidney and the guinea pig enzymes suggest that these proteins have similar structural and catalytic characteristics.