Histamine stimulates brain phospholipid turnover through a direct,H-1 receptor-mediated mechanism

Intracisternal administration of histamine produced a dose-dependent increase of incorporation of ³³Pi into brain phospholipids. The effect could not be mimicked by administration of compound 48/80, indicating lack of involvement of non-neuronal histamine. The stimulation was not attenuated by prior depletion of catecholamines with reserpine, indicating that the effect of histamine on phospholipid turnover was mediated by direct histaminergic mechanisms. An H-1 receptor appeared to be involved, as demonstrated by studies with specific histaminergic agonists and antagonists. Incorporation of ³³Pi into phospholipids may be a valuable tool in evaluating cellular effects mediated through H-1 receptors.     

Histamine H4 receptor expression is elevated in human nasal polyp tissue

Altered histamine metabolism is thought to be involved in the pathomechanism of nasal polyposis characterized by local eosinophil infiltration. The present study was performed to determine whether histamine receptors play a role in the effect of histamine in nasal polyp tissue. The findings suggest that the expression of H1 and H4 receptors is elevated in polyp tissue (p=0.045; p<0.001), while the level of H2 and H3 receptors is not increased significantly. The elevation of H1 and H4 receptors' expression may indicate that the histamine related mechanisms are preferentially mediated through H1 and H4 histamine receptors in the polyp tissue. Simultaneously with increased H4 receptor expression, the concentration of eosinophil cationic protein (ECP) was increased significantly in polyp tissue (p=0.002). One may speculate that the H4 receptor mediated histamine effects have a role in eosinophil accumulation and activation in inflammatory diseases of the nasal and paranasal sinus mucosa, such as nasal polyposis.     

Histamine H2 receptor mediated relaxation of hamster (Mesocricetus auratus) uterus

Histamine and 4-methyl histamine produced relaxation of KCl depolarized hamster uterus in vitro. The relaxation was selectively antagonized by histamine H2 receptor antagonist cimetidine which failed to antagonize the isoprenaline induced relaxation. The histamine induced relaxation was, further, not mediated through catecholamine release. The study indicated that, as in the albino rat, histamine produces relaxation of the hamster uterus mediated via the H2 receptors.     

Effects of histamine and antihistamines on the kinetics of carbon dioxide in the rat

We have investigated the effects of chlorpheniramine (an H1 histamine inhibitor) and metiamide (an H2 inhibitor) on response to 14C pulse-labeling of carbon dioxide in the rat in the presence and absence of histamine. Neither chlorpheniramine nor metiamide alone had any effect upon the gastric venous/arterial ratio (VG/A) or the peripheral venous/arterial ratio (Vp/A). As in the case with no drug present, Vp/A rose with time following pulse-labeling to a value of 1.15-1.20. The presence of a preexisting steady-state infusion of histamine caused no changes in the ratios in the presence or absence of the inhibitors. The inhibitors did completely abolish the oscillations of both VG/A and Vp/A caused by initiation of histamine infusion coincident with the pulse-labeling. The results suggest that the histamine effects are largely mediated through H1 receptors.     

A semi quantitative method for cyclic nucleotide localization by immunocytochemistry and its application in determining the distribution of cyclic AMP in lungs of normal and pertussis-vaccinated mice following histamine or epinephrine challenge.

A method is described which allows quantitative comparison of cAMP content determined by immunocytochemical procedures. This technique was then employed to localize cAMP in lungs of normal and pertussis-vaccinated mice following saline, histamine, or epinephrine challenge. All primary pulmonary compartments were shown to contain some immunoreactive (cAMP) material. However, epinephrine and histamine challenge selectively increased the cAMP content of the vasculature. No effect of epinephrine or histamine was detected in bronchial smooth muscle or interstitial tissue. This increased cAMP accumulation was observed in both normal and pertussis-vaccinated mice following epinephrine challenge but only in pertussis-vaccinated mice after histamine administration. These results demonstrate that histamine and epinephrine stimulate cAMP accumulation in the same pulmonary compartments supporting earlier speculation that histamine acts indirectly through epinephrine release. Further, primary involvement of the vasculature supports a more prominent role for this tissue in pertussis mediated histamine hypersensitivity.     

Modulation of cellular immune function in vitro by histamine receptor-bearing lymphocytes: mechanism of action.

When soluble histamine is added to guinea pig lymphocytes in vitro, antigen-induced cellular proliferation and the production of migration inhibitory factor is suppressed. The inhibitory effects that are produced by histamine have been shown to be mediated by the histamine-type 2 receptors of the involved cells, but the exact nature of this suppression has not been fully explored. The present studies have evaluated, following immunization, the effect of histamine on macrophage function in vitro, and affinity chromatography to delete a subpopulation of cells bearing histamine receptors. When we treated monolayers of peritoneal exudate cells with histamine (up to 10^?3M) we found that histamine did not interfere with antigen binding by macrophages, macro phage presentation of antigen to lymphocytes, nor the antigen-independent or antigen-dependent lymphocyte-macrophage rosetting. Columns containing insolubilized conjugates of histamine and rabbit serum albumin depleted a subpopulation of cells responsive to histamine i.e., the non-adherent cells made migration inhibitory factor and proliferated in the presence of histamine. The latter finding suggested that the retained cells might have suppressor function and if so, might mediate their effect through the release of a soluble factor. Preliminary data obtained in these studies supports this hypothesis. We conclude that cells bearing histamine receptors may serve a regulatory role in cellular immunity after their activation by histamine by producing a non-dialyzable factor with immunosuppressive properties.     

Treatment with antidepressants and histamine receptor mediated 3H-cyclic AMP formation in guinea pig cortex

It has been recently reported that most of the antidepressant drugs block histamine H1 and H2 receptors in the brain under in vitro conditions and it has been suggested that this may be related in part to their therapeutic effect. Since the in vitro and in vivo effects of these drugs may differ, we studied the effect of treatment with antidepressant drugs on histamine receptor sensitivity in the guinea pig brain and observed that chronic treatment with tricyclic antidepressants or phenelzine (an MAO inhibitor) causes a reduction in histamine receptor sensitivity. This reduction is probably mediated through two different mechanisms, since only tricyclic antidepressants cause a reduction after acute treatment. Although some of the side effects of antidepressant treatment may be related to the blockade of histamine receptors, these results do not support the assumption that this effect of antidepressant treatment contributes to their clinical effects.     

Histamine modulates the production of interferon-gamma and interleukin-2 by mitogen-activated human mononuclear blood cells

Histamine inhibited the production of interferon-gamma and interleukin 2 (IL-2) induced in human peripheral blood mononuclear cells by Staphylococcal Enterotoxin A (SEA) but had no effect on the expression of IL-2 receptors. The effects on lymphokine production were dose dependent with maximal inhibition occurring at histamine concentrations of 10(-4) to 10(-6) M. The H2-agonist 4-methylhistamine but not the H1-agonist 2-methylhistamine modulated lymphokine production in a similar manner as histamine. Histamine at concentrations of 10(-3) to 10(-8) M had no inhibitory effect directly on the activity of admixed IL-2 containing medium. The inhibitory effects of histamine could be reversed by the H2-antagonist cimetidine but not by the H1-antagonist diphenhydramine. This indicates that the inhibitory effects of histamine on lymphokine production are mediated through H2-receptors on mononuclear cells.     

Dual action of prostaglandin E2 on gastric acid secretion through different EP-receptor subtypes in the rat

We examined the role of prostaglandin E (EP) receptor subtypes in the regulation of gastric acid secretion in the rat. Under urethane anesthesia, the stomach was superfused with saline, and the acid secretion was determined at pH 7.0 by adding 50 mM NaOH. The acid secretion was stimulated by intravenous infusion of histamine or pentagastrin. Various EP agonists were administered intravenously, whereas EP antagonists were given subcutaneously 30 min or intravenously 10 min before EP agonists. PGE(2) suppressed the acid secretion stimulated by either histamine or pentagastrin in a dose-dependent manner. The acid inhibitory effect of PGE(2) was mimicked by sulprostone (EP(1)/EP(3) agonist) but not butaprost (EP(2) agonist) or AE1-329 (EP(4) agonist). The inhibitory effect of sulprostone, which was not affected by ONO-8711 (EP(1) antagonist), was more potent against pentagastrin- (50% inhibition dose: 3.6 mug/kg) than histamine-stimulated acid secretion (50% inhibition dose: 18.0 mug/kg). Pentagastrin increased the luminal release of histamine, and this response was also inhibited by sulprostone. On the other hand, AE1-329 (EP(4) agonist) stimulated the acid secretion in vagotomized animals with a significant increase in luminal histamine. This effect of AE1-329 was totally abolished by cimetidine as well as AE3-208 (EP(4) antagonist). These results suggest that PGE(2) has a dual effect on acid secretion: inhibition mediated by EP(3) receptors and stimulation through EP(4) receptors. The former effect may be brought about by suppression at both parietal and enterochromaffin-like cells, whereas the latter effect may be mediated by histamine released from enterochromaffin-like cells.     

Sauvagine: effects on gastric acid secretion in rats

Intracerebroventricular (ICV) and subcutaneous (SC) injections of sauvagine powerfully inhibited gastric acid secretion stimulated by gastric distension and by 2-deoxy-D-glucose, but not by histamine in pylorus-ligated rats. Naloxone failed to antagonize the antisecretory effects of SC and ICV sauvagine. Intravenous infusion of sauvagine completely suppressed bethanechol-stimulated gastric secretion, significantly decreased pentagastrin-stimulated gastric secretion and did not modify histamine-stimulated gastric secretion in gastric-perfused rats. The inhibitory effect of sauvagine on gastric secretory response is not mediated through opioid or histamine receptors. It appears to be dependent on a vagal mechanism as well as other mechanisms that await further elucidation.     

Effect of lipopolysaccharides on histamine synthesis by hematopoietic cells.

We show herein that lipopolysaccharides (LPS), in vitro, synergize with GM-CSF to increase histamine synthesis by murine bone marrow cells. LPS has no effect on its own and does not potentiate histamine synthesis promoted by IL-3, the only other cytokine sharing this biological activity with GM-CSF. Despite the fact that GM-CSF and LPS synergistically increase PGE2 levels, the potentiating effect of LPS does not require PGE2 that have been previously shown to enhance GM-CSF-induced histamine synthesis. We provide evidence that this effect of LPS on histamine production by bone marrow cells is mediated by the intracellular cAMP transduction signal. In addition, LPS and cAMP enhance GM-CSF-induced histidine decarboxylase activity, showing that both substances act on histamine synthesis. Contrary to in vitro results, LPS injection into mice induces an increase in both intracellular histamine and HDC activity in bone marrow cells. Our results support the conclusion that this effect is mediated by GM-CSF. In conclusion, LPS appears to be a powerful HDC inducer in hematopoietic organs because of its ability, on one hand, to induce circulating GM-CSF and, on the other hand, to potentiate GM-CSF induction of HDC.     

Histamine receptor effects on dissipation of an intracellular proton gradient of isolated gastric mucosal surface cells

The effects of histamine and several H1 and H2 receptor agents on Na+/H+ and Cl-/HCO-3 exchange systems of isolated gastric mucosal surface cells were studied. The cells were acid-loaded by the NH4Cl prepulse technique and the spontaneous Na+- and HCO-3-induced dissipation of the intracellular proton gradient (pHi) was followed using the metachromatic dye acridine orange. Histamine (10(-2-5) M) stimulates HCO-3-induced dissipation of the pHi but has no effect on Na+-induced or spontaneous dissipation. The H1 agonist 2-(2-aminoethyl)pyridine and the H2 agonist dimaprit also have no effect on Na+-induced or spontaneous pHi dissipation. However, both of these agents mimic the effect of histamine on HCO-3-induced dissipation, but only at a higher concentration (10(-3) M). The combination of 2-(2-aminoethyl)pyridine and dimaprit produces a histamine-like effect at lower concentrations (10(-5) and 10(-4) M). The effects of histamine are blocked by either the H1 antagonists diphenhydramine and pyrilamine or the H2 antagonists cimetidine and SKF 93479. The results suggest that the effect of histamine on HCO-3-induced dissipation of a pHi in gastric mucosal surface cells is mediated through a coordinated mechanism involving both H1 and H2 receptor sites.     

Histamine modulation of eosinophil migration.

Preincubation of eosinophils with 10(-5) M or higher concentrations of histamine inhibited the eosinophil chemotactic response to endotoxin-activated serum whether by using the nucleopore filter assay and counting the cells migrating through the filter, or by using the Zigmond-Hirsch assay and counting the cells at each 10-mum interval. When the H2-receptor sites on the eosinophils were blocked by metiamide, the inhibitory capacity of histamine was prevented. Preincubation of eosinophils with 10(-6) M histamine increased the number of responding eosinophils to endotoxin-activated serum and this enhancement was blocked by an H1-receptor antagonist. Isoproteronol and aminophylline inhibited eosinophil movement and increasing concentrations of dibutryl cyclic AMP inhibited eosinophil migration. Concentrations of histamine that consistently resulted in inhibition of eosinophil movement stimulated an increase in cyclic AMP that was prevented by blocking the H2-receptor but not the H1-receptor. Thus, histamine-dependent inhibition of the eosinophil chemotactic response to other agents is mediated through the H2-receptor and is associated with an increase in the intracellular level of cyclic AMP whereas histamine dependent enhancement of eosinophil migration to other agents appears to be mediated through the H1-receptor. Eosinophils behave as a heterogeneous population as assessed by the ability of histamine to augment or inhibit cell migration. This may reflect differences in H1 to H2 receptor density or cell responsiveness to receptor stimulation. The chemoattractant activity of histamine itself is not influenced by H1 or H2 receptor antagonists, thus it is possible that an eosinophil has a third type of histamine receptor.     

Iloprost (ZK 36374) modulates the responses to beta-adrenoceptor agonists in guinea-pig airways and pulmonary vasculature

The effect of iloprost on airway smooth muscles and its influence on the actions of beta-agonists and histamine were studied in the isolated perfused lung and isolated tracheal strips from guinea-pigs. Bolus injection of iloprost into the pulmonary artery elicited a concentration-dependent decrease in pulmonary perfusion pressure and an increase in airway resistance. These effects are not mediated through cholinergic, serotoninergic and histaminergic receptors. A rapid tachyphylaxis affected the effect of iloprost in airway resistance but not in pulmonary perfusion pressure. Iloprost did not induce a response in the isolated tracheal strips and did not alter the effect of histamine in both tracheal strips and airway resistance. This compound, however, caused an inhibition in the airway resistance-reducing effect of adrenaline and isoprenaline in the isolated perfused lung and a potentiation in the perfusion pressure-increasing effect of adrenaline. Iloprost also inhibited the relaxing effect of adrenaline and isoprenaline in the isolated tracheal strips precontracted with histamine and potentiated the inhibitory effect of propranolol against adrenaline and isoprenaline. From these results it was concluded that: Iloprost, a stable analogue of prostacyclin, modulates the beta-adrenoceptor blocking effect of propranolol in both airway smooth muscles and pulmonary vasculature.     

第三脑室注射组胺及其受体激动剂对五肽促胃液素诱导...

The present study shows the dual effects of intraventricularly injected histamine (0.25-2.0 micrograms/5 microliters) on pentagastrin-induced gastric acid secretion. Male Wistar rats weighing 200-300 g were anesthetized with intraperitoneal sodium pentobarbital. Gastric acid was continuously washed out with 37 degrees C saline solution by means of a perfusion pump. On the background of continuous intravenous infusion of pentagastrin [7.5 micrograms/(kg.h),] histamine (0.25 microgram/5 microliters) or 2-pyridylethylamine (PEA, 10 micrograms/5 microliters), a H1-receptor agonist, was injected into the third ventricle through a chronically implanted canula. The acid output decreased 10 min after injection and did not recover at 90 min. When the dose of histamine was increased to 1.0 micrograms or 2.0 micrograms, dual effects appeared. The acid output decreased respectively in 73% or 50% of the animals, while in the rest 27% and 50% of the animals, the acid output increased. H2-receptor agonist dimaprit (10 micrograms/5 microliters, i.c.v.) or impromidine (0.1 micrograms/5 microliters, i.c.v.) had no pronounced effect on pentagastrin-induced acid secretion. Pretreatment with diphenhydramine (16 micrograms/0.2 ml or 32 micrograms/0.2 ml, i.m.) abolished the inhibitory effect of histamine and PEA on acid secretion. These results suggest that histamine may be involved in the central regulation of gastric acid secretion, and the inhibitory effect may be mediated by H1-receptors in the brain. The mechanism underlying the production of the dual effects of histamine is unknown.     

Effect of antibiotics on immediate hypersensitivity reactions in vitro: suppression of IgE-mediated histamine release from peripheral blood basophils by fosfomycin

The effect of antibiotics on allergic reactions was studied in vitro using the release of histamine from human peripheral blood leukocytes (basophils) after incubation with anti-IgE. For the several antibiotics we tested, including beta-lactams and aminoglycosides, none had the capacity to enhance antigen-induced histamine release, but some of them (minocycline, polymyxin B, and fosfomycin) suppressed the release of histamine in a dose-dependent manner. Since fosfomycin has proved to be capable of suppressing IgE-mediated histamine release non-cytotoxically, the effect of fosfomycin on histamine release induced by other secretagogues was further studied. The suppression of histamine release was also demonstrated when the leukocytes, preincubated with fosfomycin, were challenged with either Ca ionophore A 23187 or a synthetic peptide, formyl-methionyl-leucyl-phenylalanine (FMLP). We concluded that some antibiotics, particularly fosfomycin, have the capacity to suppress histamine release mediated by various secretagogues, suggesting they may possess an anti-allergic property as well as a bactericidal activity.     

Effect of stimulation of dopamine and histamine receptors on spontaneous lymphocyte adhesion in vitro

With the help of spontaneous lymphocyte adhesion test the influence of dopamine and histamine on the adhesion of peripheral blood lymphocytes has been studied in healthy donors. It was shown that dopamine enhanced spontaneous lymphocyte adhesion, with the optimal concentrations of the substance for the realization of a stimulating effect being 10(-4)-10(-6) M. The effect of the enhancement was pharmacologically specific, as it was completely blocked by dopamine receptor-blocker--haloperidol. It was demonstrated that low concentrations of histamine (10(-7)-10(-8) M) enhanced, while higher concentrations (10(-6)-10(-3) M) inhibited lymphocyte adhesion. Dimedrol, but not cimetidine abolished the enhancement of spontaneous lymphocyte adhesion, while the adhesion inhibition was blocked by cimetidine, but not dimedrol. Thus, the revealed histaminergic enhancement and inhibition of spontaneous lymphocyte adhesion is mediated through the influence of histamine on H1- and H2-receptors, respectively.     

Further characterization of the receptors involved in the positive inotropic effect of histamine on rabbit papillary muscle

The effects of histamine on the force of contraction and calcium-dependent action potentials were studied in rabbit ventricular papillary muscles. The positive inotropic effect of histamine seems to be dependent on stimulation of H1 and H2 receptors. The H1 antagonist chlorpheniramine produced a competitive blockade of the positive inotropic effects of histamine. Cimetidine produced a competitive blockade, which was apparent only after blockade of H1 receptors. Histamine increased the maximum upstroke velocity of slow action potentials. This effect can be entirely accounted for by stimulation of H2 receptors. The phosphodiesterase inhibitor 3-isobutyl-methyl-xanthine potentiated the H2 receptor mediated effects of histamine on the force of contraction and slow action potentials. We conclude that rabbit ventricular muscle possesses both H1 and H2 receptors that mediate the positive inotropic effect of histamine. The H2-mediated effect seems to be causally related to an increase in the calcium slow inward current and is probably linked to an enhanced cellular cyclic adenosine monophosphate content. The mechanism of the H1-mediated positive inotropic effect remains unknown.     

Inhibition of IgE-mediated histamine release by myosin light chain kinase inhibitors.

Wortmannin, a specific inhibitor of myosin light chain kinase (MLCK) blocked IgE mediated histamine release from rat basophilic leukemia cell (RBL-2H3) and human basophils dose-dependently. Its IC50 was 20 nM for RBL-2H3 cells and 30 nM for human basophils. There was complete inhibition at the concentration of 1 microM. Wortmannin inhibited partially the A23187 induced histamine release from RBL-2H3 cells (40% inhibition at 1 microM). This inhibition was not accompanied by any significant effect on cytosolic free calcium concentration [( Ca2+]i). KT5926, another MLCK inhibitor, inhibited histamine release comparably with wortmannin and blocked to some degree the increase of [Ca2+]i in RBL-2H3 cells. Thus, the phosphorylation of myosin seems to be involved in signal transduction through Fc epsilon RI.     

Histaminergic effects on the isolated rat ovarian artery during the estrous cycle

Histamine may play a role in many of the events occurring in the ovarian tissue and leading to ovulation. To elucidate the histaminergic influence on the ovarian vasculature, the mechanical response of the isolated rat ovarian artery to histamine and histamine agonists was investigated. Histamine relaxed the precontracted vessel segments in a concentration-dependent way, amounting to 82.7 +/- 4.3% of the papaverine-induced relaxation. This relaxant effect was counteracted by both the H1 antagonist, pyrilamine, and the H2 antagonist, cimetidine. That the effect of histamine was mediated by both histamine receptor subtypes was further confirmed by the relaxant effect produced in the presence of either of the H1-specific agonists, 2-pyridylethylamine and 2-methylhistamine on the one hand, and the H2-specific agonists, impromidine and 4-methylhistamine on the other. The H1 receptor-induced relaxation was mediated via an effect on the endothelium, whereas the H2 receptor-mediated relaxation was mostly a direct effect on the smooth musculature in the vessel wall. No major differences in the mechanical response of the rat ovarian artery were seen during the different stages of the estrous cycle, although at late proestrus, just before ovulation, the maximum relaxation induced by histamine was particularly high, in spite of a low sensitivity of the receptors for the amine.