Prostaglandin E2-mediated stimulation of mucus synthesis and secretion by rhein anthrone, the active metabolite of sennosides A and B, in the mouse colon

Rhein anthrone, the active metabolite of sennosides A and B, stimulated PGE2 release into the mouse colonic lumen. At 6.24 mg kg-1, it decreased net water and Na+ absorption significantly in the case of water, but could not reverse the net absorption in mouse ligated colon, although it enhanced net K+ secretion. Pretreatment with indomethacin diminished the effects of rhein anthrone except on K+ net secretion. Rhein anthrone or PGE2 markedly stimulated mucus secretion and synthesis in mouse ligated colon. The enhanced mucus secretion and synthesis induced by rhein anthrone were significantly suppressed by pretreatment with indomethacin. Our results have shown that the colonic secretion of water and electrolytes mediated by PGE2 is partly involved in the rhein anthrone-induced diarrhoea but that in mice, the mucoid diarrhoea induced by rhein anthrone results mainly from PGE2-mediated mucus synthesis and secretion in the colon.     

Glutamatergic regulation of histamine release from rat hypothalamus.

A microdialysis method was used to study the effects of glutamate on the in vivo release of histamine from the anterior hypothalamic area of rats anesthetized with urethane. Infusion of 1 mM glutamate through a microdialysis probe increased histamine release to about 150% of the basal release. Infusion of N-methyl-D-aspartate (NMDA, 0.1 mM) caused a similar increase. Glutamate-evoked histamine release was completely blocked by D-(-)-2-amino-5-phosphonopentanoic acid (AP5, 0.1 mM), a specific antagonist of NMDA receptors. AP5 alone also reduced histamine release to about 60% of the basal level. Infusion of tetrodotoxin (100 nM) reduced histamine release to about 30% of the basal release, but had no effect on glutamate-evoked release. These results clearly indicate that glutamate enhances histamine release through NMDA receptors located on histaminergic nerve terminals, and suggest that there is a tonic glutamatergic regulation of this release.     

Suppression of the purgative action of rhein anthrone, the active metabolite of sennosides A and B, by indomethacin in rats.

Rhein anthrone (12.48 mg kg-1) produces watery and mucoid diarrhoea approximately 20 min after intracaecal administration to rats. Pretreatment with the prostaglandin (PG) biosynthesis inhibitor indomethacin (10 mg kg-1, i.p.) only delayed and did not completely block the onset of the induced diarrhoea. Rhein anthrone stimulated PGE2 release into the rat colonic lumen and the increased release was depressed by indomethacin. Rhein anthrone also accelerated large intestinal transit and this acceleration could be partly inhibited by indomethacin, which was probably responsible for the delay in the onset of diarrhoea. Indomethacin prevented the enhanced water, K+ and mucus secretion and the reduced Na+ absorption in the colon which were induced by rhein anthrone. The net water secretion could not be reversed to net absorption and the mucus secretion was only slightly depressed by indomethacin. Thus, our findings suggest that other mechanisms, together with the PG-dependent mechanism, are involved in the purgative action of rhein anthrone in rats.     

Effects of senna and its active compounds rhein and rhein-anthrone on PAF formation by rat colon.

A single or a prolonged oral administration of senna (60 mg kg-1) to rats did not increase either colonic PAF (platelet activating factor) content or intraluminal release of acid phosphatase. A similar result was observed in the colonic tissue of rats perfused in-vitro with rhein (1-300 micrograms mL-1) or rhein-anthrone (1-300 micrograms mL-1). A single or prolonged administration of castor oil (2 mL) to rats increased both colonic PAF content and intraluminal release of acid phosphatase. Colonic tissue of rats perfused in-vitro with calcium ionophore A23187 (1 and 10 micrograms mL-1) formed large amounts of PAF and acid phosphatase. Since PAF can mediate intestinal damage and acid phosphatase is a marker of cellular injury, we conclude that senna and its derivatives, rhein and rhein-anthrone, are well tolerated in rats.     

Pharmacological investigation into the effects of histamine and histamine analogues on guinea-pig and rat colon in vitro.

The effects of histamine and specific histamine agonists has been examined on isolated longitudinal colon strips of guinea-pig and rat. Histamine and 2-pyridyl-ethylamine but not 4 methylhistamine produced a concentration-related contractile response in the guinea-pig colon. The H1-antagonist clemizole antagonized competitively the effect of histamine but the H2-antagonist ranitidine did not modify the dose-response curve to histamine in the guinea-pig colon. Atropine, hexamethonium, prazosin and propranolol failed to modify the contractile response to histamine. Tone induced with KCl in guinea-pig isolated colon was not modified by histamine agonists even in tissues pretreated with clemizole or ranitidine. Histamine and histamine analogues were without effect on the isolated longitudinal strip of the rat colon. It is concluded that histamine produced dose-dependent contractions of the guinea-pig colon due to direct activation of H1-histamine receptors. There is no evidence in favour of the existence of H2-histamine receptors in this preparation. The lack of effect of histamine agonists in rat colon strip argues against the existence of histamine receptors in this preparation.     

Synthesis and release of histamine studied on slices from rat hypothalamus.

In slices from rat hypothalamus, incubated in the presence of 3H-L-histidine (3H-L-His), the aminoacid was rapidly taken up by a saturable process, and partially converted into 3H-histamine (3H-HA). The overall conversion was prevented either by inhibitors of L-histidine decarboxylase or by aromatic aminoacids competing with L-His uptake. The synthesis process exhibited Michaelis--Menten kinetics with an affinity of the aminoacid not different from that for the decarboxylase in homogenates; however the Vmax in homogenates was more than 10 times higher than in slices. Depolarization of the slices by 50 mM potassium resulted in: (a) a calcium-dependent release of 3H-HA which was more marked than that previously reported for endogenous HA, (b) a significant acceleration in the rate of 3H-HA synthesis, which was characterized by an unchanged Km but a significantly elevated Vmax. The regulation of HA synthesis did not appear to depend on end-product inhibition since it was not midified by the addition of exogenous HA. The release of 3H-HA was followed by the accumulation of 3H-methylhistamine, which was enhanced by a monoamine oxidase inhibitor. Aminoguanidine, a diamine oxidase inhibitor, had no effect on catabolism. The involvement of mast-cells in the storage of a fraction of endogenous HA in hypothalamic slices was assessed by the significant releasing effect of compound 48/80. Hence, the data support the existence of two distinct HA stores in the brain: depolarization relases the amine and increases its synthesis, probably in neurones, whereas compound 48/80 releases it from a slowly turning-over store, probably in mast-cells.     

Potassium-induced release of tritiated histamine from rat brain tissue slices.

The release of exogenous histamine was studied by superfusing brain slices following incubation with the radiolabeled amine. Histamine was released in a calcium-dependent way by 40 mM potassium. This release was high in hypothalamus and striatum and low in hippocampus and cortex. Compound 48/80, a mast cell histamine releasing agent, also induced histamine release, but only from hypothalamic tissue slices. It is suggested that the potassium-induced release of accumulated exogenous histamine is mainly from glial cells.     

Apomorphine-induced inhibition of histamine release in rat peritoneal mast cells.

The apomorphine-induced inhibition of histamine release in rat peritoneal mast cells was studied by means of secretagogues stimulating different pathways of mast cell activation. Apomorphine inhibited the mast cell response to all releasing agents (lysophosphatidylserine plus nerve growth factor, compound 48/80, substance P, ATP, tetradecanoylphorbolacetate, melittin). The IC50 ranged from 4 microM to 24 microM at concentrations of secretagogues releasing 30-50% of mast cell histamine. However, the potency of the drug decreased at higher secretagogue concentrations. Mast cells, pretreated with apomorphine and washed, released little histamine upon stimulation. The secretory response could be partially restored on increasing the concentration of secretagogues. The results suggest that apomorphine affects a regulatory step controlling the terminal sequence of mast cell secretory activity. As indicated by the reduced potency of the drug, the control by the apomorphine-sensitive reaction loses efficiency under conditions of massive histamine release.     

Anthracycline-induced histamine release from rat mast cells

Comparisons were made of the ability of doxorubicin, daunorubicin, rubidazone and aclacinomycin A to release histamine from rat peritoneal mast cells. Preliminary in vitro experiments indicated that doxorubicin (10(-6) to 2.5 X 10(-4) M), in contrast to compound 48/80 and the calcium ionophore A23187, did not produce significant release under any condition tested when purified or unpurified rat mast cells were used. In in vitro experiments, released histamine was measured in the cell-free supernatant of peritoneal fluid of rats after intraperitoneal injection of the agents. The time course of doxorubicin-induced histamine release from the peritoneum was rapid, with maximal release occurring within 4 to 6 min. Dose-response curves of the 4 agents over the range 10(-5) to 3.3 X 10(-3) M revealed that all caused histamine release, with 10(-3) M concentrations of each causing maximal release of comparable magnitude to that produced by 9.5 X 10(-6) M A23187. Treated mast cells recovered from the peritoneal cavity showed degranulation and vacuolization when examined by electron microscopy. Increased vascular permeability by the Evans-blue test was also noted with all 4 agents, and zones were of comparable size after injection of the highest concentration of each agent. The results indicate that in vivo, doxorubicin, daunorubicin, rubidazone and aclacinomycin A cause a rapid release of histamine from rat mast cells and an increase in vascular permeability in rat sin. There also appeared to be a reasonable correlation between the blueing reaction and histamine release in the peritoneal cavity in that the doses that did not cause skin blueing also failed to cause histamine release. The lack of histamine release by doxorubicin from mast cell preparations in vitro suggests that alterations to the doxorubicin molecule or the presence of other critical substances may be necessary for this activity to commence.     

Synthetic polycations, polyethylenimines and polyallylamines release histamine from rat mast cells

The effects of synthetic polycations, which induce liposomal membrane fusion without inducing permeability changes, on histamine release from rat mast cells were investigated. Polyethylenimines and polyallylamines with various molecular weights released histamine from mast cells. Acetylated derivatives and triethylentetramine did not release histamine or serotonin from the cells. The histamine release induced by 10 micrograms/ml polyethylenimine with a molecular weight of 600 was inhibited by 1 mM dibutyryl cyclic AMP, but not by 1 MM 8-bromo cyclic GMP; 100 microM D-600, a calcium antagonist; or 30 microM W-7, a calmodulin inhibitor. In the presence of polyethylenimines with molecular weights of 600, 1,200 and 1,800, no detectable release of cytosolic lactate dehydrogenase was observed, indicating that histamine release induced by these polycations was not due to their cytotoxicity. The potencies of these polymers in inducing histamine release depended on their charges, but not on their degrees of polymerization. On the other hand, the actions of polyethylenimine with a molecular weight of 10,000 and polyallylamines with molecular weights of 3,000-4,000 and 10,000 in releasing lactate dehydrogenase were somewhat cytotoxic. These polycations did not induce serotonin release from rat platelets, suggesting that platelets have no coupling system of signal transduction by these polycations. Thus polycations seemed to interact with the mast cell membrane to induce histamine release, and the potencies of these polycations on mast cells seemed to differ from those of their effects on liposomes, which were examined previously.     

Adenosine enhances antigen-induced bronchoconstriction and histamine release in rat isolated lungs.

The effects of adenosine and some of its analogues on bronchoconstriction and mediator release were studied in isolated lungs of actively sensitized rats. Adenosine (ADO) and its analogues R-phenyl-iso-propyl-adenosine (R-PIA) and N-ethyl-carboxamide-adenosine (NECA), enhanced antigen-induced bronchoconstriction in a dose-dependent manner. The enhancement of anaphylactic bronchoconstriction by adenosine and its analogues was accompanied by a rise in histamine release. The observed rank order of potency for adenosine and analogues (NECA greater than or equal to R-PIA greater than ADO) did not permit an unequivocal classification of the adenosine receptor involved. Dipyridamole and S-(p-nitrobenzyl-6-thioinosine) (NBTI), both inhibitors of adenosine uptake, had no inhibitory influence on the adenosine-induced enhancement of anaphylactic bronchoconstriction. Therefore, this enhancement was likely to be mediated through an extra-cellular receptor. Theophylline inhibited the enhancement of anaphylactic bronchoconstriction by adenosine in a concentration-dependent manner, without affecting preformed mediator release.     

Sphingosine inhibition and promotion of histamine release from isolated rat mast cells.

Sphingosine inhibited the histamine release induced by antigen, compound 48/80 with and without calcium, and the combination of TPA and the ionophore A23187. The inhibition occurred in the concentration range 1-3 microM, where no sign of cytotoxicity was noted. Preincubation for 5-10 min was needed for inhibition, and the effect persisted after washing of the cells. No inhibition was found with optimal concentrations of the ionophore or with TPA present during the preincubation. Sphingosine in combination with suboptimal concentrations of the ionophore could induce a considerable histamine release. This response was dependent on energy and was potently inhibited by the flavonoid phloretin. After preincubation with TPA, sphingosine exerted a pronounced potentiation of the response to very low concentrations of the ionophore. The findings regarding inhibitory effects of sphingosine do not seem to be compatible with a selective action on protein kinase C. The ability to synergize with the ionophore and to potentiate the effect of preincubation with TPA resembles previous findings with palmitoylcarnitine and suggests that sphingosine can stimulate mast cells by activation of protein kinase C.     

Peptides and histamine release from rat peritoneal mast cells

Various vasoactive peptides were compared for their histamine releasing effects on rat mast cells. Neurotensin, substance P (SP), and kallidin were the most active natural peptides, followed by bradykinin; neurokinin A and B, bombesin, angiotensin and tuftsin were practically inactive. Several kinins and tachykinin-related peptides were tested in an attempt to characterize the receptors mediating histamine liberation. The order of potency of the kinins was the following: kallidin greater than [Tyr(Me)8]bradykinin = bradykinin greater than [desArg10]kallidin greater than desArg9-bradykinin, the same as that found in smooth muscle possessing receptors of the B2 type. Tachykinin-related peptides were potent stimulants and followed the order: [D-Tryp7,9,10]SP-(1-11) greater than [D-Pro2,D-Tryp7,9,10]SP-(1-11) greater than SP-(1-11) greater than SP-(1-9) greater than [D-Pro4,D-Tryp7,9,Leu11]SP-(4-11) greater than SP-(1-7) greater than SP-(4-11) greater than neurokinin A = neurokinin B, indicating that: (a) undecapeptide antagonists of SP behave as superagonists; (b) both N- and C-terminal portions of SP-(1-11) are essential for activity; and (c) receptors for the tachykinins mediating histamine release appear to be of the SP-P type.     

Mechanism of histamine release by alpha-chymotrypsin from isolated rat mast cells.

Alpha-chymotrypsin (CT) was modified chemically and physically by the treatments with diisopropyl fluorophosphate, L-(1-tosylamide-2-phenyl) ethylchloromethylketone, hydrogen peroxide and heat. After these treatments, CT lost or decreased both the enzymic activity and ability of releasing histamine from rat mast cells. Ca++ was essential for histamine release by CT, while it enhanced only slightly the enzymic activity. Process of histamine release by CT could be separated into two stages: CT-dependent but not Ca++-dependent, and Ca++-dependent but not CT-dependent. The activated state of mast cells produced by CT decayed rapidly at 37 degrees C in the absence of Ca++, but these cells responded to Ca++ by adding CT once again, suggesting reconstitution of cell membrane structure affected by CT. Isoproterenol, epinephrine, prostaglandin E1, and dibutyryl-cyclic AMP (0.01-0.1 mM) did not inhibit release of histamine induced by CT. Neither theophylline (0.01-0.1 mM) alone nor the combinations of these cyclic AMP-active agents with theophylline inhibited the release of histamine. But, in the presence of papaverine (0.01-0.1 mM) a marked, dose-dependent inhibition was observed. These data suggest that 1) release of histamine by CT from rat mast cells is causally related to its hydrolytic activity, 2) this activity causes a reversible change on mast cell membrane which probably facilitates Ca++-influx through the cell membrane, and 3) there are subtle differences among CT, compound 48/80 and antigens concerning the effect of cyclic AMP-active agents in histamine-releasing mechanisms in mast cells.     

Induction of histamine release from rat peritoneal mast cells by histatins.

Human salivary histatins (Hsts), which belong to a salivary polypeptide family, have potent antifungal activity against Candida albicans and Cryptococcus neoformans, and are expected to be useful as therapeutic reagents against Candida species. However, little is known about the effect of Hsts on host immune systems. Thus we conducted a series of in vitro experiments with rat mast cells to determine whether histatin 5 (Hst 5) or histatin 8 (Hst 8) has a histamine-releasing effect on mast cells. Both Hst 5 and Hst 8 induced histamine release from rat peritoneal mast cells in a dose-dependent manner (10(-9) to 10(-5) M). Hst 5 had a stronger releasing effect than Hst 8. The histamine release induced by Hst 5 (10(-6) M) was increased by the presence of 0.5 mM Ca2+, but decreased by 2mM Ca2+. Alternatively, the histamine release induced by Hst 8 (10(-6) M) was inhibited by the presence of Ca2+ (0.5 to 2 mM). These results suggest that Hsts have limited usefulness as therapeutic agents due to induction of histamine release from mast cells.     

Neuropeptide Y, peptide YY and C-terminal fragments release histamine from rat peritoneal mast cells.

1. Neuropeptide Y (NPY) and peptide YY (PYY) seem to act on at least two receptor subtypes, Y1 and Y2. The Y1-receptor requires the whole C-terminally amidated NPY/PYY molecule whereas the Y2-receptor in addition recognizes C-terminal fragments of the two peptides. The present study was designed to elucidate whether NPY and related peptides were able to release histamine from isolated peritoneal mast cells of the rat. 2. NPY, NPY 15-36, NPY 22-36, NPY 26-36 and desamido-NPY evoked a concentration-dependent release of mast-cell histamine. The pEC15 values for NPY 15-36 and NPY 22-36 were higher, while the pEC15 value for NPY 26-36 was lower than that for NPY. At the highest concentration tested (0.1 mM), NPY and its C-terminal fragments released between 30 and 40% of the total histamine content. At the same concentration desamido-NPY released about 20%. 3. PYY and PYY 15-36 also evoked a concentration-dependent release of mast-cell histamine. PYY was more effective than PYY 15-36 since, at 0.1 mM, PYY released about 33%, while PYY 15-36 released about 15% of the total histamine content. Pancreatic polypeptide (PP) and the Y1-receptor-selective agonist [Pro34]NPY were virtually inactive. 4. The effect profile of the NPY/PYY-related peptides suggests that they act on the mast cells by a mechanism that does not involve either of the receptor subtypes hitherto described.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of dantrolene on histamine release from rat peritoneal mast cells.

Dantrolene strongly and dose-dependently inhibited histamine release from rat peritoneal mast cells induced by anti-IgE. Dantrolene inhibited Ca(2+)-mobilization from intracellular Ca(2+)-store as well as histamine release in mast cells activated by anti-IgE, the effect on both these phenomena being closely correlated. These results suggested that the effect of dantrolene on histamine release from rat mast cell might be due to the inhibition of Ca(2+)-release from intracellular Ca(2+)-store.     

Identification of vimentin in rat peritoneal mast cells and its phosphorylation in association with histamine release.

Stimulation of rat peritoneal mast cells with histamine releasers, such as compound 48/80 and substance P, caused a similar pattern of protein phosphorylations: the molecular weights of the two major phosphorylated proteins were 45 kDa and 59 kDa. When rat mast cells permeabilized with beta-escin were exposed to Ca2+ at concentrations higher than 0.6 microM, phosphorylated proteins of identical molecular weight were also detected. By a radioimmunoprecipitation assay using anti-vimentin mouse monoclonal antibody, the 59 kDa protein was identified as vimentin, one of the intermediate cytoskeletal proteins. Moreover, it became apparent that the phosphoamino acid in phosphorylated vimentin was a serine residue. Sequential changes in vimentin phosphorylation were similar to that of histamine release elicited by histamine releasers: phosphorylation took place within 5 s of stimulation and reached a maximum within 10 s. When permeabilized mast cells were treated with calphostin C, a specific protein kinase C inhibitor, phosphorylation was markedly inhibited. Fluorescence images of mast cells stained with FITC-labelled anti-vimentin antibody showed filamentous structures surrounding the granules in the cytoplasm. However, after exposure to compound 48/80, the filamentous structures promptly disappeared and a dim fluorescence was observed homogeneously in the cell indicating that a rapid depolymerization of vimentin had taken place. From the present study, it became clear that when rat peritoneal mast cells were stimulated, vimentin was rapidly phosphorylated by protein kinase C and this phosphorylation process seems to be related to histamine release.     

Ischaemic preconditioning and mast cell histamine release: microdialysis of isolated rat hearts.

The aim of this study was to investigate the feasibility of intramyocardium kinetics of histamine release by microdialysis in the isolated rat heart and ascertain if the inhibition of histamine release is implicated in the antiarrhythmic effect of preconditioning. A 30 min normothermic global ischaemia model followed by 30 min reperfusion was carried out in the control group (n= 9). In the preconditioning group (n= 8) there was a 5 min global ischaemia followed by 10 min of reperfusion. A mast cell stabilizing group received the disodium cromoglycate ( 10 micro M, n= 10). The last group received a mast cell degranulator, compound 48/80 (1micro g ml (-1), n= 10). In the control group, the histamine release during reperfusion was significantly different from the basal concentration ( 18.4 +/- 6.5 vs 1.9 +/- 0.5 nM, P< 0.05) and was associated with a maximal period of severe arrhythmias. The ischaemic preconditioning modified the histamine release kinetics with an early mast cell degranulation ( 9.7 +/- 1.5 nM) and a significant decrease in the total period of severe arrhythmias in comparison with the control group ( P< 0.05). In the disodium cromoglycate group, the histamine release during reperfusion decreased ( 3.1 +/- 0.7 nM) and was associated with a maximal period of severe arrhythmias. In the C48/80 group, the increase in the histamine released during reperfusion ( 21.2 +/- 5.0 nM) was associated with a maximal period of severe arrhythmias. These results showed firstly the feasibility of kinetic histamine release in myocardium interstitial fluid on the isolated rat heart and secondly that the inhibition of histamine release did not play a direct role in the antiarrhythmic effect of preconditioning.