Central histaminergic stimulation of hyperlipemic response in rats under stress

In rats subjected to a mild stress of immobilization histamine, the H1-receptor agonist 2-pyridylethylamine (PEA), and the H2-receptor agonists 4-methyl histamine (4-MeHA) and impromidine administered intracerebroventricularly (i.c.v.) 1 h prior to stress, intensified the stress-induced increase in serum free fatty acid (FFA) levels. Impromidine was far more potent than histamine and its agonists in increasing hyperlipemia in stressed rats. The hyperlipemic response to histamine was abolished by i.c.v. pretreatment of rats with mepyramine, a H1-receptor antagonist, but was unchanged in rats pretreated with cimetidine or metiamide, H2-receptor antagonists. The increase in serum FFA levels induced in stressed rats by PEA was abolished by mepyramine but the hyperlipemic responses to 4-MeHA and impromidine were not antagonized by cimetidine. These results suggest that central H1-receptor mediate the histamine-stimulated hyperlipemic response in stressed rats.     

The antianaphylactic action of histamine H2-receptor agonists in the guinea-pig isolated heart.

The effects of histamine and of H1- and H2-receptor agonists on the response to specific antigen were studied in isolated hearts taken from actively sensitized guinea-pigs. Histamine and H2-receptor agonists (dimaprit, impromidine) dose-dependently decrease the positive chronotropic and inotropic effects, and the severity of arrhythmias evoked by the challenge of sensitized hearts with specific antigen. Nordimaprit and the selective H1-receptor agonist 2-pyridyl-ethyl-amine (2-PEA) did not modify the patterns of cardiac anaphylaxis. The positive inotropic and chronotropic responses of the isolated heart to exogenous histamine appear to be partly reduced in the presence of dimaprit. The H2-receptor agonists decrease the amount of histamine released during cardiac anaphylaxis which is increased by cimetidine, while nordimaprit and PEA were ineffective, indicating an inhibitory function afforded by H2-receptors in cardiac anaphylaxis.     

Impromidine is a partial histamine H2-receptor agonist on human ventricular myocardium.

The inotropic effects of impromidine have been studied and compared with those of histamine on human isolated left ventricular preparations stimulated at 1 Hz. Both drugs caused concentration-related increases in force of contraction and were of similar potency, although the maximum response to impromidine was markedly and significantly less than that to histamine. The positive inotropic responses of impromidine were inhibited by cimetidine 1 X 10(-5) M, consistent with histamine H2-receptor involvement. Impromidine 1 X 10(-4) M inhibited maximal responses to histamine to a level equal to the maximal impromidine response; however, impromidine did not inhibit responses to isoprenaline. Positive inotropic activity and inhibition of maximal responses to histamine occurred over a similar impromidine concentration-range. Impromidine displaced histamine concentration-response curves to the right, whereas mepyramine had no effect on responses to histamine. It is concluded that impromidine has positive inotropic activity on the human ventricle, that the response is mediated via histamine H2-receptors, and that impromidine is a partial agonist compared with histamine.     

Effect of H1 and H2 agonists on the chemiluminescence of human blood mononuclear cells induced by phytohaemagglutinin

Previous results have shown a dose-dependent inhibition of the phytohaemagglutinin-elicited chemiluminescent response by histamine on human peripheral blood mononuclear cells (PBMs). The aim of the present experiments was to investigate the receptor specificity of this histamine action. The order of effectiveness of different histaminergic agonists was 4-methylhistamine greater than histamine = impromidine greater than dimaprit much greater than 2-methylhistamine greater than 2-pyridylethylamine. Cimetidine inhibited and mepyramine enhanced this effect of histaminergic agonists. The results are consistent with the view that histamine inhibits the chemiluminescent reaction of PBMs via H2 receptors. Histamine in low doses (10(-8) to 10(-10) M) stimulated the chemiluminescent reaction. Cimetidine enhanced the chemiluminescence-facilitatory action of histamine and unmasked that of 2-pyridylethylamine. It is concluded that histamine is a possible humoral modulator of PBM activity: it is inhibitory via H2 receptors.     

Actions of betahistine at histamine receptors in the brain

The actions of betahistine (N alpha-methyl-2-pyridylethylamine) on brain histamine receptors were investigated in a series of biological models. [3H]Mepyramine binding to H1-receptors in membranes from guinea-pig cerebellum was inhibited by betahistine with a Ki value of 31 microM. The binding of [3H]mepyramine in brain of the living mouse was inhibited by betahistine in high dosages (150-300 mg/kg). In slices from mouse cerebral cortex, betahistine induced [3H]glycogen hydrolysis in a concentration-dependent manner with an EC50 value of 9.0 microM with a maximal effect 57% that of histamine. Mepyramine and triprolidine, two H1-receptor antagonists, inhibited the betahistine-induced glycogenolysis with Ki values of 28 nM and 7 nM respectively. In slices from guinea-pig hippocampus, betahistine stimulated the accumulation of cyclic AMP in the presence of 5 microM impromidine, a H2-receptor agonist. The maximal effect represented 22% of that elicited by histamine at the H1-receptor and the EC50 value was 32.4 microM. Mepyramine at 0.1 microM partially blocked the response to betahistine. Together these various observations indicate that betahistine is a partial agonist at cerebral H1-receptors. Finally, betahistine was not an agonist at histamine H3-autoreceptors but was a rather potent antagonist of the inhibitory effect of exogenous histamine on [3H]histamine release elicited by K+ depolarisation in slices from rat cerebral cortex (Ki = 6.9 microM).     

Enhanced alpha-adrenoceptor responsiveness and receptor number during global ischaemia in the Langendorff perfused rat heart.

1. Idioventricular rate responses and adrenoceptor number have been examined in normal Langendorff hearts perfused at 70 cmH2O and in 'ischaemic' hearts perfused at 10 cmH2O. 2. In hearts perfused at normal pressure, ventricular rate responses to phenylephrine in the presence of propranolol were biphasic with low concentrations of phenylephrine reducing, and high concentrations increasing, ventricular rate. Both responses were abolished in the presence of prazosin (100 nM). In hearts perfused at low pressure, the negative chronotropic responses to phenylephrine were no longer present and positive chronotropic responses were enhanced compared with those of control tissues. The number of ventricular [3H]-prazosin binding sites was also significantly increased during ischaemia. 3. Idioventricular rate responses to isoprenaline were depressed in ischaemic tissues compared with controls, but [3H]-dihydroalprenolol binding was not altered in these hearts. 4. The incidence and duration of arrhythmias which occurred during 30 min of global ischaemia and reperfusion were not significantly altered in the presence of 100 nM prazosin. 5. These results demonstrate that reducing the perfusion pressure of rat isolated hearts enhances alpha-adrenoceptor-mediated responses and increases alpha-adrenoceptor density. Whether the increase in alpha-adrenoceptor responsiveness during ischaemia is involved in arrhythmogenesis requires further investigation.     

Effects of ranitidine and cimetidine on experimentally induced ventricular arrhythmias in anaesthetized rats

The effects of two histamine H2-receptor antagonists, ranitidine and cimetidine, on ventricular arrhythmias induced by acute coronary artery ligation and by aconitine infusion were studied in pentobarbitone-anaesthetized rats. The changes in arterial blood pressure and heart rate were also observed. It was found that both drugs significantly reduced the incidence, and prolonged the time of onset, of ventricular tachycardia and ventricular fibrillation following acute coronary artery ligation; however, they did not significantly alter the incidence or time of onset of ventricular dysrhythmias caused by aconitine infusion. These findings further support the hypothesis that histamine release may contribute to the genesis of early ventricular arrhythmias resulting from acute myocardial ischaemia. Since the decreased blood pressure induced by coronary artery ligation was not significantly prevented by pretreatment with either histamine H2-receptor blocker, this suggests that histamine may not be responsible for the blood pressure changes during acute myocardial ischaemia.     

The use of molecular probes in the study of the action of histamine on macrophages

The effect of histamine on the expression in vitro of C2, factor B and C3 genes in murine resident peritoneal macrophages was investigated. By measuring the levels of specific mRNA and the amount of the biosynthetically labelled gene products, we found that histamine decreases the biosynthesis of C2 and factor B. However, histamine had virtually no effect on the biosynthesis of C3 in the same cells. To clarify the mechanism of these effects, the H1 agonists (2-pyridylethylamine (PEA)and 2-methylhistamine), the H2-agonists (impromidine and 4-methyl-histamine), the H1-antagonist (chlorpheniramine) as well as the H2-antagonist (cimetidine) were also tested. We found that the inhibitory effect of histamine on C2 and factor B is produced only through H2 receptors. With the combination of histamine agonists and antagonists an inverse effect via H1- or H2-receptors was determined on the biosynthesis of C3. H1-receptor stimuli enhanced, and the stimulation of H2-receptors inhibited, C3 biosynthesis. All effects were pretranslational since the same results were obtained on mRNA and protein levels.     

A comparative study with impromidine (SKF 92676), a potent agonist for histamine H2-receptors.

Histamine, dimaprit and impromidine caused a relaxation on the isolated cat tracheal muscle contracted by acetylcholine or serotonin. Mepyramine partially inhibited the relaxing effect of histamine without altering that of impromidine and dimaprit. Both impromidine and dimaprit produced a dose-dependent fall in perfusion pressure of the isolated perfused guinea-pig lung while histamine has a pressor effect in this preparation which reversed into a depressor one in the presence of mepyramine. Both dimaprit and impromidine also produced a fall in perfusion pressure and urine flow of the isolated perfused rabbit kidney. A rapid tachyphylaxis developed to the effect of impromidine in the kidney but not to dimaprit. A cross-tachyphylaxis was also observed between impromidine and dimaprit. The agonistic potency of impromidine was found to be very much higher than histamine and dimaprit. Metiamide has a competitive inhibitory effect against impromidine and dimaprit on the isolated perfused lung, kidney and tracheal muscle. It was concluded that impromidine is a very potent pure histamine H2-receptor agonist when compared with histamine and dimaprit on the investigated tissues.     

Histamine-induced inositol phospholipid breakdown in the longitudinal smooth muscle of guinea-pig ileum.

The characteristics of histamine-stimulated inositol phospholipid breakdown in slices of guinea-pig ileal smooth muscle and cerebellum have been investigated. In cerebellar slices the inhibition of the inositol phospholipid response to histamine by mepyramine was consistent with competitive antagonism of histamine H1-receptors. In slices of the longitudinal smooth muscle of guinea-pig ileum, mepyramine produced only a weak inhibition of the response to histamine, at concentrations up to 1 microM. This was in striking contrast to the potent competitive antagonism of the H1-mediated contractile responses obtained with mepyramine in this tissue. The H1-receptor antagonists (+)-chlorpheniramine and promethazine similarly had no effect on the EC50 value for histamine in guinea-pig ileum, while promethazine competitively antagonized the muscarinic receptor-mediated inositol phospholipid response in this tissue (Ka 3.6 X 10(7)M-1). Cimetidine, on its own, did not significantly inhibit the inositol phosphate accumulation elicited by histamine in ileum. In the presence of 0.2 microM mepyramine, cimetidine (0.1 mM) produced a small parallel shift of the histamine concentration-response curve (Ka 3 X 10(4) M-1). This inhibition, however, was not consistent with antagonism of an H2-receptor-mediated response. The effect of a range of histamine analogues on inositol phospholipid breakdown was determined. Dose-response curves were constructed and characterized in terms of the EC50, slope and maximal response attainable relative to histamine. The H1-agonists, N alpha,N alpha-dimethylhistamine, N alpha-methylhistamine, 2-pyridylethylamine and 2-thiazolyethylamine produced the largest accumulations of [3H]-inositol-1-phosphate. A very weak response was produced by the H2-selective agonist impromidine, while dimaprit (also H2-selective) was without significant effect. Mepyramine appeared to antagonize competitively the response to the H1-selective agonist 2-pyridylethylamine. This was in contrast to the data obtained with other H1-agonists, where mepyramine produced only a small dextral shift of the agonist curves at low agonist concentrations and an increase in the Hill coefficient. This was particularly striking in the case of 2-methylhistamine. The results suggest that an H1-receptor component in guinea-pig ileum, may coexist with a larger inositol phospholipid response to histamine which is independent of the activation of H1- or H2-receptors.     

The protective effect of H2-receptor activation against the duration of myocardial hypoxia/reoxygenation-induced ventricular fibrillation in sensitized guinea-pig hearts

Patients with high serum immunoglobulin E levels were reported to be protected against sudden death during acute myocardial infarction. The protection mechanism might be attributed to the facilitation of histamine release from sensitized mast cells; however, this remains to be clarified. In this study, we examined the influence of sensitization on ventricular fibrillation (VF) induced by myocardial hypoxia/reoxygenation (H/R). Guinea pigs were actively sensitized by subcutaneous injection of ovalbumin in Bordetella pertussis vaccine. Hearts isolated from non-sensitized and sensitized guinea pigs were subjected to 30-min hypoxia / 30-min reoxygenation using a Langendorff apparatus. The amount of histamine released in the sensitized guinea-pig hearts was elevated, and the duration of VF was found to be reduced. The treatment with a histamine H2-receptor antagonist inhibited the reduction of VF duration. Treatment of the non-sensitized hearts with the histamine H2-receptor agonist resulted in the decrease of VF duration to the same level as that in the sensitized hearts. In conclusion, these results suggest that the risk of sudden death during myocardial H/R may be attenuated in the sensitized hearts and that histamine H2-receptor activation due to the released histamine may be involved in the protective effect.     

Histamine-induced cyclic AMP accumulation in type-1 and type-2 astrocytes in primary culture.

Histamine-induced cyclic AMP (cAMP) accumulation was studied in purified primary cultures of type-1 and type-2 astrocytes from neonatal rat brain. Histamine induced remarkable cAMP accumulation in type-1 astrocytes in a dose-dependent manner (EC50 = 1.2 x 10(-5) M, Emax = 1100% of control). In contrast, histamine had no significant effect on cAMP accumulation in type-2 astrocytes. Famotidine, an H2-antagonist, dose-dependently inhibited histamine-induced cAMP accumulation in type-1 astrocytes (Ki = 3 x 10(-8) M), but mepyramine (10(-6) M), an H1-antagonist, had no effect. Dimaprit and impromidine, H2-agonists, stimulated cAMP accumulation, but 2-pyridylethylamine, an H1-agonist, did not stimulate it nor augment the H2-agonist-induced cAMP accumulation. These results indicate that (1) histamine induces cAMP accumulation in type-1 astrocytes but not in type-2 astrocytes, and that (2) histamine-induced cAMP accumulation in type-1 astrocytes is mediated by H2-receptors without significant augmentation via H1-receptors.     

Creatine phosphate and protection against reperfusion-induced arrhythmias in the rat heart

An isolated perfused working rat heart preparation was used to assess the effect of including creatine phosphate (10 mmol/l) in the perfusion fluid of hearts subjected to aerobic perfusion (20 min), regional ischaemia (15 min) and reperfusion (2 min). Creatine phosphate had no detectable effect upon pre-ischaemic, ischaemic or post-ischaemic contractile function, it also had no statistically significant effect upon myocardial tissue ATP content. However, creatine phosphate was found to afford striking protection against reperfusion-induced arrhythmias. The incidence of ventricular fibrillation was reduced from over 80% (13/16) in the control group to 10% in the creatine phosphate-treated group (P less than 0.001). Possible mechanisms underlying the anti-arrhythmic effects of creatine phosphate were investigated using isolated rat papillary muscles superfused with or without added creatine phosphate (10 mmol/l). During aerobic superfusion at 37 degrees C creatine phosphate did not cause any statistically significant changes in contractile (developed tension) or electrophysiological (dV/dtmax and action potential duration) indices. Creatine phosphate did however influence the extent to which hypoxia (10 min) and reoxygenation (10 min) altered tension and electrophysiological characteristics. It accelerated the hypoxia-induced decline in developed tension and also the reoxygenation-induced recovery of developed tension. Relatively small changes in dV/dtmax and action potential duration were observed during hypoxia and these rapidly normalized during reoxygenation. In general creatine phosphate acted to exacerbate any changes during hypoxia and accelerate the recovery during reoxygenation. While some of the electrophysiological changes observed would indicate an anti-arrhythmic effect, they were relatively small and perhaps insufficient to explain fully the potent anti-arrhythmic properties of creatine phosphate.     

The role of calcium in the cyclic AMP response to histamine in rabbit cerebral cortical slices.

The effect of calcium on the H1- and H2-receptor components of the cyclic AMP response to histamine in rabbit cerebral cortical slices has been investigated. Removal of calcium ions from the incubation medium during the preparation, preincubation and final incubation of brain slices significantly reduced the cyclic AMP responses to adenosine, histamine and the H2-selective agonist, impromidine. Removal of calcium ions from the incubation medium during only the final incubation with agonists did not influence the responses to adenosine, histamine, impromidine and the H1-selective agonist, 2-thiazolylethylamine. Final incubation of rabbit cerebral cortical slices in calcium-free buffer containing EGTA (1 mM) however, selectively reduced the cyclic AMP responses to the H1-agonists histamine and 2-thiazolylethylamine without affecting the response to impromidine or adenosine. These latter incubation conditions significantly reduced the maximal extent of the augmentation of impromidine- or adenosine-stimulated cyclic AMP accumulation produced by H1-receptor stimulation, without affecting the EC50 values of the H1-agonists. Calcium-free/EGTA conditions did not, however, alter the dose-response parameters for the response to the H2-agonist, impromidine. These data provide further evidence that the two histamine receptor systems affect cyclic AMP accumulation in rabbit cerebral cortical slices by different mechanisms.     

A study of the histamine H2-receptor mediating relaxation of the parenchymal lung strip preparation of the guinea-pig.

The relaxation produced by several H2-receptor agonists and forskolin was investigated on strips of guinea-pig lung parenchyma. Dimparit, 1 microM to 10 mM, 4-methyl histamine, 0.5 microM to 100 microM and impromidine, 10 nM to 1 microM, had no effect on the tone of the unstimulated strips of lung parenchyma but caused a dose-dependent relaxation of strips that were contracted by 2-pyridylethylamine (2-PEA), 15 microM. Forskolin, 10 nM to 4 microM, produced a dose-dependent relaxation of both the stimulated and unstimulated lung strips. The muscarinic antagonist atropine, 1 microM, and the beta 2-adrenoceptor antagonist propranolol, 10 microM, had no effect on the dose-response curve for dimaprit-induced relaxation of the lung strip. The dose-response curve for dimaprit was shifted to the right in a dose-dependent manner by increasing concentrations of a variety of H2-antagonists. Schild plots produced a straight line for all the H2-antagonists with slopes not significantly different from unity. The equilibrium dissociation constants for the H2-antagonists on the lung strip preparation were similar to those previously reported for inhibition of the chronotropic activity of histamine on guinea-pig right atria and inhibition of [3H]-tiotidine binding to homogenates of guinea-pig lung parenchyma.     

Hyperlipemic responses induced by centrally administered histamine H1- and H2-receptor agonists in rats

The H1-receptor agonist 2-pyridylethylamine (PEA), and the H2-receptor agonists dimaprit and impromidine administered intracerebroventricularly (i.c.v.) to conscious rats considerably increased the concentration of free fatty acids (FFA) in the blood serum. The hyperlipemic effect of PEA was abolished by mepyramine, a H1-receptor antagonist. Responses to dimaprit and impromidine were not antagonized by cimetidine. These results suggest that central H1-receptor stimulation elicits the hyperlipemic responses in rats. The role of central H2-receptors in this reaction is not clear.     

Evidence for presynaptic inhibitory histamine (H2) receptors in the rat hindquarter vasculature

Histamine released within walls of resistance blood vessels is suggested to mediate an active portion of baroreceptor-mediated neurogenic vasodilatation in skeletal muscle vasculature. Studies were undertaken to examine the possibility that histamine-mediated active vasodilatation could be effected, in part, by an inhibitory presynaptic action of histamine on vascular sympathetic varicosities. All experiments were conducted in constant-flow autoperfused rat hindquarters in which vasoconstrictor responses were evoked by sympathetic chain (L2-4) stimulation at varying frequencies or intraarterial norepinephrine (0.5 microgram) administration. Intraarterial histamine infusion resulted in a significant inhibition of nerve-stimulated hindquarter vasoconstriction, with the greatest reduction (20%) occurring at the 82.5-ng/ml/min dose. The inhibitory effect of histamine was not stimulation frequency dependent, and occurred when the vasoconstrictor responses to intraarterial norepinephrine and dilator responses to intraarterial nitroglycerin (1 microgram) were unaltered by the histamine infusions. The H2 agonist impromidine produced a significant inhibition of nerve-stimulated hindquarter vasoconstrictor responses without altering perfusion pressure responsiveness to either intraarterial norepinephrine or nitroglycerin. The magnitude of this inhibition of nerve-stimulated vasoconstrictor response was equivalent to or greater than that produced by histamine. The alpha 2-agonist clonidine produced a significant inhibitory effect on neurogenic vasoconstrictor responses with a maximum of 54%. Cimetidine infusion (10 mg/kg i.a.) essentially abolished the inhibitory effect of histamine on nerve-stimulated hindquarter vasoconstriction. These results are consistent with the existence of inhibitory presynaptic histamine receptors on sympathetic varicosities in the hindquarter vascular bed. Furthermore, evidence supports these inhibitory receptors being of the H2 class and the possibility that histamine-mediated active vasodilatation in rat hindquarters involves inhibitory presynaptic histamine receptors.     

The effects of endothelin-1 on ischaemia-induced ventricular arrhythmias in rat isolated hearts

We have shown previously that a small bolus dose of endothelin-1, given intravenously before coronary occlusion, exerts a marked antiarrhythmic effect in anaesthetised rats. The aim of the current study was to determine whether or not this is due to a direct effect of endothelin-1 on the heart by assessing the antiarrhythmic effect of endothelin-1 against occlusion-induced arrhythmias in rat isolated hearts. Rat isolated hearts were perfused in Langendorff mode (constant flow) and subjected to coronary artery occlusion for 30 min. Coronary perfusion pressure and a surface electrocardiogram (ECG) were monitored throughout the experiment. In the first series of studies, the effects of three 5-min infusions of endothelin-1 (0.1-10 nM), given prior to coronary occlusion, were assessed. A second series of hearts was given a single bolus dose of endothelin-1 (10 pmol) 5 min prior to ischaemia. A third series of experiments was performed using a modified (low K+) Krebs Henseleit solution to increase the incidence of ischaemia-induced ventricular fibrillation (VF). In these hearts, endothelin-1 (0.1 or 2 pmol) was administered as a bolus injection 5 min before ischaemia. Infusion of endothelin-1 prior to ischaemia did not modify the incidence or severity of arrhythmias at any of the concentrations used. Bolus administration of endothelin-1 (10 pmol) in hearts perfused with Kreb's Henseleit solution containing normal K+ (4.4 mM) was found to cause a small rise in coronary perfusion pressure, with no preceding depressor response. Under these conditions, endothelin-1 exerted only a very moderate reduction in arrhythmias, by reducing the arrhythmia count in the 21-30-min post-occlusion period. Furthermore, in hearts perfused with low K+ solution, bolus injection of endothelin-1, in a dose that either had no effect on coronary perfusion pressure (0.1 pmol) or produced a significant vasodilator effect with no significant pressor effect (2 pmol), had no effect on ventricular fibrillation. Thus, in concentrations that are sufficient to exert effects on the coronary vasculature, endothelin-1 fails to modify arrhythmias in an isolated heart preparation. These results suggest that the antiarrhythmic effects of endothelin-1 previously observed in vivo are not due to a direct effect on either the myocardium or the coronary blood vessels.     

Characterization of histamine receptors mediating the stimulation of cyclic AMP accumulation in rabbit cerebral cortical slices.

The characteristics of histamine-stimulated adenosine 3':5'-cyclic monophosphate (cyclic AMP) accumulation in slices of rabbit cerebral cortex have been investigated. The selective H2-receptor antagonists, cimetidine, tiotidine, metiamide and ranitidine appeared to antagonize the stimulation of cyclic AMP accumulation elicited by histamine in a competitive manner consistent with an interaction with histamine H2-receptors. The H1-receptor antagonist mepyramine (0.8 microM) produced only a weak inhibition of the response to histamine. The inhibition appeared to be non-competitive producing a decrease in the maximal response with little effect on the EC50 value. The specific H2-receptor agonist, impromidine, produced a maximum response of only 31 +/- 2% of that obtained with histamine. Studies with histamine and impromidine in combination indicated that impromidine was not acting as a partial agonist. 2-Thiazolylethylamine, a selective H1-agonist, produced only a weak response (EC50 approximately 1mM) yielding a relative potency with respect to histamine (= 100) of 2.5. In the presence of a supramaximal concentration of impromidine, histamine and 2-thiazolylethylamine further elevated the response to impromidine. In these conditions the relative potency of 2-thiazolylethylamine was increased to 59 (histamine = 100), a value which was comparable with that reported for H1-receptor-mediated contractions of guinea-pig ileum. The H1-receptor antagonists mepyramine, promethazine, triprolidine and chlorpheniramine competitively antagonized the potentiation of impromidine-stimulated cyclic AMP accumulation elicited by histamine and 2-thiazolylethylamine in rabbit cerebral cortex without affecting the response to impromidine alone. (+)-Chlorpheniramine was some 150 fold more potent than the (-)-isomer in this respect. Histamine and adenosine in combination had a much greater than additive effect on the accumulation of cyclic AMP in rabbit cerebral cortical slices. The potentiation of the adenosine response could be partially but not completely antagonized by either cimetidine or mepyramine. In the presence of H2-receptor blockade with 0.02 mM tiotidine, histamine elicited a significant potentiation (EC50 44 microM) of the response to adenosine. This response was antagonized competitively by mepyramine yielding a KB value of 0.05 microM similar to that obtained from inhibition of the potentiation of impromidine-stimulated accumulation of cyclic AMP (0.02 microM). These results suggest that there are two components in the response to histamine in rabbit cerebral cortical slices.(ABSTRACT TRUNCATED AT 400 WORDS)     

The role of endothelin in mediating ischemia/hypoxia-induced atrial natriuretic peptide release

The aim of the present study was to investigate the putative role of endothelin (ET) in mediating ischemia/hypoxia-induced ANP release utilizing exogenous ET-1 or ET receptor antagonists (BQ-123 or Bosentan). Isolated rat hearts with non-distended atria were perfused using a Langendorff apparatus and heart rate maintained constant via atrial pacing. Global ischemia was induced either by direct reduction in perfusion or by infusion of exogenous ET-1 (5 x 10(-10) M) for 30 minutes. Perfusion with the ET receptor antagonists, BQ-123 (10(-6) M) or Bosentan (10(-5) M) was initiated 10 minutes before onset of ischemia. Moderate or severe ischemia was induced by reduction (52-61% and 70-82%, respectively) in perfusate flow. Thirty minutes of ischemia/hypoxia (5% O2) was followed by 30 minutes of reperfusion/re-oxygenation. Both moderate and severe ischemia increased ANP release. BQ-123 and Bosentan did not affect basal or ischemia-induced ANP release. Exogenous ET-1 perfusion induced a late increase in ANP release (P < 0.01) that did not exceed the increase in ANP release associated with equivalent direct flow reduction. Hypoxia induced an 8-fold increase in ANP release rate. The ANP release rate returned toward basal levels after re-oxygenation. Bosentan, but not BQ-123, significantly attenuated (P < 0.01) hypoxia-induced ANP release. In conclusion, in this system, ANP release is stimulated by moderate (or severe) ischemia and severe hypoxia independent of change in atrial distension; endogenous ET does not mediate basal and ischemia-induced ANP release; and hypoxia-induced ANP release is partially modulated via interaction with endogenous ET.