Pharmacological analysis of reactivity changes in airways due to acute inflammation in cats

Our recent in vitro studies on airways smooth muscles of the cat with turpentine oil inflammation showed the occurrence of a contractile response of tracheal preparations and a significant increase in the isometric tension of lung strips to histamine application. This study was aimed to establish whether histamine H2-receptors participated in the changed in vitro reactivity of the airways smooth muscles of cats suffering from experimentally induced airway inflammation. Pretreatment of control tracheal preparations, control and experimental groups of the lung strips by cimetidine did not change the character of the histamine response. Similarly, the amplitude of histamine relaxation, of the tracheal preparations partially contracted by carbachol was unchanged by experimental inflammation. Clemastine significantly shifted the histamine dose-response curves to the right in both groups of lung strips. However, significant differences in lung strip reactivity between control and experimental groups of cats were not eliminated. Our results do not support the role of histamine H2-receptors in the pathologically increased airway reactivity to histamine in vitro.     

Perfused bronchial segment and bronchial strip: narrowing vs. isometric force by mediators

When bronchial segments were perfused with Krebs solution at a constant pressure (5-6 cmH2O), the resistance rose exponentially with increasing concentrations of either carbachol or histamine in the lumen. The pressure-flow relationship was linear. Histamine and carbachol caused 43 and 47% muscle shortening, respectively, and produced the same maximum effect (Emax) because they both stopped perfusion. In bronchial strips the maximum isometric force or isotonic shortening to carbachol was more than twice that of histamine and the responses showed a plateau. There were no significant differences in sensitivities [negative log of the concentration producing half-maximal response (EC50)] to either carbachol or histamine in the strips (isotonic and isometric) and the segments perfused at constant pressure. When airway segments were perfused at a constant flow, however, responses plateaued and the sensitivities to carbachol and histamine were reduced more than tenfold compared with the strips [4.71 +/- 0.20 and 6.22 +/- 0.08 (SE) for carbachol in segments and isometric strips, respectively, and 3.92 +/- 0.13 and 4.94 +/- 0.11 (SE) for histamine]. We conclude that when segments are perfused at a constant pressure, airway closure occurs before maximal pharmacological activation, as seen in airway strips.     

Iloprost preserves kidney function against anoxia

Tissue protective activity of iloprost against anoxia was studied in the isolated perfused rabbit kidney. Addition of iloprost to the perfusion medium at concentrations between 10(-9)-10(-7) M attenuated the release of noradrenaline due to periarterial stimulation and decreased urine outflow. Iloprost also caused a concentration-dependent decrease in perfusion pressure. The potentiation by angiotensin II of the vasoconstriction due to periarterial stimulation and increase in urine volume were also decreased by further addition of iloprost into the medium. Iloprost at concentrations below 10(-7) M did not alter the vasoconstrictor effect of exogenously applied noradrenaline. UK 38 485, a powerful thromboxane A2 synthetase inhibitor, significantly suppressed the vascular but greatly potentiated the diuretic effects of angiotensin II. In kidneys exposed to anoxia for 24 hours in Krebs medium, the vascular and diuretic effects of angiotensin II and the release of noradrenaline due to periarterial stimulation were significantly diminished. In addition, interation between UK 38 485 and angiotensin II in both perfusion pressure and urine volume was also reduced after anoxia for 24 hours. On the other hand, no significant loss was observed in all investigated parameters measured in this study, in kidneys exposed to anoxia for 48 hours in the presence of iloprost. From these results it was concluded that iloprost preserves kidneys functionally against anoxia and possible mechanisms of this effect are discussed.     

Increased in vitro airway responsiveness in sheep following repeated exposure to antigen in vivo

We have studied the effect of repeated in vivo antigen exposure on in vitro airway responsiveness in sensitized sheep. Fourteen sheep underwent five biweekly exposures to aerosolized Ascaris suum antigen or saline. Following this exposure regimen, the animals were killed and tracheal smooth muscle and lung parenchymal strips were prepared for in vitro studies of isometric contraction in response to histamine, methacholine, prostaglandin F2 alpha, and a thromboxane A2 analogue. No alteration in tracheal smooth muscle responsiveness was observed between saline- and antigen-exposed tissue. In contrast, by use of lung parenchymal strips as an index of peripheral airway responsiveness, significant increases in responsiveness to histamine and a thromboxane A2 analogue (10(-6) and 10(-5) M) were observed in antigen-exposed tissue compared with saline controls. These results demonstrate that repeated antigen exposure in vivo selectively increase the responsiveness of peripheral lung smooth muscle to certain chemical mediators of anaphylaxis.     

Hypoxic pulmonary vasoconstriction during steady and pulsatile flow in ferrets

We examined the effects of hypoxia and pulsatile flow on the pressure-flow relationships in the isolated perfused lungs of Fitch ferrets. When perfused by autologous blood from a pump providing a steady flow of 60 ml/min, the mean pulmonary arterial pressure rose from 14.6 to 31.3 Torr when alveolar PO2 was reduced from 122 to 46 Torr. This hypoxic pressor response was characterized by a 10.1-Torr increase in the pressure-axis intercept of the extrapolated pressure-flow curves and an increase in the slope of these curves from 130 to 240 Torr X l-1 X min. With pulsatile perfusion from a piston-type pump, mean pulmonary arterial pressure increased from 17.5 to 36.3 Torr at the same mean flow. This hypoxic pressor response was also characterized by increases in the intercept pressure and slope of the pressure-flow curves. When airway pressure was raised during hypoxia, the intercept pressure increased further to 25 +/- 1 Torr with a further increase in vascular resistance to 360 Torr X l-1 X min. Thus, in contrast to the dog lung, in the ferret lung pulsatile perfusion does not result in lower perfusion pressures during hypoxia when compared with similar mean levels of steady flow. Since the effects of high airway pressure and hypoxia are additive, they appear to act at or near the same site in elevating perfusion pressure.     

Bronchodilator activity of atrial natriuretic peptide in guinea pigs

Atrial natriuretic peptide (ANP) produced concentration-dependent relaxation of isolated guinea pig tracheal chains contracted with histamine, serotonin, carbachol, and arachidonic acid. ANP was a full agonist. ANP was two- to three-fold less potent when compared with isoprenaline in relaxing histamine-, serotonin-, and arachidonic acid-contracted tracheal chains. However, ANP was 20-fold less potent than isoprenaline in relaxing carbachol-contracted tracheal chains. The relaxant potencies of isoprenaline and sodium nitroprusside were similar regardless of the agent used to induce the tone. ANP was less potent and efficacious than isoprenaline in inhibiting the serotonin-, histamine-, and carbachol-induced increases in pulmonary inflation pressure in pentobarbitone-anesthetized guinea pigs. Neither ANP nor isoprenaline inhibited the arachidonic acid-induced increase in pulmonary inflation pressure. ANP decreased and isoprenaline increased arterial pressure. The data suggest that ANP possesses limited bronchodilator activity especially in vivo.     

Glutamate receptors and the airways hyperreactivity

It is proposed the link between the hyperactivity of NMDA receptors and airway hyperresponsiveness. We investigated the effect of agents modulating the activity of NMDA receptors in the ovalbumin-induced airway hyperreactivity in guinea pigs. The airways hyperreactivity was influenced by the agonist (NMDA) and selective antagonist - competitive (AP-5) and non-competitive (MK-801) of NMDA receptors. Airway responsiveness to histamine or acetylcholine was evaluated in in vitro conditions. NMDA administration caused the increase of tracheal smooth muscle response in ovalbumin-induced hyperreactivity to acetylcholine. MK 801 as well as AP-5 provoked the decrease of reactivity mainly to acetylcholine in tracheal smooth muscle, while the former, non-competitive antagonist was more effective. We recorded more pronounced response in tracheal than in lung tissue smooth muscle with more considerable response to acetylcholine than to histamine. The results of experiments show the modification of airway smooth muscles responses by agents modulating the activity of NMDA receptors. They confirm the possibility of NMDA receptors participation in experimental airway hyperreactivity. The results enlarge information regarding the link of the inflammatory diseases and glutamatergic system.     

Role of histamine in acute oleic acid-induced lung injury

The action of histamine in oleic acid (OA)-induced injury was investigated using the isolated guinea pig lung perfused with blood-free media. OA infusion caused a significant increase in pulmonary arterial pressure, airway inspiratory pressure, lung weight, and protein flux across the alveolar-capillary barrier. These changes were dose dependent and caused injury regardless of the chemical form of OA (salt or free acid). Triolein (a neutral fat) infused at comparable emulsion particle size did not alter lung weight or bronchoalveolar lavage protein concentration in the perfused lung, suggesting that mechanical obstruction or emboli per se is not responsible for initiating early events in OA-induced injury. Infusion of OA caused a significant early histamine release into the venous effluent in the presence of aminoguanidine, a histamine catabolism inhibitor. Pretreatment with H1-receptor antagonists significantly attenuated OA-induced increase in lung weight and protein leak. These data support the link between OA-induced mast cell degranulation, histamine release, and OA-induced edema.     

Adrenergic reactions of sheep rumen in vitro

The alpha and beta-adrenergic responses of the isolated muscle of sheep rumen were analysed by pharmacodynamic methods after administration of alpha and beta-adrenergic agonists and alpha and beta-adrenergic antagonists. It was found that phenylephrine, and in a lower degree propranolol, stimulated contractions of isolated muscle of sheep rumen while adrenaline, noradrenaline, isoprenaline, phenoxybenzamine and regitine inhibited these contractions. Propranolol abolished the dilating (atonic) effect of catecholamines on the isolated muscles of sheep rumen and previous blockade of beta-adrenergic receptors with propranolol reversed the dilating effects of catecholamines. It is concluded that noradrenaline has an ambiceptor effect (similar to that of adrenaline) on the isolated muscle of the rumen.     

A comparative study of the effects of iloprost and PGE1 on pulmonary arterial pressure and edema formation in the isolated perfused rat lung model

Isolated lungs from male Wistar rats (250–350 g) were perfused at a constant flow rate (10 ml/min, non -recirculating) with Krebs-Ringerbicarbonate buffer containing 4.5 % bovine serum albumin, and were ventilated at a positive pressure (60 breaths/min). Pulmonary arterial pressure and lung weight (as a measure of edema formation) were recorded continuously. After an equilibration period of 20 minutes the various test compounds were added to the perfusion fluid and experimental recording was continued for another 60 minutes.The effects of the stable PGI₂-mimetic, iloprost, of PGE₁, and of the biologically active PGE₁-metabolite, 13,14-dihydro-PGE,, were evaluated in this model (n=6). Iloprost showed slight, but not significant vasodilation; however, lung weight remained unchanged. PGE₁ and 13,14-dihydro-PGE₁ also caused slight vasodilation, but in contrast to iloprost these compounds induced distinct pulmonary edema. The lung weight gain was discernible at concentrations of 2.8 × 10^-6 mol/1 (significant at 2.8 × 10^-5 mol/l; p 0.05) and was accompanied by increases in the wet-weight to dry-weight ratios. These findings were duplicated in a second set of experiments (n = 6) from which the same results were obtained.The results indicate that at high concentrations PGE, (and 13,14-dihydro-PGE₁), but not iloprost, can induce pulmonary edema in rats probably by increasing the permeability of the pulmonary vasculature.     

Epithelium-dependent regulation of airways smooth muscle function. A histamine-nitric oxide pathway.

The airway epithelium is responsible for the production of a number of arachidonic acid and non-prostanoid inhibitory factors. Epithelium synthesises nitric oxide (NO) which may be important in regulating the function of airways smooth muscles. We studied in vitro the effect of histamine (100 nM-100 microM) which increases the NO release on rabbit airway smooth muscles induced by 80 mM KC1 in the presence or not of 10(-5) Methylene blue (MB) (inactivator of guanylate cyclase) or N(G)-monomethyl L-arginine (L-NMMA), a NOS inhibitor. All experiments were done in tracheal muscle strips from 28 rabbits with epithelium and after epithelium removal. The additional use of histamine (1 microM) on KC1 contraction induced a relaxation of 10% of the initial contraction. The additional use of L-NMMA decreased the relaxation to 5% of initial contraction. MB rather than L-NMMA increased the contraction significantly (p<0.01). Epithelium removal increased the contraction induced by KC1 (80 mM) and histamine (1 microM) by about 30% (p<0.001). NO release especially from epithelium regulates the airways smooth muscle functions. Damage to the epithelium may contribute to an increase in airways sensitivity, observed in asthma.     

Enhancement of isolated airway responses to bronchoconstrictive agonists by the slow-reacting substance of anaphylaxis antagonist FPL 55712

The activity of the SRS-A antagonist FPL 55712 against histamine, carbachol and ion-induced contraction of isolated airway smooth muscle was evaluated. FPL 55712 enhanced responses of guinea-pig trachea and parenchymal lung strips to histamine and carbachol. Enhancement was not obviously related to concentration. It is suggested that this effect may be the result of cyclo-oxygenase inhibition by FPL 55712. These observations may account for some of the anamalous findings regarding the antagonism of leukotrienes by FPL 55712 previously reported.     

The effect of verapamil is reduced in isolated airway smooth muscle preparations lacking the epithelium

The effect of epithelium removal on the reactivity of rabbit airway smooth muscle to bronchoactive agents and on the effect of verapamil was studied in vitro using preparations from several levels within the respiratory tree, i.e., trachea, primary (10) and secondary (20) bronchus. Methacholine contracted tissues from all three levels of airway. Histamine contracted strips from 20 bronchus, had an inconsistent action in strips from 10 bronchus and was without effect in tracheal preparations. K+ contracted tissues from the trachea and 10 bronchus, and had a mixed action in 20 bronchial strips. Removal of the epithelial cell layer variably affected the reactivity of the smooth muscle to the three agents studied. In 20 bronchus, epithelium removal potentiated responses to histamine and methacholine. In 10 bronchus, only responses to methacholine were consistently augmented. In tracheal preparations epithelium removal did not alter the reactivity of the tissue to any agent examined. Verapamil (1 microM) attenuated responses to all agents and increased in its potency from tracheal through 10 to 20 bronchial preparations. Following epithelium removal, verapamil was substantially less effective in 20 bronchi, yet its effects were unchanged in the trachea. The results indicate that the epithelial cell layer modulates airway smooth muscle reactivity; this phenomenon is apparently widespread in mammals, the modulatory effect is more prominent in the smaller airways, and the magnitude of the effect of verapamil on airway smooth muscle is, in part, related to the presence of the epithelium.     

Biological activities of prostaglandin H1 analogs

The influences of epoxymethano and epoxycarbonyl analogs of PGH1 on washed rabbit platelets, isolated smooth muscles and perfused heart preparations were investigated. On washed rabbit platelets, 11,9-epoxymethano and 11,9-epoxycarbonyl PGH1 produced a platelet aggregation whereas 9,11-epoxymethano and 9,11-epoxycarbonyl PGH1 produced an inhibition of arachidonic acid-induced platelet aggregation. On iso-ated rabbit thoracic aorta strips, 9,11-epoxycarbonyl PGH1 showed strong contracting activity (5 times as active as 11,9-epoxymethano PGH2 and 31 times as active as PGH2). All the analogs of PGH1 caused contraction of guinea pig tracheal muscle and caused an increase of perfusion pressure in guinea pig heart, though 11,9-epoxymethano and epoxycarbonyl PGH1 were far more active than 9,11-epoxymethano and epoxycarbonyl PGH1. Differences in biological activities between 11,9-epoxymethano and epoxycarbonyl PGH1 indicate that the orientation of functional groups at C9 and C11 influences biological activities.     

Antagonistic effect of KC-404, a new anti-asthmatic agent, on leukotriene D4-induced contractile responses in isolated guinea pig smooth muscles

The inhibitory effects of KC-404, a novel clinically available anti-asthmatic drug, on leukotriene(LT) D4-, LTC4-, histamine- and acetylcholine(ACh)-induced contractile responses in isolated guinea pig lung parenchymal, tracheal and ileal longitudinal strips were compared using an organ bath system. In lung parenchyma, KC-404 antagonized LTD4 in a competitive fashion, whereas it antagonized histamine noncompetitively. The pA2 value against LTD4 was 7.39. KC-404 hardly antagonized LTC4 and ACh. A ranked order of potency estimated from its minimum effective concentrations (MEC) was LTD4 greater than histamine greater than LTC4 greater than ACh. In trachea, KC-404 antagonized LTC4 and LTD4 in a competitive fashion, while it antagonized histamine noncompetitively. The pA2 values against LTC4 and LTD4 were 5.99 and 6.51, respectively. KC-404 hardly antagonized ACh. A ranked order of the potency estimated from MEC was LTD4 greater than LTC4 greater than histamine greater than ACh. The pA2 values of KC-404 against LTD4 in lung parenchyma and trachea were little or not altered, while its inhibitory effect on histamine-induced contraction in trachea was markedly diminished by the pretreatment of tissues with indomethacin. In ileum, KC-404 noncompetitively antagonized all of the agonists used. A ranked order of the potency estimated from pD2 values was LTD4 divided by LTC4 greater than histamine greater than ACh. These results suggest that KC-404 is a selective antagonist of LTD4 and that it might interact with LTD4 receptor in airway smooth muscles but not in ileum. Another possibility that the drug might interact with LTD4 specific excitation-contraction coupling mechanism was also discussed.     

The effects of catecholamines on tritiated water influx and the branchial vasculature of the European eel,Anguilla anguilla L.

Summary Tritiated water (HTO) influx across isolated, perfused eel gills was investigated. This flux was unaffected by large changes in the perfusion pulse pressure and the perfusate flow rate. Adrenaline (in summer months), noradrenaline and isoprenaline produced significant (P<0.01) increases in the rate of HTO influx and reduced vascular resistance. Adrenaline, during winter months, increased vascular resistance, but still produced a rise in the rate of HTO influx. Prenalterol reduced, and phenylephrine increased vascular resistance without changing the rate of HTO influx. The promotion of influx appeared to be mediated via beta-adrenoceptors, and could be antagonised by propranolol.     

Histamine H2-receptors in guinea pig peripheral airway smooth muscle.

The presence and function of histamine H₂-receptors in guinea pig lung was studied using lung strips as an in vitro model of peripheral airway smooth muscle. The lung strips were incubated in Krebs-Henseleit solution in the absence or presence of specific antagonists for 20 min prior to the addition of either histamine or dimaprit added in a half-log cumulative fashion. Changes in isometric tension were recorded. Histamine at low concentrations (10^?7?10^?6M) caused a slight relaxation which was potentiated by the histamine H₁-antagonist chlorpheniramine (10^?7 or 10^?6M) and abolished by the histamine H₂-antagonist metiamide (10^?4M). Higher concentrations of histamine produced a dose-related contraction which was antagonized competitively by chlorpheniramine or potentiated by metiamide. Dimaprit, a histamine H₂-agonist, produced only a relaxant response over the concentration range of 10^?7 ? 10^?3M. This relaxation was reduced by metiamide but not by the beta adrenergic antagonist propranolol. These results indicate the presence of both histamine H₂ and H₁-receptors in guinea pig peripheral airway smooth muscle which mediate the relaxant and contractile effects of histamine respectively.     

Effect of hypoxia on responses of respiratory smooth muscle to histamine and LTD4

The aim of the present study was to compare the effect of reduced oxygenation on the contractions of pulmonary vascular and airway smooth muscle induced by leukotriene D4 (LTD4) with those induced by histamine (an agonist with similar mechanisms of smooth muscle contraction) and KCl (a voltage-dependent stimulus). During hypoxia (PO2: 40 +/- 4 Torr) the responses of isolated porcine pulmonary artery and vein spiral strips to LTD4 increased approximately three- and two-fold, respectively, and the vein also exhibited an augmented response to histamine. The augmentation was blunted (LTD4) or reversed (histamine) during anoxia (PO2: 0 +/- 2 Torr). Responses to KCl were not systematically altered by reduced oxygenation. In contrast, the contractions of the guinea pig parenchymal lung strip by all three agonists were generally suppressed by reduced oxygenation. After reoxygenation, the contractile responses of each of the three smooth muscle preparations were generally increased compared with previous and concurrent base-line observations, particularly the LTD4-induced pulmonary vein contraction that increased approximately sevenfold after reoxygenation after anoxia. The contribution (if any) of leukotrienes to hypoxic pulmonary vasoconstriction may reflect increased vascular responsiveness to leukotrienes during hypoxia as well as (or instead of) increased leukotriene release.     

哮喘豚鼠肺内ADM表达变化及对离体气管条张力的作用

目的：通过观察肾上腺髓质素（ADM）mRNA在豚鼠哮喘模型肺内的表达及对哮喘豚鼠离体气管条张力的影响,研究ADM在支气管哮喘（简称哮喘）发病机制中的作用。方法：用原位杂交方法检测ADM mRNA在豚鼠哮喘模型肺内的表达,用组胺诱导豚鼠离体气管条收缩后,观察不同浓度的ADM对其收缩作用影响。结果：原位杂交结果显示正常及哮喘豚鼠肺内均有ADM mRNA的表达,但哮喘组较正常组明显增多（P＜0．05）,ADM可抑制组胺诱导的哮喘豚鼠离体气管条的收缩,并呈量效关系,当浓度达10^-8mol/L时抑经达到最大,而且即使加大ADM的浓度,抑制率未继续明显增加,并对致敏气管螺旋条的舒张作用明显大于正常气管螺旋条。结论：哮喘时,肺内ADM mRNA的表达明显增多,ADM可抑制组胺诱导的豚鼠离体气管条的收缩,浓度为10^-8mol/L时抑制率达到最大。提示ADM在哮喘发病过程中起重要作用。     

O3-induced airway hyperresponsiveness to noncholinergic system and other stimuli.

The effect of O3 exposure (3 ppm, 1 h) on the in vivo and in vitro airway responsiveness, as well as the changes in cell contents in bronchoalveolar lavage (BAL) fluid, were evaluated 16-18 h after O3 exposure in sensitized and nonsensitized male guinea pigs. The sensitization procedure was performed through repeated inhalation of ovalbumin for 3 wk. Increase in pulmonary insufflation pressure produced by the excitatory nonadrenergic noncholinergic (eNANC) system, histamine, and antigen were assessed in in vivo conditions, whereas airway responsiveness to histamine and substance P was evaluated in in vitro conditions by use of tracheal chains with or without epithelium and lung parenchymal strips. We found that O3 exposure 1) increased the neutrophil content in BAL fluids in both sensitized and nonsensitized guinea pigs, 2) caused hyperresponsiveness to eNANC stimulation in nonsensitized guinea pigs (although combination of sensitization and O3 exposure paradoxically abolished the hyperresponsiveness to eNANC stimulation), 3) increased the in vivo bronchoconstrictor responses to histamine and antigen, 4) caused hyperresponsiveness to substance P in nonsensitized tracheae with or without epithelium and in sensitized tracheae with epithelium, 5) did not modify the responsiveness to histamine in tracheae with or without epithelium (and in addition, epithelium removal caused hyperresponsiveness to histamine even in those tracheae exposed to O3), and 6) produced hyperresponsiveness to histamine in lung parenchymal strips either from sensitized or nonsensitized guinea pigs.