Effects of immunological sensitization on the responses and sensitivity of guinea pig airways to bronchoconstrictors. Modulation by selective inhibition of arachidonic acid metabolism

The force generated by tracheal spirals and lung parenchymal strips from normal and ovalbumin-sensitized guinea pigs was measured in vitro, after challenge with histamine, carbachol, leukotriene (LT) C4, LTD4, or a prostaglandin endoperoxide analog (U-44069). The responses and sensitivity of airway tissues to the above agonists were identical in normal and sensitized animals. Treatment of tracheal spirals with indomethacin (8.5 microM), phenidone (185 microM), and nordihydroguaiaretic acid (NDGA: 30 microM) reduced resting tension (tone) equally in both normal and sensitized trachea, but did not affect lung parenchymal strips from either group. The responses of tracheal spirals from normal and sensitized animals to low concentrations of histamine, carbachol, LTC4, and LTD4 were reduced or abolished by treatment with the above inhibitors. Responses to higher concentrations of the same agonists were significantly enhanced. In contrast, treatment of normal and sensitized trachea with indomethacin (2.8 and 8.5 microM) did not abolish or reduce the effects of low concentrations of U-44069. However, an enhancement of the effect of high concentrations occurred only on normal tracheal spirals, even though the control tissues from each group responded identically with U-44069 in the absence of any inhibitor. Parenchymal strips increased in sensitivity to histamine, but not carbachol, as a result of time, vehicle, or prior exposure to the drug. Inhibitor treatment did not affect sensitivity or responsiveness of parenchyma to histamine, carbachol, and U-44069, but the contractile activity of LTD4 on both normal and sensitized lung parenchymal strips was reduced by indomethacin, NDGA, and phenidone. We conclude that ovalbumin sensitization does not induce hyperreactivity of guinea pig airways.     

Stimulation frequency-dependent nonadrenergic noncholinergic airway responses of the guinea pig

We examined the inhibitory and excitatory components of the nonadrenergic noncholinergic (NANC) innervation of the guinea pig airways by in vivo and in vitro methods. Electrical stimulation of the vagus in chloralose-urethan-anesthetized guinea pigs after cholinergic and adrenergic blockade produced peripheral airway constriction (insufflation pressure) and tracheal relaxation (pouch pressure). Vagal stimulation was applied for 90 s at 5-V pulses of 2-ms duration at frequencies of 5, 15, 25, and 35 Hz in each group (n = 6). The pouch relaxation peaked at 15 Hz. The insufflation pressure was highest at 5 Hz. Field stimulations of the same frequencies were applied on tracheal spirals and lung parenchymal strips. The maximal relaxation of the trachea occurred at 15-35 Hz. The lung parenchymal strip tensions increased almost linearly as the frequency increased from 5 to 35 Hz. The results of the study indicated a frequency-dependent response for both excitatory and inhibitory components of the NANC, which operate at different frequencies for optimal responses.     

A novel anti-asthmatic quinone derivative, AA-2414 with a potent antagonistic activity against a variety of spasmogenic prostanoids

The anti-asthmatic activity of AA-2414 [(+/-)-7-(3,5,6-trimethyl-1,4-benzoquinon-2-yl)-7-phenylheptano ic acid] has been studied in vivo and in vitro. Experimental allergic asthma was inhibited by orally administered AA-2414 in a dose-dependent manner. AA-2414, 0.08-1.25 mg/kg (p.o.), inhibited the bronchconstriction in guinea pigs induced by a prostaglandin endoperoxide analogue (U-46619), leukotriene D4 (LTD4), and platelet activating factor (PAF) with a long duration of action. The compound did not inhibit histamine-induced bronchoconstriction. AA-2414 reduced the induction of pulmonary inflation caused by LTD4 aerosol inhalation. AA-2414 competitively inhibited the contractile response to U-46619 in guinea pig tracheal and parenchymal strips and dog saphenous vein strips with pA2 values of 7.69, 8.29 and 6.79, respectively. Furthermore, the contractile responses of guinea pig tracheal strip to PGD2, 9 alpha, 11 beta-PGF2 and PGF2 alpha were inhibited with pA2 values of 7.20, 7.79 and 5.71, respectively. These results suggest that AA-2414, a quinone derivative, is a novel, potent and orally active antagonist of a variety of spasmogenic prostanoids.     

Effect of Desmodium adscendens fractions on antigen- and arachidonic acid-induced contractions of guinea pig airways

Three fractions (n-butanol, F2, and L5), isolated from an aqueous extract of Desmodium adscendens, a plant used in Ghana for the management of asthma, were evaluated for their pharmacological activity using ovalbumin and arachidonic acid-induced contractions of guinea pig airways. All three fractions inhibited the ovalbumin-induced contractions of indomethacin-pretreated tracheal spirals from sensitized animals dose dependently, but only L5 and n-butanol inhibited such contractions in the absence of indomethacin. The concentrations required to inhibit ovalbumin-induced contractions of lung parenchymal strips were threefold higher than with trachea. The contractile response over a 60-min period was divided into three phases. F2 and n-butanol inhibited all phases, whereas L5 inhibited only the late phase. n-Butanol and L5 inhibited arachidonic acid-induced contractions on indomethacin-pretreated tracheal spirals, a leukotriene-dependent reaction. There was no inhibition of arachidonic acid-induced contractions of lung parenchymal strips, which is largely a thromboxane-dependent reaction. The results suggest that D. adscendens contains several pharmacologically active substances that can inhibit allergic airway smooth muscle contraction at multiple sites, including the synthesis and (or) activity of the bronchoconstrictor leukotrienes.     

Pharmacology of peptide leukotrienes on ferret isolated airway smooth muscle

The contractile activities of peptide leukotrienes (LT) on isolated spiral strips of ferret trachea were characterized pharmacologically. LTC4 and LTD4 contracted ferret tracheal strips in a concentration-related manner and were 3- to 8-fold more potent than carbachol. In contrast, high concentrations of LTE4 evoked either weak contractions or none at all, whereas LTC4 and D4 were partial agonists compared to carbachol. In tissues which were unresponsive to LTE4, this compound antagonized contractile responses to LTC4 and D4 in an apparently competitive manner: Carbachol-induced contractions were not altered by LTE4. The cyclooxygenase inhibitor, indomethacin (5 microM), LT antagonist, FPL55712 (10 microM), atropine (1 microM), phenoxybenzamine (10 microM), and LTB4 (10 microM) failed to alter LTC4 and D4 concentration-response curves. The results indicate that ferret trachea is sensitive to the contractile activity of LTC4 and LTD4 but not LTE4. The LT-induced contractions appear to be mediated by a direct action of the LT rather than indirectly through release of secondary mediators such as thromboxane, prostaglandin, or acetylcholine. LT receptors in ferret trachea are insensitive to FPL55712 but are antagonized by LTE4.     

Evidence for A1 and A2 adenosine receptors in guinea pig trachea

The adenosine analogs [5'-N-ethylcarboxamideadenosine (NECA), 2-Chloro-adenosine (2-ClA), R-phenylisopropyladenosine (R-PIA), N6-cyclohexyl adenosine (CHA), and N6-cyclopentyladenosine (CPA)] produced both relaxation and contraction responses in isolated guinea-pig trachea. A concentration-related relaxation response was observed in trachea which were precontracted with either histamine or KC1. This response followed an order of analog potency that was indicative of the A2 receptor subtype (NECA greater than 2-ClA greater than R-PIA greater than CPA greater than CHA). Theophylline, an adenosine-receptor antagonist, blocked this relaxation response. In addition, a concentration-related contractile response was produced with adenosine analogs in those trachea that were not previously contracted. In contrast, the contractile response followed an analog potency indicative of the A1 receptor subtype (R-PIA greater than 2-ClA = CPA = CHA). This contractile response was not mediated by cholinergic, adrenergic or histaminergic receptors. 2-ClA induced a biphasic response, while NECA only relaxed these tissue under basal tone. Unlike the relaxation response, these contractile responses were not attenuated by theophylline, but were blocked by 1,3 dipropyl-8-(2 amino-4-chlorophenyl)xanthine (PACPX). These findings confirm the existence of two subpopulations of adenosine receptors in guinea pig trachealis muscle.     

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。     

Comparison of Functional β-Adrenoceptor Heterogeneity in Central and Peripheral Airway Smooth Muscle of Guinea Pig and Man

Abstract

The nature of the β-adrenoceptor population(s) mediating the relaxation of guinea pig and human airway smooth muscle was investigated. On the basis of a preferential blockade by β₁ and β₂ selective antagonists of the relaxation induced by β₁ and β₂- selective agonists, guinea pig tracheal strip relaxation was found to be mediated both by β₁ - and β₂ - adrenoceptors, the relative participation of which depending on the relative affinities of the agonist towards these two receptors. With highly selective antagonists the noradrenaline(NA)-induced relaxation could be split up biphasically into a β₁- and a β₂ - component. In contrast, no such differential blockade was observed with the guinea pig lung parenchyma strip relaxation which is mediated by a homogenous β₂ -adreno-ceptor population. On comparison of the tracheal, the spirally cut main bronchus- and intrapulmonary airway smooth muscle strips it could be shown that both the sensitivity of NA for neuronal uptake and the apparent affinity of the relaxation by NA decreased in the direction of the lung periphery. Using the same techniques it was ascertained that the relaxation of human tracheal smooth muscle (autopsy, obtained within 6 hours after death), main bronchus and intrapulmonary smooth muscle (operation) are mediated by homogenous β₂ -adrenoceptor populations. In addition, neuronal and extraneuron-al uptake sites were not operative in these preparations, whether obtained from operation or from autopsy.     

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 bronchodilator acitivity of an 11-deoxyprostaglandin (AY 23 578).

The bronchodilator activity of AY-23 578 was studied in vivo and in vitro techniques. In the conscious guinea pig, aerosols of AY-23 578, prostaglandin (PGE2) E2, and isoproterenol afforded significant protection against histamine-induced convulsions. In the anesthetized guinea pig, where changes in tracheal pressure were taken as an index of bronchoconstriction, AY-23 578, PGE2, and isoproterenol were equipotent in inhibiting the bronchoconstriction induced by histamine. AY-23 578, PGE2, and isoproterenol reduced or prevented neostigmine-, prostaglandin F2alpha- or carbachol-induced increases in pulmonary resistance, and decreases in dynamic compliance in the anesthetized cat. The activities of the former two compounds were qualitatively similar but less potent than isoproterenol. In both the guinea pig and the cat, the aerosol administration of effective bronchodilator doses of AY-23 578 did not exhibit any significant cardiovascular effects. Both AY-23 578 and PGE2 caused relaxation of the isolated guinea pig tracheal strip; PGE2 was about six times more potent than AY-23 578. It is concluded that AY-23 578 is an effective bronchodilator in both the guinea pig and cat.     

Identification of key residues that cause differential gallbladder response to PACAP and VIP in the guinea pig

Pituitary adenylate cyclase-activating polypeptide (PACAP) and vasoactive intestinal polypeptide (VIP) have opposite actions on the gallbladder; PACAP induces contraction, whereas VIP induces relaxation. Here, we have attempted to identify key residues responsible for their interactions with PACAP (PAC1) and VIP (VPAC) receptors in the guinea pig gallbladder. We synthesized PACAP-27/VIP hybrid peptides and compared their actions on isolated guinea pig gallbladder smooth muscle strips using isotonic transducers. [Ala4]- and [Val5]PACAP-27 were more potent than PACAP-27 in stimulating the gallbladder. In contrast, [Ala4, Val5]- and [Ala4, Val5, Asn9]PACAP-27 induced relaxation similarly to VIP. [Asn9]-, [Thr11]-, or [Leu13]PACAP-27 had 20-70% contractile activity of PACAP-27, whereas [Asn24,Ser25,Ile26]PACAP-27 showed no change in the activity. All VIP analogs, including [Gly4,Ile5,Ser9]VIP, induced relaxation. In the presence of a PAC1 receptor antagonist, PACAP(6-38), the contractile response to PACAP-27 was inhibited and relaxation became evident. RT-PCR analysis revealed abundant expressions of PAC1 receptor, "hop" splice variant, and VPAC1 and VPAC2 receptor mRNAs in the guinea pig gallbladder. In conclusion, PACAP-27 induces contraction of the gallbladder via PAC1/hop receptors. Gly4 and Ile5 are the key NH2-terminal residues of PACAP-27 that distinguish PAC1/hop receptors from VPAC1/VPAC2 receptors. However, both the NH2-terminal and alpha-helical regions of PACAP-27 are required for initiating gallbladder contraction.     

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.     

Pharmacological differentiation of epithelium-derived relaxing factor from nitric oxide

We examined the possibility that nitric oxide is one of the epithelium-derived relaxing factors in guinea pig airways. First we studied whether nitric oxide could relax isolated tracheal strips, and then we examined the effects of known inhibitors of endothelium-dependent relaxation (EDR) in the vascular system [hemoglobin, methylene blue, and NG-monomethyl-L-arginine (L-NMMA)] on epithelium-dependent relaxation (EpDR) induced by hyperosmotic stimuli in perfused whole tracheal preparations. Mannitol (160 mM in Krebs-Henseleit solution) applied to the epithelial surface was used as an osmotic stimulus to induce EpDR after carbachol-induced contraction (2 microM, serosal side). Nitric oxide produced concentration-dependent and complete relaxation of epithelium-denuded tracheal strips. Preincubation of the whole trachea with hemoglobin significantly inhibited osmotic-induced EpDR (P less than 0.05), but preincubation with methylene blue and L-NMMA did not. Hemoglobin introduced into the epithelial side after EpDR induced by hyperosmotic stimuli reversed relaxation, but methylene blue and L-NMMA did not. These results suggest that, although EpDR and vascular EDR have some pharmacological similarities and nitric oxide can relax airway smooth muscle, nitric oxide is not responsible for osmotic-induced EpDR.     

Noncholinergic contractile response to nicotine in the guinea pig isolated tracheal smooth muscle

The existence of substance P immunoreactive nerves in the trachea of guinea pig is known. In this study, capsaicin induced a long-lasting and marked contraction in the guinea pig trachea and nicotine-induced contraction was partially reduced in the capsaicin-treated muscle. Furthermore, the contractile response to nicotine (10(-5) M) in the presence of atropine (10(-7) M) was abolished by a substance P antagonist, [D-Arg1, D-Pro2, D-Trp7,9 Leu11]substance P (10(-5) M). These findings suggest that noncholinergic contractile response to nicotine may be due to the release of material(s) resembling substance P in the isolated tracheal smooth muscle preparation of guinea pig.     

Comparative effects of platelet activating factor, leukotriene D4 and histamine on guinea pig trachea, bronchus and lung parenchyma

The myotropic effect of platelet activating factor (PAF), leukotriene D4 (LTD4) and histamine were compared on guinea pig pulmonary tissues. The initial administration of PAF induced a contraction of strips of trachea, bronchus and lung parenchyma. However subsequent injections were characterized by relaxation of trachea and bronchus and a highly reduced (if any) contraction of the parenchyma. The three tissues of the guinea pig respiratory system contracted strongly to leukotriene D4 and histamine. Indomethacin blocked PAF-induced relaxation of the trachea and bronchus and reduced the contraction of the lung parenchyma. The injection of PAF in the pulmonary circulation stimulated the release of substance(s) causing the contraction of the trachea, bronchus and parenchyma. This study suggests that PAF is not a direct agonist of bronchoconstriction.     

Relationship between 5-HT2A receptor mRNA density and contractility in trachea and aorta from guinea pig and rat

The present studies document marked differences in contractile responsiveness to serotonin in trachea and aorta between guinea pig and rat. For example, the guinea pig trachea and rat aorta markedly contract in response to serotonin via activation of 5-HT_2A receptors. In contrast, the rat and guinea pig aorta only modestly contract to serotonin. The availability of 5-HT_2A receptor selective cDNA clones from brain of both guinea pig and rat permitted molecular probes to be designed and PCR amplification studies initiated to identify and quantify 5-HT_2A receptor specific mRNA in these tissues. For trachea, 3-fold higher concentrations of 5-HT_2A receptor specific mRNA were found in guinea pig relative to rat trachea. These data are consistent with the more profound contractile response to serotonin in guinea pig versus rat trachea and suggest that differences in tracheal contractility to serotonin correlate with the density of 5-HT_2A receptor mRNA. In contrast, although rat aorta contracted more dramatically to serotonin than guinea pig aorta, rat aorta possessed a similar concentration of 5-HT_2A receptor specific mRNA as compared to guinea pig aorta. Thus, for the aorta, differences in the concentration of 5-HT_2A receptor mRNA are not sufficient to explain the observed differences in contractility between tissues from guinea pig and rat. These studies documenting 5-HT_2A receptor mRNA in rat trachea and guinea pig aorta, two tissues that do not markedly contract in response to serotonin indicate that 5-HT_2A receptor mRNA although present, has not resulted in a receptor capable of mediating a contractile response in these tissues.     

Pharmacology of peptide leukotrienes on ferret isolated airway smooth muscle

The contractile activities of peptide leukotrienes (LT) on isolated spiral strips of ferret trachea were chracterized pharmacologically. LTC₄ and LTD₄ contracted ferret tracheal strips in a concentration-related manner and were 3- to 8-fold more potent than carbachol. In contrast, high concentrations of LTE₄ evoked either weak contraction or none at all, whereas LTC₄ and D₄ were partial agonists compared to carbachol. In tissues which were unresponsive to LTE₄, this compound antagonized contractile responses to LTC₄ and D₄ in an apparently competitive manner: Carbachol-induced contractions were not altered by LTE₄. The cyclooxygenase inhibitor, indomethacin (5 μM), LT antagonists, FPL55712 (10 μM), atropine (1 μM), phenoxybenzamine (10 μM), and LTB₄ (10 μM) failed to alter LTC₄ and D₄ concentration-response curves. The results in dicate that ferret trachea is sensitive to the contractile activity of LTC₄ and LTD₄ but not LTE₄. The LT-induced contractions appear to be mediated by a direct action of the LT rather than indirectly through release of secondary mediators such as thromboxane, prostaglandin, or acetylcholine. LT receptors in ferret trachea are insensitive to FPL55712 but are antagonized by LTE₄.     

Inhibition of antigen and calcium ionophore A23187 induced contractions of guinea pig airways by isoprenaline and forskolin

Isoprenaline and forskolin both inhibit contractions induced by antigen or by the calcium ionophore A23187 of guinea pig tracheal spirals and parenchymal strips. Antigen-induced airway contraction is considerably more sensitive to the inhibitory effects of isoprenaline than is A23187-induced contraction. In contrast, forskolin is equiactive as an inhibitor of antigenic and ionophoric contractions. Forskolin is a more effective inhibitor of the prolonged phase of antigen-induced tracheal contraction than of the initial peak phase, which may suggest selectivity for the lipoxygenase pathway of arachidonic acid metabolism. Isoprenaline inhibits the mechanisms of the primary peak phase and of the prolonged phase equally. Although there were little, if any, differences between normal and sensitized tissues in the modulation of A23187-induced contractions of parenchyma, distinct differences were observed in trachea. Low concentrations (10(-8)-10(-7) M) of isoprenaline and forskolin enhanced A23187-induced contraction of sensitized, but not normal trachea. Higher concentrations were inhibitory. The results demonstrate that sensitization affects the modulation by isoprenaline and forskolin of A23187-induced contraction of guinea pig trachea.     

Comparative effects of platelet activating factor, leukotriene D4 and histamine on guinea pig trachea, bronchus and lung parenchyma

The myotropic effect of platelet activating factor (PAF), leukotriene D₄ (LTD₄) and histamine were compared on guinea pig pulmonary tissues. The initial administration of PAF induced a contraction of strips of trachea, bronchus and lung parenchyma. However subsequent injections were characterized by relaxation of trachea and bronchus and a highly reduced (if any) contraction of the parenchyma. The three tissues of the guinea pig respiratory system contracted strongly to leukotriene D₄ and histamine. Indomethacin blocked PAF-induced relaxation of the trachea and bronchus and reduced the contraction of the lung parenchyma. The injection of PAF in the pulmonary circulation stimulated the release of substance(s) causing the contraction of the trachea, bronchus and parenchyma. This study suggests that PAF is not a direct agonist of bronchoconstriction.     

Further studies on the mechanism of action of leukotrienes and histamine on guinea pig lung parenchyma. Role of calcium, phospholipase and methyltransferase

The contractile activity of leukotriene B4 (LTB4), leukotriene D4 (LTD4) and histamine on strips of guinea pig lung parenchyma was shown to be dependent on the calcium concentrations of the Krebs solution. The calcium channel blocker verapamil (2.0 to 15 microM) had an additive effect on the inhibitory activity of low calcium (0.1 mM) on contractions of guinea pig parenchyma to leukotrienes and histamine. Cobalt chloride, a divalent cation, also produced dose-dependent reductions of the myotropic activities of LTB4, LTD4 and histamine. An antagonist of calmodulin, trifluoperazine (1-200 microM), dose-dependently inhibited the contractile activity of the three agonists on the parenchyma strip. The IC50 of this compound for inhibition of histamine was much lower (2-3 microM) than the IC50 for inhibition of leukotrienes (75 microM). Valinomycin, a potassium ionophore, also interfere with the contractile activities of leukotrienes and histamine whereas a blocker of sodium channel, tetrodotoxin, had no effect on the activity of these agonists. Furthermore, an inhibitor of methyltransferase, 3-deazaadenosine, significantly diminished the responses of the parenchyma to leukotrienes and histamine. These results confirmed the important role of extracellular and intracellular calcium in the myotropic activity of leukotrienes and histamine in guinea pig lungs and showed that compounds which interfere either directly or indirectly with calcium mobilization into the lung smooth muscles, decreased the tissue responsiveness.