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.     

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.     

Antigen-induced elevation of immunoreactive endothelin-1 (ET-1) levels in ovalbumin-sensitized guinea pig airway tissue

Changes in the immunoreactive ET-1 levels during the anaphylactic reaction of airway tissue from ovalbumin-sensitized guinea pigs were investigated. ET-1-immunoreactivity (ET-IR) was detected in the epithelial and smooth muscle layers of tracheal sections from normal guinea pigs and it was enhanced slightly by phosphoramidon (1 μM) treatment. The ET-IR level of the epithelial layer of ovalbumin-treated tissue from actively sensitized animals was slightly higher than that from normal animals, but it was enhanced markedly by phosphoramidon (1 μM) treatment. Furthermore, the mean ET-IR level of homogenates of antigen-treated tracheal tissues from sensitized guinea pigs (22.8±1.55 fmol mg⁻¹ protein, n=5) was significantly higher than the corresponding normal level (12.3±1.21 fmol mg⁻¹ protein, n=5). These results suggest that increased epithelial airway ET-1 levels contribute to the anaphylactic reaction of guinea pig airways.     

Inhaled Lead Exposure Affects Tracheal Responsiveness and Lung Inflammation in Guinea Pigs During Sensitization

Total and differential white blood cells (WBC), and cytokines, levels in serum were examined in guinea pigs exposed to inhaled lead acetate. Different groups of guinea pigs including: control (group C), sensitized group (group S), and exposed animals to aerosol of three lead concentrations during sensitization (n?=?6 for each group) were studied. Total and differential WBC counts of lung lavage, serum cytokine (IFNγ and IL-4), levels and tracheal responsiveness to methacholine and ovalbumin were measured. All measured values were significantly increased except for IFNγ/IL-4 ratio which was significantly decreased in nonexposed sensitized and those exposed to all lead concentrations compared to control group (p?<?0.05 to p?<?0.001). Most measured values in animals exposed to higher lead concentration were also significantly higher than group S except for tracheal responsiveness to methacholine and lymphocyte count. Lead concentration significantly increased in lung tissues of animals exposed to all three lead concentrations (p?<?0.001 for all cases). These results showed that lead exposure during sensitization can induce greater increase in tracheal responsiveness, total WBC, eosinophil, neutrophil, and basophil counts as well as serum level of IL-4. It can also cause a decrease in lymphocyte count, IFNγ level, and IFNγ/IL-4 ratio especially in its high concentration. Therefore inhaled lead exposure may cause increased severity of asthma during development of the disease.     

Nitric oxide derived from sympathetic nerves regulates airway responsiveness to histamine in guinea pigs

Matsumoto, Koichiro, Hisamichi Aizawa, Shohei Takata,Hiromasa Inoue, Naotsugu Takahashi, and Nobuyuki Hara.Nitric oxide derived from sympathetic nerves regulates airwayresponsiveness to histamine in guinea pigs. J. Appl.Physiol. 83(5): 1432-1437, 1997.Nitric oxide(NO), which can be derived from the nervous system or the epithelium ofthe airway, may modulate airway responsiveness. We investigated how NOderived from the airway nervous system would affect the airwayresponsiveness to histamine and acetylcholine in mechanicallyventilated guinea pigs. An NO synthase inhibitor N^G-nitro-L-argininemethyl ester (L-NAME) (1 mmol/kgip) significantly enhanced airway responsiveness to histamine but notto acetylcholine. Its enantiomerD-NAME (1 mmol/kg ip), incontrast, had no effect. TheL-NAME-induced airwayhyperresponsiveness was still observed in animals pretreated withpropranolol (1 mg/kg iv) and atropine (1 mg/kg iv). Pretreatment withthe ganglionic blocker hexamethonium (2 mg/kg iv) completely abolishedenhancing effect of L-NAME on airway responsiveness. Bilateral cervical vagotomy did not alter theL-NAME-induced airwayhyperresponsiveness, whereas sympathetic stellatectomy completelyabolished it. Results suggest that NO that was presumably derived fromthe sympathetic nervous system regulates airway responsiveness tohistamine in guinea pigs.

     

Lymphocyte suppression associated with alpha globulin. Changes in cellular immunity

Sensitization of guinea pigs to 2,4-dinitrofluorobenzene is accompanied by increases in alpha globulins determined electrophoretically. During sensitization, lymphocyte responses were measured in vitro by mitogen induced ³H-thymidine uptake in whole blood cultures and in vivo by dermal skin reactivity. Following 5 days of dinitrofluorobenzene sensitization alpha globulins were elevated and lymphocyte transformation to phytohemagglutinin, pokeweed mitogen, and concanavalin A was significantly suppressed. When the alpha globulins returned to normal levels following sensitization, lymphocyte responses returned to pretreatment values. Antigen induced lymphocyte responsiveness was also suppressed concomitant with elevations in alpha globulins. Tuberculin sensitive guinea pigs responded poorly to PPD in vitro and in vivo during DNFB sensitization. It is suggested that increases in alpha globulins detected during the development of cellular immunity are associated with immunosuppression.     

Heme oxygenase attenuates allergen-induced airway inflammation and hyperreactivity in guinea pigs

Heme oxygenase (HO), the heme-degrading enzyme, has shown anti-inflammatory effects in several models of pulmonary diseases. HO is induced in airways during asthma; however, its functional role is unclear. Therefore, we evaluated the role of HO on airway inflammation [evaluated by bronchoalveolar lavage (BAL) cellularity and BAL levels of eotaxin, PGE(2), and proteins], mucus secretion (evaluated by analysis of MUC5AC gene expression and periodic acid-Schiff staining), oxidative stress (evaluated by quantification of 4-hydroxynonenal adducts and carbonylated protein levels in lung homogenates), and airway responsiveness to histamine in ovalbumin (OVA)-sensitized and multiple aerosol OVA or saline-challenged guinea pigs (6 challenges, once daily, OVA group and control group, respectively). Airway inflammation, mucus secretion, oxidative stress, and responsiveness were significantly increased in the OVA group compared with the control group. HO upregulation by repeated administrations of hemin (50 mg/kg i.p.) significantly decreased airway responsiveness in control animals and airway inflammation, mucus secretion, oxidative stress, and responsiveness in OVA animals. These effects were reversed by the concomitant administration of the HO inhibitor tin protoporphyrin-IX (50 micromol/kg i.p.). Repeated administrations of tin protoporphyrin-IX alone significantly increased airway responsiveness in control animals but did not modify airway inflammation, mucus secretion, oxidative stress, and responsiveness in OVA animals. These results suggest that upregulation of the HO pathway has a significant protective effect against airway inflammation, mucus hypersecretion, oxidative stress, and hyperresponsiveness in a model of allergic asthma in guinea pigs.     

Histamine, endogenous prostaglandins and cyclic nucleotides in the regulation of airway muscle responses in the guinea pig

Indomethacin (30 mg/kg, i.p.) reduced pulmonary resistance in guinea pigs but did not affect their sensitivity to histamine. This treatment preferentially reduced the generation of PGE2 by isolated tracheal preparations. The ratios of PGF2 alpha/PGE2 before and after treatment were 1/1 and 6/1, respectively. Chronic indomethacin treatment (30 mg/kg, i.p., twice a day for 4 days) increased histamine sensitivity in vivo 2 fold while a longer treatment (10 days) was without effect. The efficacy of histamine and the potency of isoproterenol in tracheal tissues were unaffected by either treatment. Indomethacin (17 microM for 30 min) relaxed tracheal tissues but not bronchial tissues. Responses of both tissues to contractile agonists were potentiated after indomethacin treatment. The efficacy of histamine was smaller in bronchi than in tracheas. Similarly, PGE2, PGI2 and isoproterenol were less potent in bronchi. Basal amounts of cyclic AMP were higher in bronchi than in tracheas; indomethacin did not affect the basal amounts of cyclic AMP in tracheal tissues but reduced them in bronchial preparations. Histamine elevated cyclic AMP content in both preparations; this elevation was reduced by indomethacin. While prostaglandins play a role in modulating airway responses in vitro, their role in airways in normal animals in vivo is more difficult to demonstrate.     

In vivo PAF-induced airway eosinophil accumulation reduces bronchial responsiveness to inhaled histamine

Chronic eosinophilic bronchitis and bronchial hyperresponsiveness have been considered to be the fundamental features of bronchial asthma. However, the role of airway eosinophils in bronchial responsiveness in vivo has not been fully discussed. The aim of this study was to investigate the direct effect of airway eosinophil accumulation on bronchial responsiveness in vivo. Guinea pigs were transnasally treated with platelet activating factor (PAF) or vehicle twice a week for a total of 3 weeks. Anesthetized guinea pigs were surgically cannulated and artificially ventilated 48 h after the last administration of PAF or vehicle. Ten minutes after the installation of artificial ventilation, ascending doses of histamine were inhaled. In a subsequent study, selective inhibitors of diamine oxidase and histamine N-methyltransferase were intravenously administered before the histamine inhalation in the PAF-treated animals. Next study was conducted 20 min after treatment with indomethacin in this study line. Finally, ascending doses of methacholine were inhaled in our animal model. Proportion of eosinophils and the number of nuclear segmentation in bronchoalveolar lavage fluid significantly increased in guinea pigs treated with PAF compared with vehicle and this finding was confirmed histologically. Nevertheless, bronchial responsiveness to inhaled histamine, but not methacholine, was significantly decreased by the PAF treatment. This bronchoprotective effect induced by PAF remained following aminoguanidine and histamine N-methyltransferase administration, but abolished by treatment of indomethacin. These results suggest that in vivo airway eosinophils may reduce nonspecific bronchial responsiveness through production of inhibitory or bronchoprotective prostanoids, but not through histaminase production.     

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。     

Airway responsiveness and prostaglandin generation in scorbutic guinea pigs

Airway responsiveness to histamine aerosol and lung prostaglandin generation were investigated in normal, partially vitamin C deficient and scorbutic guinea pigs. The ascorbic acid content of the lung expressed as microgram/100 mg wet weight lung parenchyma decreased from 22.1 +/- 1.8 (mean +/- SE) in the control group to 9.0 +/- 1.4 and 1.8 +/- 0.4 in tissues from partially ascorbic acid deficient and scorbutic animals, respectively. Guinea pigs on low and ascorbic acid deficient diets developed significant airway hyperresponsiveness to histamine aerosol after 3 and 4 weeks. Indomethacin (30 mg/Kg, i.p.) further increased the airway hyperresponsiveness in scorbutic animals but was without effect in control animals. Prostaglandin generation from different parts of the lung was significantly changed by the diets. However, airway hyperresponsiveness was not directly attributable to altered prostanoid generation. Scorbutic conditions did not alter the electrophysiological characteristics of airway smooth muscle namely, resting membrane potential and electrogenic sodium pump activity. In summary, ascorbic acid deficiency causes airway hyperresponsiveness to histamine in guinea pigs. This alteration seems not to be related to an altered prostaglandin generation by the lung or to the electrophysiological properties of airway smooth muscle.     

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.     

Protease-activated receptor 2 in regulation of bronchomotor tone: effect of tobacco smoking

Protease-activated receptors are G protein-coupled receptors activated by serine-proteases. Protease-activated receptor 2 is involved in the regulation of airway smooth muscle tone but its effects vary according to species and experimental conditions. We determined the effects of protease-activated receptor 2 activation on smooth muscle tone and airway reactivity to histamine in guinea pigs and smoking or non-smoking humans. The effects of trypsin and protease-activated receptor activating peptide on the isometric tension and response to histamine of guinea pig tracheal and human bronchial rings were studied. Human tissues were obtained from 6 smokers and 4 non-smokers. We assessed the effects of epithelial removal, inhibitors of cyclooxygenases, nitric oxide synthases, neutral endopeptidase and antagonists of acetylcholine, histamine, bradykinin and tachykinin receptors. Bronchomotor responses to protease-activated receptor 2 activation were variable in guinea pig, in half of animals PAR2 activation induced smooth muscle relaxation through the epithelial release of prostanoids but not of nitric oxide. In human airways, protease-activated receptor 2 activation reduced responsiveness to histamine in bronchial rings from smokers but increased responsiveness in bronchi from non-smokers. This study demonstrates an influence of tobacco smoking on the effect of protease-activated receptor 2 activation on airway responsiveness in humans, with an increased protection against histamine-induced contractions, probably through an increased epithelial release of prostanoids. The role of airway protease-activated receptor 2 may be to maintain smooth muscle tone homeostasis.     

Adipose-Derived Stromal Cell Therapy Affects Lung Inflammation and Tracheal Responsiveness in Guinea Pig Model of COPD

The effects of adipose derived stromal cells (ASCs) were evaluated on tracheal responsiveness and biochemical parameters in guinea pigs model of chronic obstructive pulmonary disease (COPD). Thirty six guinea pigs were divided into 6 groups including: Control, COPD, COPD+intratracheal delivery of PBS (COPD+ITPBS), COPD+intravenous delivery of PBS (COPD+IVPBS), COPD+intratracheal delivery of ASCs (COPD+ITASC) and COPD+intravenous injection of ASCs (COPD+IVASC). COPD was induced by exposing animals to cigarette smoke for 3 months. Cell therapy was then performed and after 14 days, tracheal responsiveness, concentration of interleukin-8 (IL-8) in serum and broncho-alveolar lavage fluid (BALF), as well as total and differential white blood cells (WBC) counts were evaluated. Tracheal responsiveness, total WBC counts, neutrophil and eosinophil percentage in BALF as well as concentration of IL-8 in serum and BALF significantly increased but lymphocyte percentage decreased in COPD compared to the control group (P<0.05 to p<0.001). Cell therapy was able to restore the tracheal hyper-responsiveness and the increased IL-8 concentration in serum and BALF of COPD-ITASC but not COPD-IVASC animals (P<0.05 for all cases). Total WBC in BALF also showed a significant decrease in both treated groups and the percentages of eosinophils, neutrophils and lymphocytes in BALF were reversed in COPD-ITASC compared to COPD-ITPBS animals (P<0.05 to P<0.001). Therefore, intratracheal cell therapy with ASC can decrease tracheal hyperresponsiveness and lung inflammation in cigarette smoke induced-COPD which may be helpful in attenuation of the severity of disease in patients suffering from COPD.     

组胺在哮喘豚鼠气道重塑中的作用

本研究旨在探讨组胺在哮喘豚鼠气道重塑中的作用。将50只健康雄性豚鼠随机分为5组。正常对照组：雾化吸入蒸馏水8周;哮喘模型组：致敏后雾化吸入卯白蛋白（ovalbumin,OVA）8周;哮喘模型延续组：致敏后雾化吸入OVA14周;组胺组：致敏后雾化吸入OVA14周,最后6周同时加用组胺：组胺受体拈抗剂组：致敏后雾化吸入OVA14周,最后6周同时加用组胺受体拈抗剂。检测血清组胺、Na^＋、Cl^-浓度、动脉血氧分压（PaO2）、动脉血二氧化碳分压（PaCO2）、pH、实际碳酸氢盐（actual bicarbonate,AB）、标准碳酸氧盐（standard bicarbonate,SB）以及气道壁粘膜层、基底膜层和平滑肌层厚度。所得结果如下：（1）哮喘模型组血清组胺浓度、气道擘厚度明显高于正常对照组（P〈0．01）;哮喘模型延续组明显高于哮喘模型组（P〈0.01）;组胺组明显高于哮喘模型延续组（P〈0．01）：组胺受体拮抗剂组低于哮喘模型延续组（P〈0．05,0．01）。（2）哮喘模型组PaO．小于正常对照组（P〈0．01）;哮喘模型延续组PaO2、pH、AB、SB小于哮喘模型组（P〈0．01）,而PaCO2大于哮喘模型组（P〈0．01）;组胺组PaO2、pH、AB、SB小于哮喘模型延续组（P〈0．01）,而PaCO2大于哮喘模型延续组（P〈0．01）;组胺受体拮抗剂组PaO2、pH、AB、SB高于哮喘模型延续组（P〈0．01）,而PaCO2低于哮喘模型延续组（P〈0．01）;血清Na^＋、Cl^-浓度各组间差异不明显。以上结果提示：（1）组胺在哮喘气道重塑中起介导作用。（2）应用组胺受体拈抗剂对防治哮喘气道重塑有一定作用。（3）PaO2、pH与气管、肺门支气管、肺外周小气道气道擘厚度呈负相关（P〈0．01）,而PaCO2、阴离子间隙（anion gap,AG）值与上述气道壁厚度呈止相关（P〈0．01）。     

Epithelial modulation of allergen and drug effects in guinea pig airways.

The effect of egg albumin (EA) challenge on tracheal tube preparations from sensitized guinea pigs was studied with regard to EA permeability, histamine release and penetrability, and the contractile response of the preparation. We used a plethysmographic method that allowed simultaneous measurement of changes in smooth muscle tension and collection of samples for determination of mediators. Our results clearly show that epithelial damage potentiates the contractile response to histamine, potassium ions, and acetylcholine. Epithelial damage did not alter the maximal contractile response in preparations challenged with high antigen concentrations (EA, 1 mg/ml), but histamine release measured in the perfusate increased substantially. The permeability of the preparations to EA was greater when the epithelium was damaged. No increase in the permeability in response to the EA challenge was observed. The present study has demonstrated that guinea pig airway epithelium constitutes a barrier for both antigen and drugs. We also present a method for recording contractile responses from intact whole tracheal preparations, in which the epithelium can still act as a barrier, as is the case in vivo.     

Functional role of nitric oxide in guinea pig tracheal epithelium

Nitric oxide (NO) may play an important regulatory role in airway function. We have, thus, investigated in vitro whether epithelium derived NO may modulate cholinergic neurotrasmission, via release of NO in guinea pig trachea, by using L-arginine (L-ARG), a precursor of NO synthesis, and L-N^G-nitro-arginine-methyl-ester (L-NAME), an inhibitor of NO synthase. Results show that L-ARG and L-NAME modify acetylcholine sensitivity in epithelium-intact smooth muscle preparations, suggesting a probable NO synthesis by tracheal guinea pig epithelium.     

Experimental allergic encephalomyelitis in the guinea pig: Variation in peripheral blood lymphocyte responsiveness to myelin basic protein during disease development

Peripheral blood lymphocytes (PBL) from guinea pigs with experimental allergic encephalomyelitis (EAE) induced by sensitization with bovine whole white matter, proliferated in vitro upon exposure to bovine myelin basic protein (B-MBP). The degree of the response increased with clinical severity. PBL from EAE-sensitized guinea pigs which failed to develop clinical disease did not respond to B-MBP. PBL from complete Freund's adjuvant-sensitized and nonsensitized normal guinea pigs were not responsive to B-MBP. EAE-sensitized animals displaying clinical signs of disease showed concanavalin A (Con A) responsiveness which paralleled that of B-MBP. Animals that did not develop EAE demonstrated Con A responses similar to those of control guinea pigs. Thus, in this acute autoimmune demyelinating condition, PBL responsiveness to B-MBP might provide a monitor of disease development.     

Arachidonic acid metabolites do not mediate toluene diisocyanate-induced airway hyperresponsiveness in guinea pigs

Arachidonic acid metabolites have previously been demonstrated to mediate the airway hyperresponsiveness observed in guinea pigs and dogs after exposure to ozone. Guinea pigs were treated with indomethacin (a cyclooxygenase inhibitor), U-60,257 (piriprost, a 5-lipoxygenase inhibitor), or BW775c (a lipoxygenase and cyclooxygenase inhibitor) and exposed to air or 3 ppm TDI. Airway responsiveness to acetylcholine aerosol was examined 2 h after exposure. In control animals, the provocative concentration of acetylcholine which caused a 200% increase in pulmonary resistance over baseline (PC200) was significantly less (p less than 0.05) after exposure to TDI (8.6 +/- 2.0 mg/ml, geometric mean + geometric SE, n = 10) than after exposure to air (23.9 + 2.5 mg/ml, n = 14). The airway responsiveness to acetylcholine in animals treated with indomethacin or piriprost and exposed to TDI was not different from that of control animals exposed to TDI. Treatment with BW755c enhanced the airway hyperresponsiveness observed in animals exposed to TDI without altering the PC200 of animals exposed to air. The PC200 of animals treated with BW755c and exposed to TDI (2.3 + 0.8 mg/ml, n = 8) was significantly lower than the PC200 of control animals exposed to TDI (p less than 0.025). These results suggest that products of arachidonic acid metabolism are not responsible for TDI-induced airway hyperresponsiveness in guinea pigs. BW755c, however, appears to potentiate the TDI-induced airway hyperresponsiveness to acetylcholine by an as yet unidentified mechanism.     

Effects of Methylecgonidine on acetylcholine-induced bronchoconstriction and indicators of lung injury in guinea pigs

The fumarate salt of methylecgonidine (MEG; anhydroecgonine methylester), a pyrolysis product of cocaine, has previously been shown to antagonize contractions of guinea pig isolated trachea induced by acetylcholine (ACh) and other spasmogenics. We determined the effects of MEG fumarate on ACh-induced bronchoconstriction in vivo. Specific airway conductance (SGaw) was measured in guinea pigs receiving 30–300 mg/kg s.c. MEG fumarate and exposed one hour later to nebulized ACh (0.2–3.2%; by inhalation). MEG fumarate did not induce any changes in SGaw; neither did it antagonize dose-dependent decreases in SGaw induced by ACh. However, tremors, salivation, startle and increased numbers of fecal boli were observed after MEG administration. Thus, unlike antagonism of ACh-induced contractions of guinea pig isolated trachea observed in vitro, MEG fumarate does not antagonize ACh-induced bronchoconstriction in vivo, even at doses which induced changes in grossly-observable behavior. Inhalation of a condensation aerosol of MEG base induced lung damage as evidenced by the presence of blood and higher levels of protein and lactate dehydrogenase in the lung lavage fluid of MEG-treated animals than of control animals. Aerosols of MEG fumarate, on the other hand, did not induce lung damage when inhaled. These results extend previous observations that MEG base may contribute to detrimental pulmonary effects of crack smoking.