E Ef ff fe ec ct t o of f t th he e t tw wo o t ta ac ch hy yk ki in ni in n a an nt ta ag go on ni is st ts s, , S SRIn conclusion, our results demonstrate that NK 2 -receptor stimulation plays a predominant role in the regulation of cough reflex, at least in the guinea-pig, as shown by the high potency and efficacy of SR 48968, a tachykinin NK 2 -receptor antagonist. SR 140333, a NK 1 -receptor antagonist is unable to inhibit cough by itself, but it potentiates SR 48968 in terms of efficiency. Finally, as salbutamol did not modify the effect of SR 48968, it may be suggested that the antitussive effect of SR 48968 is not related to the inhibition of citric acid-induced bronchoconstriction.
Theophylline has been reported to inhibit excitatory noncholinergic but not cholinergic-neurotransmission in guinea-pig bronchi. As theophylline might exert this effect through an inhibition of phosphodiesterases (PDE), and since many types of PDE have now been described, the aim of this study was to investigate the effects of three specific inhibitors of PDE on the electrical field stimulation (EFS) of the guinea-pig isolated main bronchus in vitro. The drugs used were siguazodan, rolipram and zaprinast, which specifically inhibit PDE types, III, IV and V, respectively. Guinea-pig bronchi were stimulated transmurally with biphasic pulses (16 Hz, 1 ms, 320 mA for 10 s) in the presence of indomethacin 10(-6) M and propranolol 10(-6) M. Two successive contractile responses were observed: a rapid cholinergic contraction, followed by a long-lasting contraction due to a local release of neuropeptides from C-fibre endings. Rolipram (10(-9) to 10(-6) M) but not siguazodan or zaprinast, inhibited the peptidergic contraction in a concentration-dependent manner. Conversely, the cholinergic response was unaffected. Contractile responses induced by exogenous acetylcholine (10(-8) to 10(-3) M) or [Nle10]NKA(4-10) (10(-10) to 10(-6) M) were also unaffected by rolipram, siguazodan and zaprinast (10(-7) M). These results demonstrate that concentrations of rolipram, similar to those which inhibit PDE, reduce the release of sensory neuropeptides from C-fibre endings, and suggest that the cyclic adenosine monophosphate (AMP) PDE type IV is specifically involved in this effect, as in other anti-inflammatory effects.
Airway hyperresponsiveness is a main feature of asthma, and several lines of evidence suggest that tachykinins might be involved in the pathogenesis of airway hyperresponsiveness in rodents. We conducted a study designed to describe an original model of airway hyperresponsiveness induced by citric acid administered as aerosol to guinea pigs, and to investigate the effects of the nonpeptide neurokinin1 (NK1) and neurokinin2 (NK2)-receptor antagonists, SR 140333 and SR 48968, respectively, on the development of this airway hyperresponsiveness. Animals received thiorphan 1 mg/kg intraperitoneally and 30 min later were exposed to an aerosol of citric acid 0.4 M for 1 h. After 24 h, the animals were anesthetized and ventilated. Airway hyperresponsiveness was evidenced by significant shifts to the left of dose-response curves for intravenous acetylcholine (ACh) without a change in maximum responses to ACh. Exposure to citric acid induced an airway hyperresponsive that was abolished by chronic pretreatment with capsaicin (120 mg/kg, 5 d before citric acid exposure). SR 48968 1 mg/kg intraperitoneally, given once at 30 min before the citric acid exposure, inhibited airway hyperresponsiveness, whereas SR 140333 1 mg/kg or codeine 30 mg/kg given under similar conditions did not. The inhibition of airway hyperresponsiveness by SR 48968 did not result from functional antagonism, since SR 48968 did not affect ACh-induced bronchoconstriction, nor did it result from inhibition of tachykinin, which could have been released under the influence of ACh in hyperresponsive animals, since SR 48968 given after the exposure to aerosolized citric acid failed to inhibit airway hyperresponsiveness. In conclusion, these results show that inhaled citric acid can induce the development of an airway hyperresponsiveness in the guinea pig through a release of tachykinins, and also demonstrate that NK2-receptor stimulation plays a predominant role in the development of airway hyperresponsiveness.
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