Substance P antagonists and the role of tachykinins in non-cholinergic bronchoconstriction.

Electrical field stimulation of guinea-pig isolated hilus bronchi induced tetrodotoxin-sensitive contractions of which only a minor part could be inhibited by atropine. The remaining non-cholinergic bronchoconstriction was antagonized by a heptapeptide and an undecapeptide substance P (SP) analogue (Arg5, D-Trp7,9) SP5-11, IC50 = 24.0 microM and (D-Pro2, D-Trp 7,9) SP, IC50 = 10.0 microM. Of the exogenously added tachykinins, both eledoisin (8 times) and physalaemin (3 times) were more potent bronchoconstrictors than SP. Pretreatment with the SP-analogues shifted concentration-response curves to the tachykinins to the right, eledoisin being most readily antagonized. (Arg5, D-Trp 7,9) SP 5-11 also antagonized the neural response more readily than that of SP. In addition, in the frog isolated sciatic nerve preparation the two SP-analogues were found to possess potent lidocaine-like neurodepressant actions which further complicated the interpretation of the neural inhibitory effects of these compounds. It is concluded that if a tachykinin contributes to non-cholinergic bronchoconstriction, an eledoisin-like peptide is a more likely candidate than SP itself. Since SP-antagonists may have local anaesthetic properties their value as tools in neurophysiology seems limited. Inferentially, the non-cholinergic bronchoconstrictive neurotransmitter remains to be identified.