Characterization of the tachykinin NK2 receptor in the human bronchus: influence of amastatin‐sensitive metabolic pathways

Abstract

1 The aim of this study was to characterize the tachykinin NK₂ receptor subtype mediating the spasmogenic response in the human isolated bronchus. The motor response to neurokinin A (NKA) and the selective NK₂ agonist [βAla⁸]NKA(4–10), as well as the antagonistic effects of cyclic (L659,877) and linear (MEN 10376) peptide NK₂ antagonists were assessed in the presence or absence of amastatin (an inhibitor of aminopeptidases A and M). 2 NKA was more potent than [βAla⁸]NKA(4–10) in eliciting bronchoconstriction (pD₂ being 7,43 and 6,87 respectively). In the presence of amastatin (1 μm), the estimated affinity of [βAla⁸]NKA(4–10), but not that of NKA, was significantly increased to yield a pD₂ of 7,44. 3 L659,877 and MEN 10376 inhibited [βAla⁸]NKA(4–10)-induced contraction with similar affinities; pA₂ values were 5.7 ± 0.22 and 6.3 ± 0.32, respectively. Amastatin (1 μm) increased the potency of MEN 10376 to 7.28 ± 0.46, whereas that of L659,877 was unaffected. 4 In the presence of amastatin the pseudopeptide MDL 28,564 behaved as a partial agonist. 5 We conclude that the NK₂ receptor subtype present in the human bronchus has properties similar to those described for the circular muscle of the human colon and thus may be classified as a ‘NK_2A’ subtype. We show that the apparent potency of peptides, bearing N-terminal acidic residues, is influenced by an amastatin-sensitive peptidase, possibly aminopeptidase A.