Abstract
The mammalian tachykinins, neurokinin A (NKA) and NKA(4-10), along with the tachykinin NK2 receptor-selective antagonist MEN 10,376, were compared to their C-terminal free acid derivatives, NKA-OH, NKA(4-10)-OH and MEN 10,456, respectively, on several in vitro bioassays for NK1, NK2 and NK3 tachykinin receptors. NKA-OH and NKA(4-10)-OH were much weaker agonists than NKA or NKA(4-10) in the endothelium-deprived rabbit pulmonary artery (endowed with NK2A receptors) and in the guinea pig isolated bronchus (endowed with NK2A and NK1 receptors), where they produced submaximal contractile responses, and were inactive in the hamster isolated trachea (endowed with NK2B receptors) and in the rat isolated portal vein (endowed with NK3 receptors). At NK1 receptors of the guinea pig isolated ileum, NKA-OH produced weak agonist responses, whereas NKA(4-10)-OH was ineffective. In sharp contrast, MEN 10,456, while maintaining the same antagonist potency of the parent compound MEN 10,376 in the rabbit pulmonary artery and hamster isolated trachea, developed a clear-cut agonist character in the rat isolated portal vein, guinea pig isolated ileum and guinea pig isolated bronchus. The agonist responses produced by MEN 10,456 (10 microM) were reduced by MEN 10,376 in the guinea pig isolated bronchus and by the NK1 receptor antagonist GR 82,334 in the guinea pig isolated ileum. These results, although indicating the importance of C-terminal amidation for the agonist activity of natural tachykinins, suggest that the C-terminal amide group may not be directly involved in stimulation of the tachykinin receptors, but could induce agonist activity through a conformation effect.
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