Pharmacological assessment of spantide II analogues

Abstract

We have studied the structure-activity relationship of a series of tachykinin receptor antagonists based on spantide II. Fifteen novel peptides were tested for their ability to antagonize the electrically evoked tachykinin receptor-mediated response in the isolated rabbit iris sphincter muscle. Substitution or deletion of one to three amino acids in the spantide II sequence caused significant changes in biological activity. Eight of the novel analogues were found to be as potent as or more potent than spantide II and some were found to have better water solubility. We tested the selectivity for different tachykinin receptors of spantide II and two of the eight most potent analogues. They all interacted with tachykinin NK 1 (rabbit jugular vein) and tachykinin NK 2 (rabbit pulmonary artery) receptors with pA 2 values of about 6.5–7.5 at the NK 1 receptor and of 5.9–7.2 at the NK 2 receptor, while being inactive at the tachykinin NK 3 receptor (rat portal vein). Spantide II and the novel analogues were without effect on electrically evoked cholinergic responses of the isolated rabbit iris sphincter and on electrically evoked sympathetic responses of the guinea-pig vas deferens; moreover, they were without local anaesthetic-like effects on action potentials of the frog sciatic nerve, which suggests that they do not produce a general neurosuppressive effect. They were as effective as or slightly less effective than spantide II in causing histamine release from rat peritoneal mast cells.