[I-125] HIS-NEUROKININ-A BINDS SELECTIVELY TO NK2 RECEPTORS OF THE B-TYPE IN RAT SMALL-INTESTINE SMOOTH-MUSCLE MEMBRANES

The high-affinity, reversible binding of [I-125]His-neurokinin A (NKA) to rat small intestine smooth muscle membranes was investigated. Endogenous neurokinin agonists, selective neurokinin analogues, both agonist and antagonist, were used to define the selectivity of the binding. Both the endogenous and selective neurokinin analogue agonists displayed orders of potency indicating that [I-125]His-NKA was binding to NK2 receptors. The use of recently developed NK2-selective antagonists indicated that the NK2 receptors present in this preparation were similar to those described in hamster trachea preparations (NK2B), and not endothelium-denuded rabbit pulmonary artery (NK2A). The absence of NK2A receptors and the predominance of NK2B was confirmed by blocking experiments using MEN10376 and L659877. Low-affinity binding of NKA was also observed with this preparation, which was not sensitive to the NK2-selective agonist, [beta-Ala8]NKA4-10. This was shown not to be due to the presence of NK1 or NK3 receptors by using selective agonists for NK1 and NK3 to block any such receptors. (No evidence for the presence of these receptors was obtained during these blocking experiments.) Guanylylimidodiphosphate appears to discriminate between the high- and low-affinity binding sites for NKA. It was thus concluded that high-affinity binding of [I-125]His-NKA to rat small intestine smooth muscle membranes was selective for NK2B receptors. No evidence was found for the binding of [I-125]His-NKA to NK1, NK3 or NK2A receptors.