Gly(166) in the NK1 receptor regulates tachykinin selectivity and receptor conformation

We have studied the pharmacological properties of genetically engineered human NK1 tachykinin receptors in which residues at the extracellular surface of the fourth transmembranal domain were substituted with the corresponding amino acids from the NK2 receptor, We show that substitution of G166C:Y167F in the human NK1 receptor induces high affinity binding of a group of tachykinin ligands, known as 'septides' (i.e. neurokinin A, neurokinin B, [pGlu(6),Pro(9)]-substance P6-11 and substance P-methylester), In contrast, binding of substance P and non-peptide antagonists is unaffected by these mutations, This effect parallels that found on the rat receptor and is therefore species specific, Second, we demonstrate that mutation of Gly(166) to Cys alone is both necessary and sufficient to create this pan-reactive tachykinin receptor, whereas replacement of Tyr(167) by Phe has no detectable effect on the pharmacological properties of the receptor, Furthermore, analysis of the effect of N-ethylmaleimide and dithiothreitol on binding of radiolabelled substance P documents differences in the mode in which this ligand interacts with wild-type and mutant receptors and supports the existence of a mutational induced change in the conformational status of the NK1 receptor. (C) 1997 Federation of European Biochemical Societies.