Synthesis and pharmacological evaluation of an analogue of the peptide hormone oxytocin that contains a mimetic of an inverse gamma-turn.

Oxytocin is a neurohypophyseal peptide hormone that induces labor and lactation in mammals. An inverse gamma-turn mimetic corresponding to the tripeptide Ile-Val-Asn has been synthesized and incorporated instead of residues 3-5 of oxytocin to probe the hypothesis that a gamma-turn involving these residues is found in the receptor bound conformation of oxytocin. In the turn mimetic, residues i and i + 1 are connected by a psi[CH(2)O] isostere while a covalent methylene bridge replaces the hydrogen bond that is often found between residues i and i + 2 in gamma-turns. The turn mimetic was assembled from three types of building blocks: an azido epoxide, an alpha-bromo acid, and a protected beta-amino alcohol. The oxytocin analogue did not induce contractions of the uterus nor did it inhibit oxytocin-induced contractions. It is suggested that the loss of bioactivity is mainly due to the presence of a psi[CH(2)O] isostere instead of an amide bond between residues i and i + 1 in the turn mimetic.