Solution structure of a novel ETBreceptor selective agonist ET1-21[Cys(Acm)1,15, Aib3,11, Leu7] by nuclear magnetic resonance spectroscopy and molecular modelling

Abstract

The solution structure of a biologically active modified linear endothelin‐1 analogue, ET1–21[Cys(Acm)^1,15, Aib^3,11, Leu⁷], has been determined for the first time by two‐dimensional nuclear magnetic resonance spectroscopy in a methanol‐d₃/water solvent mixture. Out of approximately one hundred linear peptide analogues tested by biological assay, this peptide, together with a dozen others, showed significant ET_B selective agonist activity. Here we report the solution structure of an ET_B selective agonist of a full‐length, synthetic linear endothelin analogue. The calculated structures indicate that the peptide adopts an α‐helical conformation between residues Ser⁵–His¹⁶, whilst both N‐ and C‐termini show no preferred conformation. These results suggest that the disulphide bridges normally associated with endothelin and sarafotoxin peptides may not necessarily be important for either ET_B receptor binding activity or the formation of a helical conformation in solution.