Conformational studies of highly potent 1‐aminocyclohexane‐1‐carboxylic acid substituted V2 vasopressin agonists

Abstract: Conformational studies of three agonists of V₂ receptor modified with 1‐aminocyclohexane‐1‐carboxylic acid (Acc), [Acc²,DArg⁸]VP, [Acc³]AVP and [Cpa¹,Acc³]AVP, using 2D NMR and theoretical calculations are presented in this paper. It is believed that α,α‐disubstituted amino acids, such as Acc, affect the formation of either 3₁₀ or α‐helical conformation. Moreover, a peptide with Acc may adopt either the γ‐ or an inverse γ‐turn over it. Thus, incorporation of Acc into the arginine‐vasopressin sequence induced C₇‐membered ring conformation with Acc at the top of it, and additional formation of β‐bend involving residues in the 2–5 fragment of the peptides. Furthermore, the analogues are also characterized by type I of β‐turn involving residues Acc³‐Cys⁶ in [Acc³]AVP and [Cpa¹,Acc³]AVP, and by type IV or II′ in [Acc²,DArg⁸]VP. Replacement of Tyr at position 2 of [Acc²,DArg⁸]VP with Acc afforded a hydrogen bond between the guanidine moiety of DArg⁸ and the side chain of either Asn⁵ or Gln⁴. In the remaining analogues, the β‐turn comprising the Cys⁶‐Gly⁹ residues allows the positively charged side chain of Arg⁸ to be directed toward Tyr². The substitution of Cys¹ with Cpa¹ enhances hydrophobic properties of N‐terminal part of the molecule strengthening thereby the affinity to the binding pocket of receptors.