O‐acylation of hydroxyproline residues: Effect on peptide‐bond isomerization and collagen stability

Abstract

In collagen, strands of the sequence XaaYaaGly form a triple‐helical structure. The Yaa residue is often (2S,4R)‐4‐hydroxyproline (Hyp). The inductive effect of the hydroxyl group of Hyp residues greatly increases collagen stability. Here, electron withdrawal by the hydroxyl group in Hyp and its 4S diastereomer (hyp) is increased by the addition of an acetyl group or trifluoroacetyl group. The crystalline structures of AcHyp[C(O)CH₃]OMe and Achyp[C(O)CH₃]OMe are similar to those of AcHypOMe and AcProOMe, respectively. The O‐acylation of AcHypOMe and AchypOMe increases the ¹³C chemical shift of its C^γ atom: AcHyp[C(O)CF₃]OMe ≅ Achyp[C(O)CF₃]OMe > AcHyp[C(O)CH₃]OMe ≅ Achyp[C(O)CH₃]OMe ≥ AcHypOMe ≅ AchypOMe. This increased inductive effect is not apparent in the thermodynamics or kinetics of amide bond isomerization. Despite apparently unfavorable steric interactions, (ProHypGly)₁₀, which is O‐acylated with 10 acetyl groups, forms a triple helix that has intermediate stability: (ProHypGly)₁₀ > {ProHyp[C(O)CH₃]Gly}₁₀ ≫ (ProProGly)₁₀. Thus, the benefit to collagen stability endowed by the hydroxyl group of Hyp residues is largely retained by an acetoxyl group. © 2004 Wiley Periodicals, Inc. Biopolymers (Pept Sci), 2005