Issue 47, 2022

Impact of β-perfluoroalkyl substitution of proline on the proteolytic stability of its peptide derivatives

Abstract

A series of all stereoisomers of β-CF3 or β-C2F5 substituted prolines and their dipeptide derivatives were synthesized. Mouse plasma stability assay was carried out to study the impact of fluoroalkyl substituents on the proteolytic stability of proline-derived peptides. The effect of the (R)-/(S)-configuration at the C-2 atom in combination with electronic and steric effects imposed by fluoroalkyl groups was addressed to rationalize the difference in the half-life stability of diastereomeric β-CF3–Pro–Gly and β-C2F5–Pro–Gly derivatives and compared to those of parent (S)-Pro–Gly and (R)-Pro–Gly dipeptides. The steric effect was predominant when the β-CF3 or β-C2F5 group was placed properly to create a spatial interference within the pockets of proteases, thereby protecting the substances from degradation (e.g., for cis-isomeric derivatives). Otherwise, a smaller electronic effect accelerating proteolysis was in charge (i.e., for the (2S,3S) isomers).

Graphical abstract: Impact of β-perfluoroalkyl substitution of proline on the proteolytic stability of its peptide derivatives

Supplementary files

Article information

Article type
Paper
Submitted
05 Aug 2022
Accepted
07 Sep 2022
First published
08 Sep 2022

Org. Biomol. Chem., 2022,20, 9337-9350

Impact of β-perfluoroalkyl substitution of proline on the proteolytic stability of its peptide derivatives

A. V. Chernykh, D. Aloshyn, Y. O. Kuchkovska, C. G. Daniliuc, N. A. Tolmachova, I. S. Kondratov, S. Zozulya, O. O. Grygorenko and G. Haufe, Org. Biomol. Chem., 2022, 20, 9337 DOI: 10.1039/D2OB01430K

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