Development of Bifunctional, Raman Active Diyne‐Girder Stapled α‐Helical Peptides**

Author:

Morgan Danielle C.1,McDougall Laura1,Knuhtsen Astrid1,Jamieson Andrew G.1ORCID

Affiliation:

1. School of Chemistry Advanced Research Centre University of Glasgow 11 Chapel Lane Glasgow G11 6EW UK

Abstract

AbstractStapled peptides are a unique class of cyclic α‐helical peptides that are conformationally constrained via their amino acid side‐chains. They have been transformative to the field of chemical biology and peptide drug discovery through addressing many of the physicochemical limitations of linear peptides. However, there are several issues with current chemical strategies to produce stapled peptides. For example, two distinct unnatural amino acids are required to synthesize i, i+7 alkene stapled peptides, leading to high production costs. Furthermore, low purified yields are obtained due to cis/trans isomers produced during ring‐closing metathesis macrocyclisation. Here we report the development of a new i, i+7 diyne‐girder stapling strategy that addresses these issues. The asymmetric synthesis of nine unnatural Fmoc‐protected alkyne‐amino acids facilitated a systematic study to determine the optimal (S,S)‐stereochemistry and 14‐carbon diyne‐girder bridge length. Diyne‐girder stapled T‐STAR peptide 29 was demonstrated to have excellent helicity, cell permeability and stability to protease degradation. Finally, we demonstrate that the diyne‐girder constraint is a Raman chromophore with potential use in Raman cell microscopy. Development of this highly effective, bifunctional diyne‐girder stapling strategy leads us to believe that it can be used to produce other stapled peptide probes and therapeutics.

Funder

Engineering and Physical Sciences Research Council

Defence Science and Technology Laboratory

Publisher

Wiley

Subject

General Chemistry,Catalysis,Organic Chemistry

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