Exercises in Pyrrolidine Chemistry: Gram Scale Synthesis of a Pro–Pro Dipeptide Mimetic with a Polyproline Type II Helix Conformation

Abstract

A practical and scalable synthesis of a Fmoc‐protected tricyclic dipeptide mimetic (6), that is, a 1,4‐diaza‐tricyclo‐[8.3.0^3, 7^]‐tridec‐8‐ene derivative resembling a rigidified di‐L‐proline in a polyproline type II (PPII) helix conformation, was developed. The strategy is based on a Ru‐catalyzed ring‐closing metathesis of a dipeptide (4) prepared by PyBOP coupling of cis‐5‐vinylproline tert‐butylester (2) and trans‐N‐Boc‐3‐vinylproline (rac‐3) followed by chromatographic diastereomer separation. Building block 2 was prepared from L‐proline in six steps via electrochemical C5‐methoxylation, cyanation and conversion of the nitrile into a vinyl substituent. Building block rac‐3 was prepared in five steps exploiting a Cu‐catalyzed 1,4‐addition of vinyl‐MgBr to a 2,3‐dehydroproline derivative in the key step. In the course of the investigation subtle dependencies of protecting groups on the reactivity of the 2,3‐ and 2,5‐disubstituted pyrrolidine derivatives were observed. The configuration and conformational preference of several intermediates were determined by X‐ray crystallography. The developed synthesis allows the preparation of substantial amounts of 6, which will be used in the search for new small molecules for the modulation of protein–protein interactions involving prolin‐rich motifs (PRDs).