High-pressure-promoted Fmoc-aminoacylation of N-ethylcysteine: preparation of key devices for the solid-phase synthesis of peptide thioesters

In this study synthesis of Fmoc-aminoacyl-N-ethyl-S-triphenylmethylcysteine, a new N→S acyl migratory device for the preparation of peptide thioesters by Fmoc solid-phase peptide synthesis (SPPS) is described. Condensation of Fmoc-aminoacyl fluoride and N-ethyl-S-triphenylmethylcysteine allyl ester, readily prepared from known S-triphenylmethylcysteine allyl ester, was efficiently promoted in CH₂Cl₂ under high-pressure (800 MPa). When the reaction was performed with the additive DIEA, considerable epimerization at the chiral centers occurred, affording a mixture of diastereomers. When the preparation procedure for N-ethyl-S-triphenylmethylcysteine allyl ester was changed and the additive DIEA in the high-pressure reaction was excluded, Fmoc-aminoacyl-N-ethyl-S-triphenylmethylcysteines was obtained as a single stereoisomer without epimerization. The Fmoc-l-leucine adduct thus prepared was deallylated and used for the SPPS of a known decapeptide. A remarkable increase (44%) in the overall yield of the decapeptidethioester was achieved, compared to the 7% obtained by the stepwise on-resin Leu-Cys condensation method.