The Synthesis of Acid‐ and Base‐Labile Lipopeptides on Solid Support

Abstract

Lipidated peptides, including characteristic partial structures of human Ras proteins, were synthesized by means of a new solid-phase technique in 22-68 % yield. This technique gives access to farnesylated, palmitoylated, and doubly lipidated peptides as methyl esters or carboxylic acids carrying a fluorescent tag or a maleimide moiety for coupling to proteins. The peptide backbones were built up on the resin by using 9-fluorenylmethoxycarbonyl chemistry together with the oxidatively cleavable hydrazide linker. As a key step, the acid-labile farnesyl and basic-labile palmitoyl lipid groups were introduced onto the resin after the cleavage of appropriate acid- or reduction-sensitive protecting groups from the cysteine residues. Optional introduction of different fluorescent tags or a maleimide group into the peptide was followed by release of the resin-bound target peptide as the methyl ester or carboxylic acid by very mild copper(II)-mediated oxidation in slightly acidic or basic media. This new methodology should substantially facilitate the access to lipidated peptides for the study of important biological phenomena like biological signal transduction, localization, and vesicular transport.