3-Thiopropionic acid as a highly versatile multidetachable thioester resin linker

This paper describes a practical new use of 3-mercaptopropionic acid as a highly versatile multidetachable linker for solid-phase synthesis. Our approach is based on the stability of the alkylthioester functionality to optimized Boc-SPPS protocols and HF treatment, as well as on the mild activation of the thioester functionality toward nucleophilic or reductive displacement. This allows several C-terminal modifications to be introduced into a synthetic molecule during the cleavage step. We have shown that unprotected peptides can be efficiently cleaved from a propyl thioester-polyethylene glycol-poly-(N,N- dimethylacrylamide) copolymer resin using a great variety of nucleophiles to give the corresponding C-terminally modified peptides (esters, thioesters, carboxylic acids, thioacids, amides, hydroxamic acids, hydrazides, alcohols). The nucleophilic cleavage reaction is both rapid and exceptionally clean in all the cases tested.