Novel functional degradable block copolymers for the building of reactive micelles

Abstract

Amphiphilic biocompatible copolymers are promising materials for the elaboration of nanosystems for drug delivery applications. This paper aims at reporting on the synthesis of new functional amphiphilic copolymers based on biocompatible and bioeliminable blocks. Poly(ethylene oxide) was selected as the hydrophilic block, whereas an aliphatic polyester, i.e. poly(ε-caprolactone), or a polycarbonate, i.e. poly(trimethylene carbonate), was chosen as the degradable hydrophobic block. In order to allow a post-functionalization of the micelles core, azide groups were introduced on the hydrophobic segment to provide reactivity towards functional alkyne derivatives by the copper azide–alkyne cycloaddition (CuAAC). For this purpose, a functional lactone, i.e. α-chloro-ε-caprolactone, was introduced during the polymerization of the hydrophobic block before being converted into azide on the preformed copolymer. Such reactivity of the block copolymers and their self-assemblies is of prime interest for drugs or fluorescent dyes grafting, or for the crosslinking of the micelle's core. The influence of the azides distribution along the degradable block on the micelles post-functionalization ability has been studied by using alkyne bearing fluorescent dyes as models for drugs. The hydrophilicity of the dye on the micelles post-functionalization efficiency has also been investigated.