Approach to peptide decorated micelles via RAFT polymerization

Abstract

AbstractPyridyldisulfide (PDS) functionalized telechelic polymers of oligo(ethyleneglycol) acrylate (PEG‐A) and their amphiphilic triblock copolymers with styrene (St) were synthesized directly by reversible addition‐fragmentation chain transfer (RAFT) polymerization using a new bifunctional RAFT agent, S,S‐bis[α,α′‐dimethyl‐α″‐(2‐pyridyl disulfide) ethyl acetate] trithiocarbonate (BDPET). The homopolymerization of PEG‐A was found to be well controlled using BDPET (PDI < 1.2). The ABA triblock copolymers poly(PEG‐A)‐b‐poly(St)‐b‐poly(PEG‐A) with narrow molecular weight distribution (PDI < 1.25) were synthesized using poly(PEG‐A) as a macro‐RAFT agent. UV‐vis spectroscopic analysis revealed that 85 mol % of poly(PEG‐A) and 78 mol % of poly(PEG‐A)‐b‐poly(St)‐b‐poly(PEG‐A) retained PDS end group functionality. Micelles were observed to form from poly(PEG‐A)‐b‐poly(St)‐b‐poly(PEG‐A). The presence of PDS groups within the micelle corona was evidenced by UV‐vis spectroscopy and fluorescence spectroscopy. The PDS groups within the corona were then used to functionalize the micelles with a thiol group bearing model peptide, reduced glutathione, and a thiol modified fluorophore, rhodamine B, under mild reaction conditions. UV‐vis and fluorescence spectrocopies revealed that approximately 80% PDS groups from the amphiphilic copolymer were tethered within the micelle coronas and accessible to glutathione and fluorophore attachment. © 2008 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 47: 899–912, 2009