Enzyme-triggered cargo release from methionine sulfoxide containing copolypeptide vesicles.

We have developed a facile, scalable method for preparation of enzyme-responsive copolypeptide vesicles that requires no protecting groups or expensive components. We designed amphiphilic copolypeptides containing segments of water-soluble methionine sulfoxide, M(O), residues that were prepared by synthesis of a fully hydrophobic precursor diblock copolypeptide, poly(l-methionine)65-b-poly(L-leucine0.5-stat-L-phenylalanine0.5)20, M65(L0.5/F0.5)20, followed by its direct oxidation in water to give the amphiphilic M(O) derivative, M(O)65(L0.5/F0.5)20. Assembly of M(O)65(L0.5/F0.5)20 in water gave vesicles with average diameters of a few micrometers that could then be extruded to nanoscale diameters. The M(O) segments in the vesicles were found to be substrates for reductase enzymes, which regenerated hydrophobic M segments and resulted in a change in supramolecular morphology that caused vesicle disruption and release of cargos.