Engineering Outer Membrane Vesicles to Carry Enzymes: Encapsulation, Isolation, Characterization, and Modification

Outer membrane vesicles (OMVs) are small, spherical, nanoscale proteoliposomes released from Gram-negative bacteria that play an important role in cellular defense, pathogenesis, and signaling, among other functions. The functionality of OMVs can be enhanced by engineering developed for biomedical and biochemical applications. Here, we describe methods for directed packaging of enzymes into bacterial OMVs of E. coli using engineered molecular systems, such as localizing proteins to the inner or outer surface of the vesicle. Additionally, we detail some modification strategies for OMVs such as lyophilization and surfactant conjugation that enable the protection of activity of the packaged enzyme when exposed to non-physiological conditions such as elevated temperature, organic solvents, and repeated freeze/thaw that otherwise lead to a substantial loss in the activity of the free enzyme.