A modular method for rapidly prototyping targeted gas vesicle protein nanoparticles

Gas vesicles (GVs) are air-filled protein nanoparticles which are proving to be useful in a number of biomedical applications. We hypothesized that it could be possible to develop a modular method for creating rapidly prototyped GVs by modifying their surface chemistry to include targeting peptides in an orientation-specific manner. Here, we describe a modular method to create targeted GVs using His-tagged antibody fragments, ensuring that the antibody fragments are connected to the GV in an orientation-specific manner. This is achieved via the functionalization of the GVs with nickel-nitrilotriacetic acid (Ni-NTA) group. First, we validated that these functionalized GVs can bind His-tagged green fluorescent protein and characterized the particle size and surface charge of functionalized GVs. Then, GVs targeted to prostate-specific membrane antigen (PSMA) using a minibody were validated using a knockout validation in vitro .