Vibrio cholerae outer membrane vesicles inhibit bacteriophage infection

Abstract

Novel preventatives could help in efforts to limit Vibrio cholerae infection and the spread of cholera. Bacteriophage (phage) treatment has been proposed as an alternative intervention, given the rapid replication of virulent phages, prey specificity, and relative ease of finding new virulent phages. Phage tropism is dictated in part by the presence of phage receptors on the bacterial surface. While many phages that can kill V. cholerae have been isolated, whether this pathogen is able to defend itself by neutralizing phage binding is unknown. Here, we show that secreted outer membrane vesicles (OMVs) act as a defense mechanism that confers protection to V. cholerae against phage predation and that this OMV-mediated inhibition is phage receptor dependent. Our results suggest that phage therapy or prophylaxis should take into consideration the production of OMVs as a bacterial decoy mechanism that could influence the outcome of phage treatment.