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Engineered Bacterial Outer Membrane Vesicles with Lipidated Heterologous Antigen as an Adjuvant-Free Vaccine Platform for Streptococcus suis

Quan Li, Guodong Zhou, Fei Xia, Yichen Tian, Shifeng Wang, Huoying Shi

2023Applied and Environmental Microbiology20 citationsDOIOpen Access PDF

Abstract

Bacterial outer membrane vesicles (OMVs) have become a promising vaccine platform due to their excellent built-in adjuvanticity properties. However, the location and amount of the expression of the heterologous antigen in the OMVs delivered by the genetic engineering strategies should be optimized. In this study, we exploited the lipoprotein transport pathway to engineer OMVs with heterologous antigen. Not only did lapidated heterologous antigen accumulate in the engineered OMV compartment at high levels, but also it was engineered to be delivered on the OMV surface, thus leading to the optimal activation of antigen-specific B cells and T cells. Immunization with engineered OMVs induced a strong antigen-specific antibodies in mice and conferred 100% protection against S. suis challenge. In general, the data of this study provide a versatile strategy for the engineering of OMVs and suggest that OMVs engineered with lipidated heterologous antigens may be a vaccine platform for significant pathogens.

Topics & Concepts

AdjuvantHeterologousAntigenImmune systemBacterial outer membraneMicrobiologyBiologyVaccinationStreptococcus suisImmunizationVirologyImmunologyVirulenceGeneBiochemistryEscherichia coliBacterial Infections and VaccinesStreptococcal Infections and TreatmentsNeonatal and Maternal Infections