Peptide-Induced Formation of Extracellular Vesicles that are DistinctFrom Endogenous E. coli OMVs, and Provide an Enhanced Platformfor Protein Production and Purification.

Bacterial outer membrane vesicles (OMVs), are nano-sized, spherical structures released by Gram-negative bacteria that play diverse roles in bacterial physiology, including communication, nutrient acquisition, and host interactions. These vesicles bud from the bacterial outer membrane and contain lipopolysaccharides, periplasmic proteins, nucleotides, and other biomolecules. The Vesicle Nucleating peptide (VNp) is a short peptide tag that, when fused to the amino terminus of a protein of interest, promotes the formation of bespoke recombinant extracellular vesicles in Escherichia coli, enabling efficient production and simplified purification of recombinant proteins. Here, we characterise VNp-induced vesicles and compare their composition and organisation with naturally produced E. coli OMVs. While both vesicle types possess a single outer membrane-derived lipid bilayer, recombinant protein is highly enriched within the VNp vesicles compared to endogenous OMVs. VNp-fusions and periplasm-targeted recombinant proteins localize to distinct vesicle populations, with VNp-fusions showing markedly higher intra-vesicular concentrations and vesicular purity, compared to the OMV targeted protein. OmpX co-expression further enriched the VNp-fusion content of vesicles, further enhancing yield. The VNp-vesicle lumen is an oxidizing environment, thus supports formation of inter- and intra-molecular disulfide bonds within encapsulated proteins. Overall, VNp-induced vesicles represent a distinct class of recombinant extracellular vesicles that offer a simple and efficient route for producing and purifying concentrated, correctly folded recombinant proteins, expanding the utility of bacterial vesicle systems for biotechnological applications. Significance StatementBacterial extracellular vesicles are recognized as versatile tools for biotechnology yet engineering bacterial vesicle production in a controlled and efficient manner remains challenging. Here we describe how a short Vesicle Nucleating Peptide (VNp) tag, fused to a protein of interest, that can be used to program Escherichia coli to produce recombinant extracellular vesicles that are compositionally and structurally distinct from natural bacterial outer membrane vesicles (OMVs). VNp-induced vesicles are more homogeneous, and more highly enriched in target fusion proteins, providing a simple and efficient route for protein production and purification. The oxidizing lumen of these vesicles supports disulfide bond formation, and rapid compartmentalisation enables expression of otherwise challenging or toxic proteins. This work characterises a distinct class of recombinant bacterial vesicles and establishes a practical platform for producing correctly folded, concentrated, partially purified proteins in a self-packaged form, expanding the potential applications of bacterial extracellular vesicles in biotechnology and synthetic biology.