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We previously reported that poly (γ-glutamic acid)-based nanoparticles (γ-PGA NPs) are excellent vaccine carriers for inducing efficient cross-presentation in dendritic cells, thereby producing strong antitumor immunity in vivo. Analyzing the mechanism of cross-presentation induced by γ-PGA NPs will be useful toward designing novel vaccine carriers. In this study, we show an intracellular mechanism of efficient cross-presentation induced by OVA-loaded γ-PGA NPs. Cross-presentation induced by γ-PGA NPs depended on cytoplasmic proteasomes and TAP, similar to the classical MHC class I presentation pathway for endogenous Ags. Intracellular behavior analyzed by confocal laser scanning microscopy revealed that encapsulated OVA and γ-PGA accumulated in both the endoplasmic reticulum (ER) and endosome compartments within 2 h. At the same time, electron microscopy analysis clearly showed that intracellular γ-PGA NPs and encapsulated Au NPs were enveloped in endosome-like vesicles, not in the ER. These findings strongly suggest that γ-PGA NPs enhance ER-endosome fusion for cross-presentation. Moreover, inhibition of ER translocon sec61 significantly decreased the γ-PGA NP/OVA-mediated cross-presentation efficiency, indicating that sec61 is important for transporting Ags from the fused ER-endosome to the cytoplasm. These findings imply that the ER-endosome complex is key for the efficient cross-presentation of Ags encapsulated in γ-PGA NPs.

Induction of Endoplasmic Reticulum–Endosome Fusion for Antigen Cross-Presentation Induced by Poly (γ-Glutamic Acid) Nanoparticles