Antigen-loaded exosomes alone induce Thl-type memory through a B cell dependent mechanism

Abstract

Exosomes are nanovesicles harboring proteins important for antigen presentation. We compared the potency of differently loaded exosomes, directly loaded with OVA323-339 peptide (Pep-Exo) or exosomes from OVA-pulsed DCs (OVA-Exo), for their ability to induce specific T-cell proliferation in vitro and in vivo. Both Pep-Exo and OVA-Exo elicited specific transgenic T-cell proliferation in vitro,with the Pep-Exo being more efficient. In contrast, only OVA-Exo induced specific T- cell responses in vivo highlighting the importance of indirect loading strategies in clinical applications. Coadministration of whole OVA overcame the unresponsiveness with Pep-Exo but still elicited a lower response compared with OVA-Exo. In parallel, we found that OVA-Exo not only augmented the specific T-cell response but also gave a Th1-type shift and an antibody response even in the absence of whole OVA. We detected IgG2a and interferon-γ production from splenocytes showing the capability of exosomes to provide antigen for B-cell activa tion. Furthermore, we found that B cells are needed for exosomal T-cell stimulation because Bruton tyrosine kinasedeficient mice showed abrogated B- and T-cell responses after OVA-Exo immunization. These findings reveal that exosomes are potent immune regulators and are relevant for the design of vaccine adjuvants and therapeutic intervention strategies to modulate immune responses. © 2009 by The American Society of Hematology.