Multiple Antigen-Specific Processing Pathways for Activating Naive CD8+ T Cells In Vivo

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Multiple Antigen-Specific Processing Pathways for Activating Naive CD8⁺ T Cells In Vivo

Christopher C. Norbury¹^,*, Michael F. Princiotta^*, Igor Bacik^*, Randy R. Brutkiewicz², Philip Wood, Tim Elliott, Jack R. Bennink³^,* and Jonathan W. Yewdell³^,*

^* Laboratory of Viral Diseases, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, MD 20892; and CRC Medical Oncology Unit, Southampton General Hospital, Southampton, United Kingdom

Current knowledge of the processing of viral Ags into MHC class I-associatedligands is based almost completely on in vitro studies usingnonprofessional APCs (pAPCs). This is two steps removed fromreal immune responses to pathogens and vaccines, in which pAPCsactivate naive CD8⁺ T cells in vivo. Rational vaccine design requiresanswers to numerous questions surrounding the function of pAPCsin vivo, including their abilities to process and present peptidesderived from endogenous and exogenous viral Ags. In the presentstudy, we characterize the in vivo dependence of Ag presentationon the expression of TAP by testing the immunogenicity of modelAgs synthesized by recombinant vaccinia viruses in TAP1^-/- mice.We show that the efficiency of TAP-independent presentationin vitro correlates with TAP-independent activation of naiveT cells in vivo and provide the first in vivo evidence for proteolyticprocessing of antigenic peptides in the secretory pathway. Therewas, however, a clear exception to this correlation; althoughthe presentation of the minimal SIINFEKL determinant from chickenegg OVA in vitro was strictly TAP dependent, it was presentedin a TAP-independent manner in vivo. In vivo presentation ofthe same peptide from a fusion protein retained its TAP dependence.These results show that determinant-specific processing pathwaysexist in vivo for the generation of antiviral T cell responses.We present additional findings that point to cross-priming asthe likely mechanism for these protein-specific differences.

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