Diversity of Epitope and Cytokine Profiles for Primary and Secondary Influenza A Virus-Specific CD8+ T Cell Responses

Abstract

Screening with the flow cytometric IFN-γ assay has led to the identification of a new immunogenic peptide (SSYRRVPGI) from the influenza PB1 polymerase (PB1_703–711) and a mimotope (ISPLMVAYM) from the PB2 polymerase (PB2_198–206). CD8⁺ T cells specific for K^bPB1₇₀₃ make both IFN-γ and TNF-α following stimulation with both peptides. The CD8⁺ K^bPB1₇₀₃⁺ population kills PB2₁₉₈-pulsed targets, but cell lines stimulated with PB2₁₉₈ neither bind the K^bPB1₇₀₃ tetramer nor become CTL. This CD8⁺K^bPB1₇₀₃⁺ population is prominent in the primary response to an H3N2 virus, although it is much less obvious following secondary challenge of H1N1-primed mice. Even so, we can now account for >40% of the CD8⁺ T cells in a primary influenza pneumonia and >85% of those present after H3N2 → H1N1 challenge. Profiles of IFN-γ and TNF-α staining following in vitro stimulation have been traced for the four most prominent influenza peptides through primary and secondary responses into long-term memory. The D^bNP₃₆₆ epitope that is immunodominant after the H3N2 → H1N1 challenge shows the lowest frequencies of CD8⁺ IFN-γ⁺TNF-α⁺ cells for >6 wk, and the intensity of IFN-γ staining is also low for the first 3 wk. By 11 wk, however, the IFN-γ/TNF-α profiles look to be similar for all four epitopes. At least by the criterion of cytokine production, there is considerable epitope-related functional diversity in the influenza virus-specific CD8⁺ T cell response. The results for the K^bPB1₇₀₃ epitope and the PB2₁₉₈ mimotope also provide a cautionary tale for those using the cytokine staining approach to identity antigenic peptides.