Journal
PLOS ONE
Volume 8, Issue 3, Pages -Publisher
PUBLIC LIBRARY SCIENCE
DOI: 10.1371/journal.pone.0057275
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Funding
- National Institutes of Health [K23 AI67501, HHSN266200500030C (N01-AI50029), AI054953]
- [HHSN266200700008C]
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Human CD4 T cell recall responses to influenza virus are strongly biased towards Type 1 cytokines, producing IFN gamma, IL-2 and TNF alpha. We have now examined the effector phenotypes of CD4 T cells in more detail, particularly focusing on differences between recent versus long-term, multiply-boosted responses. Peptides spanning the proteome of temporally distinct influenza viruses were distributed into pools enriched for cross-reactivity to different influenza strains, and used to stimulate antigen-specific CD4 T cells representing recent or long-term memory. In the general population, peptides unique to the long-circulating influenza A/New Caledonia/20/99 (H1N1) induced Th1-like responses biased toward the expression of IFN gamma+TNF alpha(+) CD4 T cells. In contrast, peptide pools enriched for non-cross-reactive peptides of the pandemic influenza A/California/04/09 (H1N1) induced more IFN gamma-IL-2(+)TNF alpha(+) T cells, similar to the IFN gamma-IL-2(+) non-polarized, primed precursor T cells (Thpp) that are a predominant response to protein vaccination. These results were confirmed in a second study that compared samples taken before the 2009 pandemic to samples taken one month after PCR-confirmed A/California/04/09 infection. There were striking increases in influenza-specific TNF alpha(+), IFN gamma(+), and IL-2(+) cells in the post-infection samples. Importantly, peptides enriched for non-cross-reactive A/California/04/09 specificities induced a higher proportion of Thpp-like IFN gamma-IL-2(+)TNF alpha(+) CD4 T cells than peptide pools cross-reactive with previous influenza strains, which induced more Th1 (IFN gamma+TNF alpha(+)) responses. These IFN gamma-IL-2(+)TNF alpha(+) CD4 T cells may be an important target population for vaccination regimens, as these cells are induced upon infection, may have high proliferative potential, and may play a role in providing future effector cells during subsequent infections.
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