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Assessment of Seasonal Influenza A Virus-Specific CD4 T-Cell Responses to 2009 Pandemic H1N1 Swine-Origin Influenza A Virus
Authors:Xinhui Ge  Venus Tan  Paul L. Bollyky  Nathan E. Standifer  Eddie A. James  William W. Kwok
Affiliation:Benaroya Research Institute at Virginia Mason, Seattle, Washington,1. Amgen, Inc., Seattle, Washington2.
Abstract:Very limited evidence has been reported to show human adaptive immune responses to the 2009 pandemic H1N1 swine-origin influenza A virus (S-OIV). We studied 17 S-OIV peptides homologous to immunodominant CD4 T epitopes from hemagglutinin (HA), neuraminidase (NA), nuclear protein (NP), M1 matrix protein (MP), and PB1 of a seasonal H1N1 strain. We concluded that 15 of these 17 S-OIV peptides would induce responses of seasonal influenza virus-specific T cells. Of these, seven S-OIV sequences were identical to seasonal influenza virus sequences, while eight had at least one amino acid that was not conserved. T cells recognizing epitopes derived from these S-OIV antigens could be detected ex vivo. Most of these T cells expressed memory markers, although none of the donors had been exposed to S-OIV. Functional analysis revealed that specific amino acid differences in the sequences of these S-OIV peptides would not affect or partially affect memory T-cell responses. These findings suggest that without protective antibody responses, individuals vaccinated against seasonal influenza A may still benefit from preexisting cross-reactive memory CD4 T cells reducing their susceptibility to S-OIV infection.The outbreak of H1N1 swine-origin influenza A virus (S-OIV) in April 2009 has raised a new threat to public health (5, 6). This novel virus (with A/California/04/09 H1N1 as a prototypic strain) not only replicated more efficiently but also caused more severe pathological lesions in the lungs of infected mice, ferrets, and nonhuman primates than a currently circulating human H1N1 virus (9). Similarly, human patients with influenza-like illness who tested negative for S-OIV had a milder clinical course than those who tested positive (13). Another major concern is the lack of immune protection against S-OIV in the human population. Initial serum analysis indicated that cross-reactive antibodies to this novel viral strain were detected in only one-third of people over 60 years of age, while humoral immune responses in the population under 60 years of age were rarely detected (3, 8). In addition, vaccination with recent seasonal influenza vaccines induced little or no cross-reactive antibody responses to S-OIV in any age group (3, 8).Only a few studies address whether preexisting seasonal influenza A virus-specific memory T cells cross-react with antigenic peptides derived from S-OIV (7). In the absence of preexisting cross-reactive neutralizing antibodies, it is likely that T-cell-mediated cellular immunity contributes to viral clearance and reduces the severity of symptoms, although virus-specific T cells cannot directly prevent the establishment of infection (10). Greenbaum and colleagues recently compared published T-cell epitopes for seasonal influenza viruses with S-OIV antigens (Ags) using a computational approach (7). Several seasonal H1N1 epitopes were found to be identical to S-OIV sequences. This implies that seasonal flu-specific memory T cells circulating in the peripheral blood of vaccinated and/or previously infected individuals are able to recognize their S-OIV homologues.The first objective of this study was to determine the extent of cross-reactivity of seasonal H1N1 influenza A virus-specific CD4 T cells with S-OIV epitopes, especially those less conserved peptide sequences. We chose 17 immunodominant DR4-restricted T-cell epitopes derived from a seasonal H1N1 strain, compared the binding of these epitopes and their S-OIV homologous peptides to DR4, tested the ability of S-OIV peptides to drive seasonal influenza virus-specific T-cell proliferation in vitro, and estimated the frequency of S-OIV cross-reactive T cells in the periphery of noninfected donors. We found that most homologous S-OIV peptides were able to activate seasonal H1N1 virus-specific CD4 T cells. The second objective was to compare the antigen dosage requirement to activate those T cells. By assessing the alternations in the functional avidities (of T cells to the cognate peptide and S-OIV homologue) due to amino acid differences in S-OIV peptides, we showed how those cross-reactive CD4 T cells differentially responded to the antigenic peptides derived from seasonal H1N1 virus or S-OIV. This study leads to the conclusion that previous exposure to seasonal H1N1 viral antigens will generate considerable levels of memory CD4 T cells cross-reactive with S-OIV.
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