Pre-existing matched antigen exacerbates the disease of influenza virus infection by attenuating antigen-specific T cell immunity

Abstract

Abstract Influenza virus infection causes mild and self-limiting illness in most of the healthy individuals, but some healthy people develops complications as a result of the infection and suffers from severe disease and eventually dies. Here we report that pre-existing matched antigens attenuate antigen-specific immunity to the infection. High virus load and associated increase of pathogenic innate response in the lungs exacerbates the disease. The C3-HAHigh and C3-HALow transgenic mice are with inherent expression of Hemagglutinin (HA) antigen from PR8 strain of H1N1 influenza virus. Compared to wild type mice, these mice suffered from severe disease and higher mortality upon infection of wild type PR8 virus but not upon infection of reverse genetically raised PR8 virus with replaced HA from H3N2 influenza virus. Adoptively transferred PR8 virus HA-specific 6.5 CD4+ and Clone-4 CD8+ T cells responded minimally to PR8 virus infection in C3-HA mice. There was less clonotypic expansion, T-bet induction and effector cytokines IFN-γ and TNF-α production of both 6.5 CD4+ and Clone-4 CD8+ T cells. Virus neutralizing antibodies were less as well. The attenuation was associated with increased LAG-3+ but not Foxp-3+ population of HA-specific T cells in the lungs. In contrast to the instigated weak antigen-specific immunity, PR8 virus infection caused neutrophils more efficient for inflammatory IL-6 secretion and robust bronchus infiltration in C3-HA mice. These results suggest that a host factor cross-reactive to the antigens of influenza virus may exacerbate the disease with similar attenuated antigen-specific adaptive immunity accompanied by augmented innate immunity to influenza virus infection.