Host antigen modulated anti-influenza immunity with antigen level dependent distinct mechanisms of severe influenza

Abstract

Abstract Some healthy individuals suffer from severe disease and even mortality with the same strain of influenza virus that causes self-limited illnesses in the majority of people. This fact exemplifies the importance of host factors in influenza disease manifestation. Our C3-HA transgenic mice express hemagglutinin (HA) as a self-antigen that is identical to the HA of PR8 influenza virus. Compared to wild type mice, C3-HA mice incurred severe disease with PR8, but not with HA-mismatched influenza virus. Self-HA in C3-HA mice altered the immune response to the infection and impaired clearance of the influenza virus. However, different mechanisms contribute for exacerbated disease in C3-HA mice with different level of HA. In C3-HALow mice, low-level self-HA modulated HA specific immunity upon infection with less clonotypic expansion, T-bet induction and effector cytokines IFN-γ and TNF-α production of both HA-specific CD4+ and CD8+ T cells on day 4- post infection. The T cell activation status contracted further on day 7- post infection. Impaired immunity resulted in delayed virus clearance leading to severe disease and death. In C3-HAHigh mice, high-level self-HA also modulated impaired immunity and virus clearance on day 4- post infection. In contrast to further reduction on day 7- post infection in C3-HALow mice, the HA specific T cell immunity was higher on day 7- than day 4- post infection in C3-HAHigh mice. The boosted HA specific immunity resulted in severe disease with autoimmunity as a predominant feature in pathology. Our animal model exemplified the complicated interaction between cross-reactive self-antigen and influenza virus with severe disease as the results of antigen level dependent distinct mechanisms.