Abstract
Abstract Current seasonal influenza A virus (IAV) vaccines often exhibit reduced efficacy to seasonal strains and offer limited protection to novel pandemics. A number of therapies, including vaccines, that are successful in mice often fail to translate to humans. This could be due to housing animals in specific pathogen free (SPF) conditions. Humans are exposed to a variety of natural host pathogens that SPF mice are protected from. Unlike SPF mice, the immune system of pet store mice more closely recapitulates the immune system of humans. When SPF mice are co-housed with pet store mice harboring natural mouse pathogens, termed dirty mice, these co-housed mice obtain phenotypes observed in the human immune system. In order to determine if dirty mice are an improved mouse model for vaccine development/testing, we sought to study the adaptive immune response to IAV in dirty mice. We infected SPF housed mice or dirty mice with IAV and assessed viral replication, clearance and adaptive immune responses. When we assessed memory responses to IAV in control or dirty mice, we observed altered B and T cell responses in dirty mice. These data demonstrate the importance of studying IAV in the dirty mouse model to facilitate more effective vaccine development and testing before human studies are performed.
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