Influenza A virus infection induces viral and cellular defective ribosomal products encoded by alternative reading frames
Date
2019
Authors
Zanker, Damien
Oveissi, Sara
Tscharke, David
Duan, Mubing
Wan, Siyuan
Zhang, Xiaomu
Xiao, Kun
Mifsud, Nicole A.
Gibbs, James
Izzard, Lenny
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American Association of Immunologists
Abstract
The importance of antiviral CD8+ T cell recognition of alternative reading frame (ARF)–derived peptides is uncertain. In this study,
we describe an epitope (NS1-ARF21–8) present in a predicted 14-residue peptide encoded by the +1 register of NS1 mRNA in the
influenza A virus (IAV). NS1-ARF21–8 elicits a robust, highly functional CD8+ T cell response in IAV-infected BALB/c mice. NS1-
ARF21–8 is presented from unspliced NS mRNA, likely from downstream initiation on a Met residue that comprises the P1 position of
NS1-ARF21–8. Derived from a 14-residue peptide with no apparent biological function and negligible impacts on IAV infection,
infectivity, and pathogenicity, NS1-ARF21–8 provides a clear demonstration of how immunosurveillance exploits natural errors in
protein translation to provide antiviral immunity. We further show that IAV infection enhances a model cellular ARF translation,
which potentially has important implications for virus-induced autoimmunity.
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Journal of Immunology
Type
Journal article
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2099-12-31
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