HUMAN-VIRUS CHIMERIC PROTEINS GENERATED DURING INFECTION

RNA viruses are a major threat to global human health. The life cycles of many highly pathogenic RNA viruses like influenza A virus (IAV) and Lassa virus depends on host mRNA, as viral polymerases cleave 5'm7G-capped host transcripts to prime viral mRNA synthesis ('cap-snatching'). We hypothesized that start codons within cap-snatched host transcripts could drive the expression of chimeric human-viral coding sequences. Here, we report the existence of this mechanism of gene origination ('start-snatching'), which creates, depending on the translatability of the viral UTRs, human-virus protein chimeras either as N-terminally extended viral proteins or entirely novel polypeptides by genetic overprinting. We show that both types of chimeric proteins are made in IAV-infected cells, can generate T cell responses and contribute to virulence. Our results indicate that IAV, and likely a multitude of other human-, animal- and plant-viruses, use this host-dependent mechanism to expand their proteome diversity during infection. Overall design: Ribosome profiling of influenza A infected cells