Early endonuclease-mediated evasion of RNA sensing ensures efficient coronavirus replication
Author summary Coronaviruses are long known to be particularly successful in evading host innate immune responses. This manifests in barely detectable interferon responses during the first hours of infection and greatly facilitates establishment of robust virus replication. This phenotype of early innate immune evasion is common to all coronaviruses and can have detrimental consequences particular for infections with highly pathogenic coronaviruses, such as SARS-CoV and MERS-CoV. We therefore hypothesized that there must be an evolutionary conserved viral function that has evolved to prevent sensing of coronavirus infection by infected host cells. Our study now describes this function, namely the highly conserved coronavirus endoribonuclease activity. We found that coronaviruses that lack this enzymatic activity are readily visible to infected host cells that can now mount a swift and potent host response restricting virus replication within hours. Our study provides a new paradigm of a first layer of RNA virus innate immune evasion during the early phase of infection, that takes place at the site of RNA synthesis, and is based on removal of dsRNA that would otherwise trigger the simultaneous activation of cytoplasmic host cell sensors.See it on Scoop.it, via Viruses and Bioinformatics from Virology.uvic.ca
Early endonuclease-mediated evasion of RNA sensing ensures efficient coronavirus replication
Source: Viral Bioinformatics