Regulation of KHNYN antiviral activity by the extended di-KH domain and nucleo-cytoplasmic trafficking

The zinc finger antiviral protein (ZAP) restricts a broad range of viruses by binding CpG dinucleotides in viral RNA to target it for degradation and inhibit its translation. KHNYN was recently identified as an antiviral protein required for ZAP to inhibit retroviral replication, though little is known about its functional determinants. KHNYN contains an N-terminal extended di-KH-like domain, a PIN endoribonuclease domain and a C-terminal CUBAN domain that binds NEDD8 and ubiquitin. We show that deletion of the extended di-KH domain reduces its antiviral activity. However, despite its similarity to RNA binding KH domains, the extended di-KH domain in KHNYN does not appear to bind RNA. Mutation of residues in the CUBAN domain that bind NEDD8 increase KHNYN abundance but do not alter its antiviral activity, suggesting that this interaction regulates KHNYN homeostatic turnover. In contrast, a CRM1-dependent nuclear export signal (NES) at the C-terminus of the CUBAN domain is required for antiviral activity. Deletion of this signal retains KHNYN in the nucleus and inhibits its interaction with ZAP. Interestingly, this NES appeared in the KHNYN lineage at a similar time as when ZAP evolved in tetrapods, indicating that these proteins may have co-evolved to restrict viral replication. ### Competing Interest Statement The authors have declared no competing interest.