Dissecting the Interaction Domains of SARS-CoV-2 Nucleocapsid Protein and Human RNA Helicase DDX3X and Search for Potential Inhibitors
Camilla Lodola, Maria Michela Pallotta, Fabrizio Manetti, Paolo Governa, Emmanuele Crespan, Giovanni Maga, Massimiliano Secchi

TL;DR
This study identifies how the SARS-CoV-2 nucleocapsid protein interacts with a human RNA helicase and finds potential inhibitors to block this interaction.
Contribution
The study defines key interaction domains between SARS-CoV-2 Np and DDX3X and identifies two candidate inhibitors to disrupt their complex.
Findings
The RecA2 domain of DDX3X is critical for binding to SARS-CoV-2 nucleocapsid protein.
Two small molecule candidates were identified that may inhibit Np-RNA complex formation.
Truncated protein variants helped map the interaction regions between Np and DDX3X.
Abstract
The SARS-CoV-2 nucleocapsid protein (Np) plays multifunctional roles in the viral life cycle. By interacting with host cellular proteins, Np regulates viral RNA transcription, replication, and immune evasion. It controls genome packaging and counteracts host RNA interference mediated antiviral responses through its RNA binding activity. Previous studies revealed a physical interaction between Np and DDX3X, a human DEAD-box RNA helicase that facilitates the replication of several viruses. This interaction enhances Np affinity for double-stranded RNA and inhibits DDX3X helicase activity. Since Np-RNA binding activity promotes ribonucleoprotein complex formation, targeting this interaction is a promising antiviral strategy. We generated truncated protein variants to define interaction regions between Np and DDX3X. Using AlphaFold modelling, we identified RecA2 as the key DDX3X domain…
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Taxonomy
TopicsRNA Research and Splicing · RNA regulation and disease · SARS-CoV-2 and COVID-19 Research
