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. 2025 Mar 20;85(6):1147-1161.e9.
doi: 10.1016/j.molcel.2025.01.015. Epub 2025 Feb 6.

Exposure of negative-sense viral RNA in the cytoplasm initiates innate immunity to West Nile virus

Emmanuelle Genoyer  1 Jonathan Wilson  1 Joshua M Ames  1 Caleb Stokes  2 Dante Moreno  1 Noa Etzyon  1 Andrew Oberst  1 Michael Gale Jr  3
Affiliations

Exposure of negative-sense viral RNA in the cytoplasm initiates innate immunity to West Nile virus

Emmanuelle Genoyer et al. Mol Cell. .

Abstract

For many RNA viruses, immunity is triggered when RIG-I-like receptors (RLRs) detect viral RNA. However, only a minority of infected cells undergo innate immune activation. By examining these "first-responder" cells during West Nile virus infection, we found that specific accumulation of antigenomic negative-sense viral RNA (-vRNA) underlies innate immune activation and that RIG-I preferentially interacts with -vRNA. However, flaviviruses sequester -vRNA into membrane-bound replication compartments away from cytosolic sensors. We found that single-stranded -vRNA accumulates outside of replication compartments in first-responder cells, rendering it accessible to RLRs. Exposure of this -vRNA occurs at late time points of infection, is linked to viral assembly, and depends on the expression of viral structural proteins. These findings reveal that, although most infected cells replicate high levels of vRNA, release of -vRNA from replication compartments during assembly occurs at low frequency and is critical for initiation of innate immunity during flavivirus infection.

Keywords: RIG-I; RIG-I-like receptors; West Nile virus; antiviral response; innate immunity.

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Conflict of interest statement

Declaration of interests The authors declare no competing interests.

Update of

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