Long non-coding RNAs (lncRNAs) regulate antiviral immunity against influenza A viruses, yet their roles in natural reservoir hosts like ducks remain unclear. In ducks, Retinoic acid-inducible gene I (RIG-I) contributes to their resistance to infection. To identify duck lncRNAs involved in RIG-I-mediated antiviral responses, we analyzed transcriptomic data from highly pathogenic avian influenza (HPAI)-infected duck lung tissues and identified lnc455 co-expressed with IFNβ. In-silico predictions suggested lnc455 could interact with RIG-I and MAVS, two key signaling proteins in the Type I IFN pathway. Functional assays in chicken cells showed that lnc455 enhances IFNβ promoter activity when co-expressed with either RIG-I or MAVS, even in the absence of viral ligand. However, our data did not show direct binding between lnc455 and RIG-I or MAVS. Instead, lnc455 was associated with Type I IFN negative regulators, including Pur-α, Pur-β, YB-1, HNRNPDL, and HNRNPAB. Notably, overexpression of HNRNPAB reduced MAVS-induced IFNβ activity and MAVS protein abundance, effects that were significantly rescued by lnc455. These findings suggest that lnc455 enhances Type I IFN signaling indirectly by modulating MAVS-associated repression rather than through direct interaction with upstream sensors. Together, our results identify lnc455 as a duck-specific lncRNA that fine-tunes antiviral Type I IFN responses through indirect regulation of the RIG-I/MAVS signaling pathway.
Legaspi et al. (Tue,) studied this question.