Most avian species lack interferon regulatory factor 3 (IRF3), a key transcription factor that initiates antiviral interferon responses, leaving how they achieve rapid RNA virus defense unclear. Here, we identify duck tripartite motif containing 25 protein (TRIM25) as an unexpected, central activator of IRF7-dependent antiviral signaling that compensates for the absence of IRF3. Viral RNA stimulation strongly induced TRIM25 expression in duck embryonic fibroblasts (DEFs). Overexpression of TRIM25 increased IFN-β production and restricted the replication of multiple RNA viruses in DEFs and in ducklings, whereas TRIM25 knockdown enhanced viral replication (tembusu virus, TMUV, novel duck reovirus, NDRV, vesicular stomatitis virus, VSV). Mechanistically, TRIM25 functioned as an E3 ubiquitin ligase that catalyzed K27-linked polyubiquitination of IRF7 at lysine 46 (K46), thereby promoting IRF7 stability and nuclear translocation. Mutation of TRIM25 catalytic residues or of IRF7 K46 abolished these effects. In addition, TRIM25 stabilized IRF7 independently of its ligase activity by antagonizing suppressor of cytokine signaling 1 (SOCS1)-mediated degradation. Notably, TRIM25-driven signaling occurred independently of retinoic acid-inducible gene I (RIG-I) activation. Together, these findings reveal a dual regulatory mechanism by which avian TRIM25 activates IRF7 to elicit robust type I interferon (IFN-I) responses, providing a molecular explanation for rapid antiviral immunity in species lacking IRF3.
Importance: Most avian species, including those in the orders Galliformes and Anseriformes, lack IRF3; consequently, IRF7 plays a pivotal and more comprehensive role in regulating innate immunity against viral infections. However, the activation and regulation by IRF7 in avian remain insufficiently characterized. In this study, we identify the E3 ubiquitin ligase duck TRIM25 as a positive regulator of IRF7. Functioning as an E3 ligase, TRIM25 stabilizes IRF7 expression and promotes its nuclear translocation through K27-linked polyubiquitination, thereby enhancing IFN-I production. Additionally, TRIM25 stabilizes IRF7 independently of its E3 ligase activity by suppressing SOCS1-mediated degradation. Activation of TRIM25 in vivo in ducks exhibits significant efficacy in antagonizing RNA virus infection. Collectively, our findings demonstrate that TRIM25 functions as a positive regulator, promoting IRF7-dependent signaling pathways to combat RNA viruses. This establishes TRIM25 as a crucial regulatory factor and potential target within the antiviral response.
Keywords: IRF7; TRIM25; innate immunity.