Tembusu virus (TMUV), a member of the genus flavivirus, primarily causes egg-drop syndrome in ducks and is associated with low disease mortality but high morbidity. The commercially available live vaccines for treating TMUV currently include the main WF100, HB, and FX2010-180P strains, and efficient treatment and/or preventative measures are still urgently needed. Capsid-targeted viral inactivation (CTVI) is a conceptually powerful new antiviral strategy that is based on two proteins from the capsid protein of a virus and a crucial effector molecule. The effector molecule can destroy the viral DNA/RNA or interfere with the proper folding of key viral proteins, while the capsid protein mainly plays a role in viral integration and assembly; the fusion proteins are incorporated into virions during packaging. This study aimed to explore the potential use of this strategy in duck TMUV. Our results revealed that these fusion proteins can be expressed in susceptible BHK21 cells without cytotoxicity and possess excellent Ca2+-dependent nuclease activity, and their expression is also detectable in DF-1 cells. Compared to those in the negative controls (BHK21 and BHK21/pcDNA3.1(+) cells), the numbers of viral RNA copies in TMUV-infected BHK21/Cap-SNase and BHK21/Cap-Linker-SNase cells were reduced by 48 h, and the effect of Cap-Linker-SNase was superior to that of Cap-SNase. As anticipated, these results suggest that these fusion proteins contribute to viral resistance to treatment. Thus, CTVI might be applicable for TMUV inhibition as a novel antiviral therapeutic candidate during viral infection.
Keywords: Antiviral therapeutic; Capsid-targeted viral inactivation; Flavivirus; Tembusu virus.
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