Rabies is a highly neurotropic disease caused by rabies lyssavirus (RABV). Human rabies vaccines exist for pre- and postexposure prophylaxis; however, after clinical symptoms appear, the disease has an ∼100% mortality rate with no effective treatments available. In our previous study, mouse neuroblastoma cells transfected with a plasmid coding one clone of a single-chain variable fragment (scFv), scFv-P19, against RABV phosphoprotein (RABV-P) derived from an scFv phage-display library, before infection, exhibited reduced viral propagation after infection with the RABV-fixed strain, CVS11. In this study, we conducted epitope mapping of scFv-P19 through indirect fluorescent assay and Western blotting analysis against full-length and N- or C-terminal truncated RABV-P. Our results suggest that scFv-P19 targets a portion containing amino acids 47-52 at the N-terminus, which partially overlaps with the N-terminal nuclear export sequences. This provides insights into the underlying mechanism associated with inhibition of RABV by scFv-P19, while allowing for the design of additional scFv-based therapeutic studies for RABV by integrating appropriate delivery and application systems. Furthermore, the results of this study suggest that scFv-P19 may serve as an effective tool for investigating nuclear trafficking of RABV-P to explore the roles of RABV-P isoforms in rabies pathogenesis.
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