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Article Abstract
Grass carp reovirus type II (GCRV-II) has inflicted substantial economic damage to aquaculture industry due to highly contagious. To combat epidemic GCRV-II, we rational designed and constructed a multi-epitope nanoparticle vaccine (Pep-Fn) that consisted with cell penetrating peptide (CPP), epitope peptides, cell and grass carp-derived ferritin. Firstly, an anti-GCRV-II phage antibody library was constructed to screen antibodies for outer capsid proteins VP4 and VP35. Ab-1 and Ab-3 were successfully screened and demonstrated high affinity with GCRV-II particles. We further identified five potential epitopes (Pep1-Pep5) on the outer capsid protein recognized by Ab-1 and Ab-3 through protein-protein docking and alanine scanning mutagenesis. Then, a self-assembled nanoparticle displaying the Pep1-Pep5 and CPP on the surface was constructed for Pep-Fn preparation. Benefit from the nano-sized particle structure, Pep-Fn could overcome the body surface barrier and accumulate in the immune organs. Experiments demonstrated that Pep-Fn could effectively stimulate grass carp to produce anti-GCRV-II antibodies via immersion immunization and also provided protective effect against GCRV-II challenge. Collectively, our research provides a new vaccine design strategy for combating GCRV-II, and demonstrates the great potential of protein-based nanoparticle as a platform for GCRV-II vaccine development.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12403303 | PMC |
| http://dx.doi.org/10.1186/s12964-025-02411-9 | DOI Listing |
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