Replication/Assembly Defective Avian Flavivirus With Internal Deletions in the Capsid Can Be Used as an Approach for Living Attenuated Vaccine

Ying He ,Jiaqi Guo,Xiaoli Wang,Di Sun,Qun Gao,Mafeng Liu,Yanling Yu,Sai Mao,Shaqiu Zhang,Li Mao,Ling Zhang,Anchun Cheng,Xinxin Zhao,Dekang Zhu,Shun Chen,Ying Wu,Senzhao Zhang,Juan Huang,Mingshu Wang,Qiao Yang,Xumin Ou,Renyong Jia,Yunya Liu,Tao Hu

doi:10.3389/fimmu.2021.694959

Abstract

Avian Tembusu virus (TMUV) is a novel flavivirus causing severe egg drop and fatal encephalitis in avian in Asia. In the present study, we screened the structural and functional requirements of TMUV capsid protein (CP) for viral morphogenesis using reverse genetics methods in combination with replicon packaging assays. TMUV-CP showed dramatic functional and structural flexibility, and even though 44 residues were removed from the N-terminus, it was still capable of packaging replicon RNA; in addition, 33 residues were deleted from the C-terminus (containing nearly the entire α4-helix), and infectious particles were still produced, although α4-α4’ is supposedly vital for CP dimerization and nucleocapsid formation. We further analyzed two mutants (ΔC20-43 and ΔC64-96 viruses) with relatively large deletions that still replicated well in BHK-21 cells. Our data indicate that internal deletions within CP impaired viral replication or assembly, resulting in attenuated virus proliferation in cells and attenuated virulence in duck embryos, and these deletion mutations are quite stable in cell culture. An in vivo assay indicated that both ΔC20-43 virus and ΔC64-96 virus were highly attenuated in ducklings but still immunogenic. Single-dose immunization with ΔC20-43 virus or ΔC64-96 virus could protect ducklings from a lethal challenge with good antigen clearance. Together, our data shed light on replication/assembly defective TMUV with internal deletions in CP and provide an effective approach to attenuate viral virulence in live vaccines without changing the antigen composition.

Highlights

Tembusu virus (TMUV) is a newly emerged virus that was first isolated from mosquitos in Malaysia in 1955 and belongs to the Flavivirus genus, Flaviviridae family
Combined with previously resolved capsid protein (CP) structures derived from dengue virus (DENV) [7], West Nile virus (WNV) [8], Zika virus (ZIKV) [6, 23] and Japanese encephalitis virus (JEV) [5], we proposed a structural model for TMUV-CP (Figure 1C)
The nucleotide and amino acid sequences of flavivirus capsids are not conserved among flavivirus genera, similar structures and properties are shared by all flavivirus CPs

Summary

Introduction

Tembusu virus (TMUV) is a newly emerged virus that was first isolated from mosquitos in Malaysia in 1955 and belongs to the Flavivirus genus, Flaviviridae family. Flaviviruses pose a significant threat to global public health, including dengue virus (DENV), Zika virus (ZIKV), yellow fever virus (YFV), Japanese encephalitis virus (JEV), West Nile virus (WNV), and tickborne encephalitis virus (TBEV). Most of these are arboviruses transmitted by mosquitoes or ticks, causing various diseases in animals and humans. Since the first outbreak of severe duck egg-drop syndrome caused by duck TMUV in mainland China in 2010 [1, 2], this virus has quickly spread to other avian species, causing enormous economic losses. Structural proteins form viral particles, and nonstructural proteins participate in viral replication/assembly processes and immune escape [3, 4]

Methods

Results

Conclusion