Abstract
Many viruses use specific viral proteins to bind calcium ions (Ca2+) for stability or to modify host cell pathways; however, to date, no Ca2+ binding protein has been reported in bluetongue virus (BTV), the causative agent of bluetongue disease in livestock. Here, using a comprehensive bioinformatics screening, we identified a putative EF-hand-like Ca2+ binding motif in the carboxyl terminal region of BTV nonstructural phosphoprotein 2 (NS2). Subsequently, using a recombinant NS2, we demonstrated that NS2 binds Ca2+ efficiently and that Ca2+ binding was perturbed when the Asp and Glu residues in the motif were substituted by alanine. Using circular dichroism analysis, we found that Ca2+ binding by NS2 triggered a helix-to-coil secondary structure transition. Further, cryo-electron microscopy in the presence of Ca2+ revealed that NS2 forms helical oligomers which, when aligned with the N-terminal domain crystal structure, suggest an N-terminal domain that wraps around the C-terminal domain in the oligomer. Further, an in vitro kinase assay demonstrated that Ca2+ enhanced the phosphorylation of NS2 significantly. Importantly, mutations introduced at the Ca2+ binding site in the viral genome by reverse genetics failed to allow recovery of viable virus, and the NS2 phosphorylation level and assembly of viral inclusion bodies (VIBs) were reduced. Together, our data suggest that NS2 is a dedicated Ca2+ binding protein and that calcium sensing acts as a trigger for VIB assembly, which in turn facilitates virus replication and assembly.IMPORTANCE After entering the host cells, viruses use cellular host factors to ensure a successful virus replication process. For replication in infected cells, members of the Reoviridae family form inclusion body-like structures known as viral inclusion bodies (VIB) or viral factories. Bluetongue virus (BTV) forms VIBs in infected cells through nonstructural protein 2 (NS2), a phosphoprotein. An important regulatory factor critical for VIB formation is phosphorylation of NS2. In our study, we discovered a characteristic calcium-binding EF-hand-like motif in NS2 and found that the calcium binding preferentially affects phosphorylation level of the NS2 and has a role in regulating VIB assembly.
Highlights
Bluetongue virus (BTV) of the Orbivirus genus in the Reoviridae family is an insectborne animal pathogen
By site-specific targeted mutagenesis in the recombinant non-structural phosphoprotein 2 (NS2) and in the replicating viral genome by reverse genetics, we identified the specific Ca2+ binding site of NS2 and demonstrated its importance in NS2 phosphorylation level, formation of viral inclusion bodies (VIBs) and virus replication
We found that the relative positioning of signature residues of EF hand motif and Ca2+ binding residues identified in NS2 are different than that has been observed in typical EF hand containing calcium binding proteins (CaBP), making this putative motif less obvious
Summary
Bluetongue virus (BTV) of the Orbivirus genus in the Reoviridae family is an insectborne animal pathogen. The non-enveloped BTV particle is a complex icosahedral structure, consisting of seven structural proteins (VP1 to VP7) that are organised in an outer capsid and an inner capsid (core). The outer capsid is composed of two major proteins, VP2 and VP5, and is responsible for attachment and membrane penetration. Both proteins are lost during endocytosis and the inner core is subsequently released into the cytoplasm. In addition to 7 structural proteins, four non-structural proteins, NS1-NS4 are synthesised during virus replication. Two of these are major non-structural (NS)
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