Abstract
Picornaviruses are important viral pathogens, but despite extensive study, the assembly process of their infectious virions is still incompletely understood, preventing the development of anti-viral strategies targeting this essential part of the life cycle. We report the identification, via RNA SELEX and bioinformatics, of multiple RNA sites across the genome of a typical enterovirus, enterovirus-E (EV-E), that each have affinity for the cognate viral capsid protein (CP) capsomer. Many of these sites are evolutionarily conserved across known EV-E variants, suggesting they play essential functional roles. Cryo-electron microscopy was used to reconstruct the EV-E particle at ~2.2 Å resolution, revealing extensive density for the genomic RNA. Relaxing the imposed symmetry within the reconstructed particles reveals multiple RNA-CP contacts, a first for any picornavirus. Conservative mutagenesis of the individual RNA-contacting amino acid side chains in EV-E, many of which are conserved across the enterovirus family including poliovirus, is lethal but does not interfere with replication or translation. Anti-EV-E and anti-poliovirus aptamers share sequence similarities with sites distributed across the poliovirus genome. These data are consistent with the hypothesis that these RNA-CP contacts are RNA Packaging Signals (PSs) that play vital roles in assembly and suggest that the RNA PSs are evolutionarily conserved between pathogens within the family, augmenting the current protein-only assembly paradigm for this family of viruses.
Highlights
Positive-sense, single-strandedRNA viruses of the Picornaviridae family cause major disease in a wide range of vertebrate species and include >30 genera [1]
We showed that the RNA fragments in the human parechovirus-1 (HPeV-1) genome are recognised by its capsid protein (CP) sequence-and function as RNA Packaging Signals (PSs) [12]
empty capsid (EC) were accumulated in vivo by treating EV-E-infected cells with guanidine hydrochloride (GuHCl) to inhibit viral RNA replication whilst allowing protein translation to continue [31]
Summary
Positive-sense, single-stranded (ss)RNA viruses of the Picornaviridae family cause major disease in a wide range of vertebrate species and include >30 genera [1]. Enterovirus-E (EV-E), formerly known as bovine enterovirus [2], a surrogate for poliovirus (PV), belongs to one of the best studied genera, the enteroviruses, which include PV and the human rhinoviruses [3]. Ubiquitous it causes predominately asymptomatic infections in cattle [4]. PV is the subject of a WHO-sponsored vaccination-based eradication campaign [5]. It has not been possible to develop similar effective vaccines for most picornaviruses, creating unmet needs for anti-virals. Virion assembly would make an ideal target for such therapy
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