Differential alphavirus defective RNA diversity between intracellular and encapsidated compartments is driven by subgenomic recombination events

Author:

Langsjoen RMORCID,Muruato AE,Kunkel SR,Jaworski E,Routh A

Abstract

ABSTRACTAlphaviruses are positive-sense RNA arboviruses that can cause either a chronic arthritis or a potentially lethal encephalitis. Like other RNA viruses, alphaviruses produce truncated, defective genomes featuring large deletions during replication. Defective RNAs (D-RNAs) have primarily been isolated from virions after high-multiplicity of infection passaging. Here, we aimed to characterize both intracellular and packaged viral D-RNA populations during early passage infections under the hypothesis that D-RNAs arisede novointracellularly that may not be packaged and thus have remained undetected. To this end, we generated NGS libraries using RNA derived from passage 1 (P1) stock chikungunya virus (CHIKV) 181/clone 25, intracellular virus, and encapsidated P2 virus and analyzed samples for D-RNA expression, followed by diversity and differential expression analyses. We found that the diversity of D-RNA species is significantly higher for intracellular D-RNA populations than encapsidated and specific populations of D-RNAs are differentially expressed between intracellular and encapsidated compartments. Importantly, these trends were likewise observed in a murine model of CHIKV 15561 infection, as well asin vitrostudies using related Mayaro, Sindbis, and Aura viruses. Additionally, we identified a novel subtype of subgenomic D-RNA that are conserved across arthritogenic alphaviruses. D-RNAs specific to intracellular populations were defined by recombination events specifically in the subgenomic region, which was confirmed by direct RNA nanopore sequencing of intracellular CHIKV RNAs. Together, these studies show that only a portion of D-RNAs generated intracellularly are packaged and D-RNAs readily arisede novoin the absence of transmitted template.IMPORTANCEOur understanding of viral defective RNAs (D-RNAs), or truncated viral genomes, comes largely from passaging studies in tissue culture under artificial conditions and/or packaged viral RNAs. Here, we show that specific populations of alphavirus D-RNAs arisede novoand that they are not packaged into virions, thus imposing a transmission bottleneck and impeding their prior detection. This raises important questions about the roles of D-RNAs, both in nature and in tissue culture, during viral infection and whether their influence is constrained by packaging requirements. Further, during the course of these studies, we found a novel type of alphavirus D-RNA that is enriched intracellularly; dubbed subgenomic D-RNAs (sgD-RNAs), they are defined by deletion boundaries between capsid/E3 and E1/3’UTR regions and are common to chikungunya, Mayaro, Sindbis, and Aura viruses. These sgD-RNAs are enriched intracellularly and do not appear to be selectively packaged, and additionally may exist as subgenome-derived transcripts.

Publisher

Cold Spring Harbor Laboratory

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