Abstract
Human 2′-5′ oligoadenylate synthetase-1 (OAS1) is central in innate immune system detection of cytoplasmic double-stranded RNA (dsRNA) and promotion of host antiviral responses. However, the molecular signatures that promote OAS1 activation are currently poorly defined. We show that the 3′-end polyuridine sequence of viral and cellular RNA polymerase III non-coding transcripts is critical for their optimal activation of OAS1. Potentiation of OAS1 activity was also observed with a model dsRNA duplex containing an OAS1 activation consensus sequence. We determined that the effect is attributable to a single appended 3′-end residue, is dependent upon its single-stranded nature with strong preference for pyrimidine residues and is mediated by a highly conserved OAS1 residue adjacent to the dsRNA binding surface. These findings represent discovery of a novel signature for OAS1 activation, the 3′-single-stranded pyrimidine (3′-ssPy) motif, with potential functional implications for OAS1 activity in its antiviral and other anti-proliferative roles.
Highlights
The cellular innate immune system is the first line of defense against invading pathogens
To determine whether the enhancement of oligoadenylate synthetase (OAS) isoform 1 (OAS1) activation by the 3 -singlestranded pyrimidine (3 -ssPy) motif is a general phenomenon, we examined the requirement for similar sequences in two other structured RNA Pol III transcripts: the non-coding Epstein– Barr virus encoded RNA 1 (EBER-1) and the cellular noncoding RNA 886 (Supplementary Figure S2B and C)
Our results demonstrate that optimal activation of OAS1 by double-stranded RNA (dsRNA) with a 3 -ssPy motif is critically dependent on the single-stranded nature of the motif with strong preference for pyrimidine base
Summary
The cellular innate immune system is the first line of defense against invading pathogens. One potent PAMP is cytosolic double-stranded RNA (dsRNA), produced as a consequence of viral replication [1] This foreign nucleic acid is detected by cellular dsRNA sensors, such as the 2 -5 oligoadenylate synthetase (OAS) family of enzymes, each with distinct but overlapping specificities, which elicit host antiviral responses [2,3,4,5,6]. Viral mRNA susceptibility to RNase L cleavage is correlated with virus fitness [11], and susceptibility to viruses such as West Nile Virus and Dengue Virus can be mapped to polymorphisms in OAS isoform 1 (OAS1) [12,13] In spite of this growing body of evidence that viral evasion of OAS is important for effective replication of a range of viruses, many details of molecular control of this enzyme family remain unknown
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