Abstract
Theiler's virus is a neurotropic picornavirus responsible for chronic infections of the central nervous system. The establishment of a persistent infection and the subsequent demyelinating disease triggered by the virus depend on the expression of L*, a viral accessory protein encoded by an alternative open reading frame of the virus. We discovered that L* potently inhibits the interferon-inducible OAS/RNase L pathway. The antagonism of RNase L by L* was particularly prominent in macrophages where baseline oligoadenylate synthetase (OAS) and RNase L expression levels are elevated, but was detectable in fibroblasts after IFN pretreatment. L* mutations significantly affected Theiler's virus replication in primary macrophages derived from wild-type but not from RNase L-deficient mice. L* counteracted the OAS/RNase L pathway through direct interaction with the ankyrin domain of RNase L, resulting in the inhibition of this enzyme. Interestingly, RNase L inhibition was species-specific as Theiler's virus L* protein blocked murine RNase L but not human RNase L or RNase L of other mammals or birds. Direct RNase L inhibition by L* and species specificity were confirmed in an in vitro assay performed with purified proteins. These results demonstrate a novel viral mechanism to elude the antiviral OAS/RNase L pathway. By targeting the effector enzyme of this antiviral pathway, L* potently inhibits RNase L, underscoring the importance of this enzyme in innate immunity against Theiler's virus.
Highlights
Control of infectious agents is a major challenge in the homeostasis maintenance of organisms
Antiviral activity of the oligoadenylate synthetase (OAS)/RNase L pathway was demonstrated for a wide variety of viruses including Encephalomyocarditis virus (EMCV) [8], Herpes Simplex virus-1 (HSV-1) [9,10], Vaccinia virus (VV) [11], Coxsackie B4 virus [12], West Nile virus [13] and Coronaviruses [14,15]
L* activity was found to be species-specific as it inhibited murine but not human RNase L
Summary
Control of infectious agents is a major challenge in the homeostasis maintenance of organisms. The 29–59 oligoadenylate synthetase (OAS)/RNase L pathway is one of the best-characterized IFN effector pathways [1]. This tightly regulated antiviral pathway operates by controlling RNA integrity. Triggering of the OAS/RNase L pathway depends on the production of dsRNA, a by-product of viral replication [2]. Active RNase L subsequently cleaves singlestranded regions of viral and cellular RNA, leading to the inhibition of protein synthesis, decreased viral replication and cell apoptosis. Antiviral activity of the OAS/RNase L pathway was demonstrated for a wide variety of viruses including Encephalomyocarditis virus (EMCV) [8], Herpes Simplex virus-1 (HSV-1) [9,10], Vaccinia virus (VV) [11], Coxsackie B4 virus [12], West Nile virus [13] and Coronaviruses [14,15]
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