[28] The most straightforward mechanism of viral evasion of the IFN response is to avoid buy Dabrafenib detection in the first place. Several viruses conceal or degrade dsRNA, a by-product of viral replication. For example, tick-borne encephalitis virus delays antiviral signalling by sequestering RNA molecules into cytoplasmic membrane-defined compartments, where they are inaccessible to PRR recognition.[29] Similarly, Japanese encephalitis virus (JEV) conceals its dsRNA among intracellular membranes.[30] Amazingly, species-specific differences in the timing of the release of viral dsRNA into the cytosol account for the drastically different pathogenesis of JEV in humans compared with pigs.[30]
Rather than hide it, Lassa fever virus uses the 3′–5′ exonuclease activity of its NP protein to degrade its dsRNA,[31]
whereas the C protein from human parainfluenza virus type 1 is thought to regulate viral RNA production in such a way as to prevent dsRNA from accumulating at all.[32] Viral sensing phosphatase inhibitor library by PRRs activates three main transcription factor complexes involved in IFN-β production: NF-κB, IRF3/IRF7 and ATF2/c-jun (Fig. 2).[33] In resting cells, NF-κB is held as an inactive complex in the cytoplasm by its inhibitor, IκBα.[34] PRR activation stimulates IκBα phosphorylation and degradation, releasing NF-κB to translocate to the nucleus and induce target genes. A recent example of viral disruption of NF-κB activation involves the V protein from measles virus, which binds to the nuclear location signal of the NF-κB subunit p65, impairing its nuclear translocation.[35] The NF-κB essential modulator (NEMO), a regulatory component involved in the phosphorylation of IκBα,[36] is also targeted, as it is cleaved into inactive fragments by the FMDV protease 3Cpro.[37] Less is understood about ATF2/c-Jun. This complex is constitutively nuclear, even in its inactive form, and is stimulated by phosphorylation of its activation domains.[38] Virus infection triggers the stress-activated members of the mitogen-activated
protein (MAP) kinase superfamily, acetylcholine which phosphorylate and activate ATF2/cJun. For the first time, a viral protein blocking this complex has been described; the Zaire ebola virus protein VP24 prevents the phosphorylation of p38 MAP kinase and the downstream activation of ATF2.[39] Critical factors involved in IFN expression include IRF3 and IRF7.[40] IRF3, which is constitutively expressed in resting cells, is phosphorylated upon PRR signalling by the IκB kinase (IKK)-related kinases IKKε and TBK-1, causing IRF3 to homodimerize and translocate to the nucleus. There, IRF3 interacts with the histone acetyl transferases CBP and p300, and associates with the IFN-β promoter. IRF3 can also directly activate a subset of ISGs in the absence of IFN.[41, 42] Accordingly, IRF3 is a popular target for viral inhibition. The V protein of Sendai virus directly binds IRF3, impairing its function.