AI Article Synopsis
- The body's initial antiviral response involves host factors that detect viruses and produce interferons to counteract infection.
- Researchers discovered that different isoforms of the RNA-binding protein ZAP play dual roles; one helps limit the interferon response while the other helps fight viruses.
- The short ZAP isoform degrades certain host interferon mRNAs, acting as a negative feedback mechanism, whereas the long isoform focuses on antiviral activity without affecting interferon levels, demonstrating their distinct roles in immune response.
Article Abstract
The initial response to viral infection is anticipatory, with host antiviral restriction factors and pathogen sensors constantly surveying the cell to rapidly mount an antiviral response through the synthesis and downstream activity of interferons. After pathogen clearance, the host's ability to resolve this antiviral response and return to homeostasis is critical. Here, we found that isoforms of the RNA-binding protein ZAP functioned as both a direct antiviral restriction factor and an interferon-resolution factor. The short isoform of ZAP bound to and mediated the degradation of several host interferon messenger RNAs, and thus acted as a negative feedback regulator of the interferon response. In contrast, the long isoform of ZAP had antiviral functions and did not regulate interferon. The two isoforms contained identical RNA-targeting domains, but differences in their intracellular localization modulated specificity for host versus viral RNA, which resulted in disparate effects on viral replication during the innate immune response.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7240801 | PMC |
| http://dx.doi.org/10.1038/s41590-019-0527-6 | DOI Listing |
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