Abstract
C. elegans is a free-living nematode that is widely used as a small animal model for studying fundamental biological processes and disease mechanisms. Since the discovery of the Orsay virus in 2011, C. elegans also holds the promise of dissecting virus-host interaction networks and innate antiviral immunity pathways in an intact animal. Orsay virus primarily targets the worm intestine, causing enlarged intestinal lumen as well as visible changes to infected cells such as liquefaction of cytoplasm and convoluted apical border. Previous studies of Orsay virus identified that C. elegans is able to mount antiviral responses by DRH-1/RIG-I mediated RNA interference and Intracellular Pathogen Response, a uridylyltransferase that destabilizes viral RNAs by 3′ end uridylation, and ubiquitin protein modifications and turnover. To comprehensively search for novel antiviral pathways in C. elegans, we performed genome-wide RNAi screens by bacterial feeding using existing bacterial RNAi libraries covering 94% of the entire genome. Out of the 106 potential antiviral gene hits identified, we investigated those in three new pathways: collagens, actin remodelers, and epigenetic regulators. By characterizing Orsay virus infection in RNAi and mutant worms, our results indicate that collagens likely form a physical barrier in intestine cells to inhibit viral infection by preventing Orsay virus entry. Furthermore, evidence suggests that actin remodeling proteins (unc-34, wve-1 and wsp-1) and chromatin remodelers (nurf-1 and isw-1) exert their antiviral activities by regulating the intestinal actin (act-5), a critical component of the terminal web which likely function as another physical barrier to prevent Orsay infection.
Funder
Hamill Foundation
Welch Foundation
Division of Microbiology and Infectious Diseases, National Institute of Allergy and Infectious Diseases
Publisher
Public Library of Science (PLoS)
Reference45 articles.
1. Natural and experimental infection of Caenorhabditis nematodes by novel viruses related to nodaviruses;M-A Félix;PLoS Biol,2011
2. Natural Viruses of Caenorhabditis Nematodes;M-A Félix;Annu Rev Genet,2019
3. Orsay δ Protein Is Required for Nonlytic Viral Egress;W Yuan;J Virol,2018
4. Orsay virus utilizes ribosomal frameshifting to express a novel protein that is incorporated into virions;H Jiang;Virology,2014
5. Crystal structure of a nematode-infecting virus;YR Guo;Proc Natl Acad Sci,2014
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