A Viral Suppressor Modulates the Plant Immune Response Early in Infection by Regulating MicroRNA Activity

Many viral suppressors (VSRs) counteract antiviral RNA silencing, a central component of the plant's immune response by sequestration of virus-derived antiviral small interfering RNAs (siRNAs). Here, we addressed how VSRs affect the activities of cellular microRNAs (miRNAs) during a viral infec...

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Veröffentlicht in:mBio 2018-04, Vol.9 (2)
Hauptverfasser: Pertermann, Robert, Tamilarasan, Selvaraj, Gursinsky, Torsten, Gambino, Giorgio, Schuck, Jana, Weinholdt, Claus, Lilie, Hauke, Grosse, Ivo, Golbik, Ralph Peter, Pantaleo, Vitantonio, Behrens, Sven-Erik
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Sprache:eng
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Zusammenfassung:Many viral suppressors (VSRs) counteract antiviral RNA silencing, a central component of the plant's immune response by sequestration of virus-derived antiviral small interfering RNAs (siRNAs). Here, we addressed how VSRs affect the activities of cellular microRNAs (miRNAs) during a viral infection by characterizing the interactions of two unrelated VSRs, the p19 and the 2b, with miRNA 162 (miR162), miR168, and miR403. These miRNAs regulate the expression of the important silencing factors Dicer-like protein 1 (DCL1) and Argonaute proteins 1 and 2 (AGO1 and AGO2), respectively. Interestingly, while the two VSRs showed similar binding profiles, the miRNAs were bound with significantly different affinities, for example, with the affinity of miR162 greatly exceeding that of miR168. silencing experiments revealed that p19 and 2b affect miRNA-mediated silencing of the , , and mRNAs in strict accordance with the VSR's miRNA-binding profiles. In -infected plants, the miRNA-binding behavior of p19 closely corresponded to that Most importantly, in contrast to controls with a Δp19 virus, infections with wild-type (wt) virus led to changes of the levels of the miRNA-targeted mRNAs, and these changes correlated with the miRNA-binding preferences of p19. This was observed exclusively in the early stage of infection when viral genomes are proposed to be susceptible to silencing and viral siRNA (vsiRNA) concentrations are low. Accordingly, our study suggests that differential binding of miRNAs by VSRs is a widespread viral mechanism to coordinately modulate cellular gene expression and the antiviral immune response during infection initiation. Plant viruses manipulate their hosts in various ways. Viral suppressor proteins (VSRs) interfere with the plant's immune response by sequestering small, antivirally acting vsiRNAs, which are processed from viral RNAs during the plant's RNA-silencing response. Here, we examined the effects of VSRs on cellular microRNAs (miRNAs), which show a high degree of similarity with vsiRNAs. Binding experiments with two unrelated VSRs and three important regulatory miRNAs revealed that the proteins exhibit similar miRNA-binding profiles but bind different miRNAs at considerably different affinities. Most interestingly, experiments in plants showed that in the early infection phase, the VSR p19 modulates the activity of these miRNAs on their target mRNAs very differently and that this differential regulation strictly correlates with the binding
ISSN:2161-2129
2150-7511
DOI:10.1128/mBio.00419-18