[No authors listed]
DDX21 regulates the biogenesis of rRNA and transcription of ribonucleoprotein genes. Recently, it has been reported that DDX21 regulates the growth of some RNA viruses through various mechanisms, such as inhibiting viral genome replication, suppressing virion assembly and release, and modulating antiviral immune responses (Chen et al., Cell Host Microbe 15:484-493, 2014, https://doi.org/10.1016/j.chom.2014.03.002; Dong et al., Biophys Res Commun, 473:648-653, 2016, https://doi.org/10.1016/j.bbrc.2016.03.120; and Watanabe et al., PLoS Pathog 5:e1000654, 2009, https://doi.org/10.1371/journal.ppat.1000654). The relationship between DDX21 and DNA viruses has not yet been explored. In this study, we used human cytomegalovirus (HCMV), a large human DNA virus, to investigate the potential role of DDX21 in DNA virus replication. We found that HCMV infection prevented the repression of DDX21 at protein and mRNA levels. Knockdown of DDX21 inhibited HCMV growth in human fibroblast cells (MRC5). Immunofluorescence and quantitative PCR (qPCR) results showed that knockdown of DDX21 did not affect viral DNA replication or the formation of the viral replication compartment but did significantly inhibit viral late gene transcription. Some studies have reported that DDX21 knockdown promotes the accumulation of R-loops that could restrain RNA polymerase II elongation and inhibit the transcription of certain genes. Thus, we used the DNA-RNA hybrid-specific S9.6 antibody to stain R-loops and observed that more R-loops formed in DDX21-knockdown cells than in control cells. Moreover, an DNA-RNA immunoprecipitation assay showed that more R-loops accumulated on a viral late gene in DDX21-knockdown cells. Altogether, these results suggest that DDX21 knockdown promotes the accumulation of R-loops, which prevents viral late gene transcription and consequently results in the suppression of HCMV growth. This finding provides new insight into the relationship between DDX21 and DNA virus replication.IMPORTANCE Previous studies have confirmed that DDX21 is vital for the regulation of various aspects of RNA virus replication. Our research is the first report on the role of DDX21 in HCMV DNA virus replication. We identified that DDX21 knockdown affected HCMV growth and viral late gene transcription. In order to elucidate how DDX21 regulated this transcription, we applied DNA-RNA immunoprecipitation by using the DNA-RNA hybrid-specific S9.6 antibody to test whether more R-loops accumulated on the viral late gene. Consistent with our expectation, more R-loops were detected on the viral late gene at late HCMV infection time points, which demonstrated that the accumulation of R-loops caused by DDX21 knockdown prevented viral late gene transcription and consequently impaired HCMV replication. These results reveal that DDX21 plays an important role in regulating HCMV replication and also provide a basis for investigating the role of DDX21 in regulating other DNA viruses.
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