Disruption of Zika virus xrRNA1-dependent sfRNA1 production results in tissue-specific attenuated viral replication

Sparks, Hadrian; Monogue, Brendan; Akiyama, Benjamin M.; Kieft, Jeffrey S.; Beckham, J. David

doi:10.1101/2020.09.10.281949

Cited by 4 publications

(6 citation statements)

References 37 publications

(44 reference statements)

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“…However, as this deletion causes major structural disruption in viral 3′UTR, which is also required for viral replication ( 40 ), this model does not allow separation of the effects caused by sfRNA deficiency from the effect of compromised genome integrity. Another study used partially sfRNA-deficient ZIKV (still producing sfRNA2, equivalent to our xrRNA1′ mutant) and found that the mutation did not affect viral replication in cell lines while causing reduced maternal blood viremia and placental viral loads in a mouse pregnancy model ( 41 ). However, this study could not assess the effect of sfRNA on transplacental virus dissemination and fetal brain infection, as even WT ZIKV in these experiments was not detected in fetal heads ( 41 ).…”

Section: Discussionmentioning

confidence: 99%

“…Another study used partially sfRNA-deficient ZIKV (still producing sfRNA2, equivalent to our xrRNA1′ mutant) and found that the mutation did not affect viral replication in cell lines while causing reduced maternal blood viremia and placental viral loads in a mouse pregnancy model ( 41 ). However, this study could not assess the effect of sfRNA on transplacental virus dissemination and fetal brain infection, as even WT ZIKV in these experiments was not detected in fetal heads ( 41 ).…”

Section: Discussionmentioning

confidence: 99%

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Zika virus noncoding RNA cooperates with the viral protein NS5 to inhibit STAT1 phosphorylation and facilitate viral pathogenesis

et al. 2022

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All flaviviruses, including Zika virus, produce noncoding subgenomic flaviviral RNA (sfRNA), which plays an important role in viral pathogenesis. However, the exact mechanism of how sfRNA enables viral evasion of antiviral response is not well defined. Here, we show that sfRNA is required for transplacental virus dissemination in pregnant mice and subsequent fetal brain infection. We also show that sfRNA promotes apoptosis of neural progenitor cells in human brain organoids, leading to their disintegration. In infected human placental cells, sfRNA inhibits multiple antiviral pathways and promotes apoptosis, with signal transducer and activator of transcription 1 (STAT1) identified as a key shared factor. We further show that the production of sfRNA leads to reduced phosphorylation and nuclear translocation of STAT1 via a mechanism that involves sfRNA binding to and stabilizing viral protein NS5. Our results suggest the cooperation between viral noncoding RNA and a viral protein as a novel strategy for counteracting antiviral responses.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Zika virus noncoding RNA cooperates with the viral protein NS5 to inhibit STAT1 phosphorylation and facilitate viral pathogenesis

et al. 2022

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“…Studies have shown that deleterious mutations, as well as RNA structure-altering mutations in the flavivirus 3'UTR led to reduced viral burden and pathogenesis in mouse models 14,21,26,[28][29][30][31] . To investigate potential alterations in the pathogenesis of our ZIKV DB-1 mutant clones, we used an AG129 mouse model for ZIKV infection.…”

Section: Analysis Of Zikv-tlpk and Zikv-p25' In Murine Modelmentioning

confidence: 99%

Zika virus dumbbell-1 structure is critical for sfRNA presence and cytopathic effect during infection

Graham

Merrick

Akiyama

et al. 2023

Preprint

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Zika virus (ZIKV) contains multiple conserved RNA structures in the viral 3′ untranslated region (UTR), including the structure known as dumbbell-1 (DB-1). Previous research has shown that the DB-1 structure is important for flavivirus genome replication and cytopathic effect (CPE). However, the role of the DB structure and the mechanism by which it contributes to viral pathogenesis is not known. Using recently solved flavivirus DB RNA structural data, we designed two DB-1 mutant ZIKV infectious clones termed ZIKV-TL.PK, which disrupts DB-1 tertiary folding and ZIKV-p.2.5′, which alters DB-1 secondary structure formation. In cell culture, we found that viral genome replication of both mutant clones is not significantly affected compared to ZIKV-WT, but viral CPE is considerably decreased. We investigated sub-genomic flaviviral RNA (sfRNA) formation by both DB-1 mutants following A549 infection and found both mutant clones have decreased levels of all sfRNA species compared to ZIKV-WT during infection. To investigate the mechanism of decreased CPE in our DB-1 mutant clones, we assayed ZIKV DB mutant-infected A549 cells for cell viability and caspase activation. We found that cell viability is significantly increased in DB-1 mutant-infected cells compared to ZIKV-WT due to reduced caspase 3 activation. We also show that replication of the ZIKV-P.2.5′ mutant was significantly restricted by type I interferon treatment without altering interferon stimulated gene expression. Using a murine model of ZIKV infection, we show that both ZIKV-DB-1 mutants exhibit reduced morbidity and mortality compared to ZIKV-WT virus due to tissue specific attenuation in ZIKV-DB viral replication in the brain tissue. Overall, our data show that the flavivirus DB-1 RNA structure is important for maintaining sfRNA levels during infection which supports caspase-3 dependent, viral cytopathic effect, type 1 interferon resistance, and viral pathogenesis in a mouse model.

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“…In some TBE viruses, there are seven stem-loops: SL1-SL7 (Sakai et al, 2015;Ochsenreiter et al, 2019). These SL structures are conserved among flaviviruses and are responsible for the inhibition of the activity of Xrn-1 nuclease, an important process for the generation of sfRNAs, which participate in the antiviral evasion mechanisms in both mammals and mosquitoes (Funk et al, 2010;Villordo et al, 2015;Göertz et al, 2016;Chen et al, 2018;Bellone et al, 2020), including viral adaptation, fitness, virulence, and tissue tropism (Funk et al, 2010;Liu et al, 2018;Finol and Ooi, 2019;Sparks et al, 2020). In WNV, the SL-III has an inhibitory effect on translation since its deletion increase viral translation efficiency (Berzal-Herranz et al, 2022).…”

Section: Flavivirus 3' Utrmentioning

confidence: 99%

“…The nomenclature referred by Liu et al, 2018 for the stem loops present in the variable region are in parenthesis. The variable regions of West Nile (WNV- Tilgner et al, 2005;Funk et al, 2010;Clarke et al, 2015, andGöertz et al, 2016), Japanese encephalitis (JEV- Chen et al, 2018 andXing et al, 2021), Tick borne encephalitis (TBEV- Muto et al, 2018 andSakai et al, 2015) and Zika viruses (ZIKV- Schneider andSparks et al, 2020) are shown. Additionally, the first dumbbell structure of ZIKV (Schneider and Wolfinger, 2019) is also included.…”

Section: Flavivirus 3' Utrmentioning

confidence: 99%

Interactions of host miRNAs in the flavivirus 3´UTR genome: From bioinformatics predictions to practical approaches

Avila-Bonilla

Salas-Benito

2022

Front. Cell. Infect. Microbiol.

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The genus Flavivirus of the Flaviviridae family includes important viruses, such as Dengue, Zika, West Nile, Japanese encephalitis, Murray Valley encephalitis, tick-borne encephalitis, Yellow fever, Saint Louis encephalitis, and Usutu viruses. They are transmitted by mosquitoes or ticks, and they can infect humans, causing fever, encephalitis, or haemorrhagic fever. The treatment resources for these diseases and the number of vaccines available are limited. It has been discovered that eukaryotic cells synthesize small RNA molecules that can bind specifically to sequences present in messenger RNAs to inhibit the translation process, thus regulating gene expression. These small RNAs have been named microRNAs, and they have an important impact on viral infections. In this review, we compiled the available information on miRNAs that can interact with the 3’ untranslated region (3’UTR) of the flavivirus genome, a conserved region that is important for viral replication and translation.

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Disruption of Zika virus xrRNA1-dependent sfRNA1 production results in tissue-specific attenuated viral replication

Cited by 4 publications

References 37 publications

Zika virus noncoding RNA cooperates with the viral protein NS5 to inhibit STAT1 phosphorylation and facilitate viral pathogenesis

Zika virus noncoding RNA cooperates with the viral protein NS5 to inhibit STAT1 phosphorylation and facilitate viral pathogenesis

Zika virus dumbbell-1 structure is critical for sfRNA presence and cytopathic effect during infection

Interactions of host miRNAs in the flavivirus 3´UTR genome: From bioinformatics predictions to practical approaches

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