Zika virus NS2A inhibits interferon signaling by degradation of STAT1 and STAT2

Fanunza, Elisa; Carletti, Fabrizio; Quartu, Marina; Grandi, Nicole; Ermellino, Laura; Milia, Jessica; Corona, Angela; Capobianchi, Maria Rosaria; Ippolito, Giuseppe

doi:10.1080/21505594.2021.1935613

Cited by 25 publications

(26 citation statements)

References 72 publications

(112 reference statements)

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“…There is evidence that regions of the viral genome that encode non-structural proteins present substantial variability ( Pollett et al., 2018 ). These differences could lead to critical phenotypic changes since these non-structural proteins are critical to the replication cycle, contain potential T cell epitopes, and have innate immune evasion capabilities ( Leung et al., 2008 ; Rastogi et al., 2016 ; Tian et al., 2019 ; Fanunza et al., 2021 ). Additionally, there is evidence of highly variable regions in the 3′UTR; variability in this region of the gRNA could impact the secondary and tertiary structures that are critical for the accumulation of subgenomic flaviviral RNAs (sfRNAs), which are small RNA products of the incomplete degradation of the gRNA by host 5′–3′ exonuclease XRN1, which have been associated with pathogenesis and type I interferon evasion ( Pijlman et al., 2008 ).…”

Section: Introductionmentioning

confidence: 99%

Variability in Susceptibility to Type I Interferon Response and Subgenomic RNA Accumulation Between Clinical Isolates of Dengue and Zika Virus From Oaxaca Mexico Correlate With Replication Efficiency in Human Cells and Disease Severity

Castro-Jiménez

Gómez-Legorreta

López-Campa

et al. 2022

Front. Cell. Infect. Microbiol.

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Dengue and Zika viruses cocirculate annually in endemic areas of Mexico, causing outbreaks of different magnitude and severity every year, suggesting a continuous selection of Flavivirus variants with variable phenotypes of transmissibility and virulence. To evaluate if Flavivirus variants with different phenotypes cocirculate during outbreaks, we isolated dengue and Zika viruses from blood samples of febrile patients from Oaxaca City during the 2016 and 2019 epidemic years. We compared their replication kinetics in human cells, susceptibility to type I interferon antiviral response, and the accumulation of subgenomic RNA on infected cells. We observed correlations between type I interferon susceptibility and subgenomic RNA accumulation, with high hematocrit percentage and thrombocytopenia. Our results suggest that Flaviviruses that cocirculate in Oaxaca, Mexico, have variable sensitivity to the antiviral activity of type I interferons, and this phenotypic trait correlates with the severity of the disease.

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Section: Introductionmentioning

confidence: 99%

Variability in Susceptibility to Type I Interferon Response and Subgenomic RNA Accumulation Between Clinical Isolates of Dengue and Zika Virus From Oaxaca Mexico Correlate With Replication Efficiency in Human Cells and Disease Severity

Castro-Jiménez

Gómez-Legorreta

López-Campa

et al. 2022

Front. Cell. Infect. Microbiol.

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“…The innate immune response, especially the IFN pathway, is activated due to the presence of viral RNA, which is pathogen-associated molecular pattern (PAMP) that are recognized by pattern recognition receptors (PRRs; Green et al, 2014 ). However, host immune responses are weakened due to the degradation of STAT1 and STAT2 transcription factors that initiate the transcription of ISGs by NS2A during ZIKV infection ( Fanunza et al, 2021 ). Hence, we examined the ISGs transcript levels for DDX58 , IFIT1 , ISG15 , and IFNB1 , and analyzed the transcript levels of inflammatory cytokines including TNF-α and IL-6 that are associated with severe symptoms during ZIKV infection ( Abdalla et al, 2018 ).…”

Section: Discussionmentioning

confidence: 99%

Rapid Construction of an Infectious Clone of the Zika Virus, Strain ZKC2

Qin

Chen

et al. 2021

Front. Microbiol.

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Zika virus (ZIKV) has had detrimental effects on global public health in recent years. This is because the management of the disease has been limited, in part because its pathogenic mechanisms are not yet completely understood. Infectious clones are an important tool that utilize reverse genetics; these can be used to modify the ZIKV genomic RNA at the DNA level. A homologous recombination clone was used to construct pWSK29, a low copy plasmid that contained sequences for a T7 promoter, the whole genome of ZIKV ZKC2 strain, and a hepatitis delta virus ribozyme. High fidelity PCR was then used to amplify the T7 transcription template. The transcript was then transfected into susceptible cells via lipofection to recover the ZIKV ZKC2 strain. Finally, the virulence of rZKC2 was evaluated both in vitro and in vivo. The rZKC2 was successfully obtained and it showed the same virulence as its parent, the ZIKV ZKC2 strain (pZKC2), both in vitro and in vivo. The 3730 (NS2A-D62G) mutation site was identified as being important, since it had significant impacts on rZKC2 recovery. The 4015 (NS2A, A157V) mutation may reduce virus production by increasing the interferon type I response. In this study, one of the earliest strains of ZIKV that was imported into China was used for infectious clone construction and one possible site for antiviral medication development was discovered. The use of homologous recombination clones, of PCR products as templates for T7 transcription, and of lipofection for large RNA transfection could increase the efficiency of infectious clone construction. Our infectious clone provides an effective tool which can be used to explore the life cycle and medical treatment of ZIKV.

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“…In addition, DENV NS2A, NS4A and NS4B can suppress the transcription of ISRE promoter and ISGs by blocking the phosphorylation of STAT1/STAT2 and hinder their nuclear localization to inhibit the IFN response (156), and the NS2A of ZIKV and the NS4B of WNV and YFV have similar functions (157)(158)(159). NS2A and NS4B from multiple DENV serotypes can also inhibit IFN production by targeting IRF3 and TBK1, but only NS4A from serotype-1 can inhibit TBK1 (160).…”

Section: Flavivirus Immune Evasionmentioning

confidence: 99%

Flaviviruses: Innate Immunity, Inflammasome Activation, Inflammatory Cell Death, and Cytokines

et al. 2022

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The innate immune system is the host’s first line of defense against the invasion of pathogens including flavivirus. The programmed cell death controlled by genes plays an irreplaceable role in resisting pathogen invasion and preventing pathogen infection. However, the inflammatory cell death, which can trigger the overflow of a large number of pro-inflammatory cytokines and cell contents, will initiate a severe inflammatory response. In this review, we summarized the current understanding of the innate immune response, inflammatory cell death pathway and cytokine secretion regulation during Dengue virus, West Nile virus, Zika virus, Japanese encephalitis virus and other flavivirus infections. We also discussed the impact of these flavivirus and viral proteins on these biological processes. This not only provides a scientific basis for elucidating the pathogenesis of flavivirus, but also lays the foundation for the development of effective antiviral therapies.

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Zika virus NS2A inhibits interferon signaling by degradation of STAT1 and STAT2

Cited by 25 publications

References 72 publications

Variability in Susceptibility to Type I Interferon Response and Subgenomic RNA Accumulation Between Clinical Isolates of Dengue and Zika Virus From Oaxaca Mexico Correlate With Replication Efficiency in Human Cells and Disease Severity

Variability in Susceptibility to Type I Interferon Response and Subgenomic RNA Accumulation Between Clinical Isolates of Dengue and Zika Virus From Oaxaca Mexico Correlate With Replication Efficiency in Human Cells and Disease Severity

Rapid Construction of an Infectious Clone of the Zika Virus, Strain ZKC2

Flaviviruses: Innate Immunity, Inflammasome Activation, Inflammatory Cell Death, and Cytokines

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