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Article Abstract
Dengue fever is a significant mosquito-borne viral disease that affects millions of people every year. As a co-existing mechanism, DENV has evolved to evade elimination by the host antiviral immune system. DENV is reported to modulate host interferon response either by attenuating the factors that mediate interferon response like STAT1 and STAT2 or inhibiting the activation of STAT1 or by STAT2 degradation. Through this study we aim to understand how DENV modulates STAT3 mediated interferon response to its own advantage. We employed various techniques like Western blot, Confocal microscopy, RT-PCR to show that STAT3 acts as a pro-viral factor for DV-2 propagation. As per result of the present study STAT3 is upregulated as well as activated by phosphorylation in DV-2 infected A549 cells. Additionally, STAT3 knockdown led to a significant decrease in expression of viral proteins as well as viral replication. We show that DV-2 strategically tweaks STAT3 which is a negative regulator of Type I IFN signaling, in order to evade host Type I and Type III interferon response by upregulating its expression and activation. Our results demonstrate the proviral role of STAT3 for DV-2 propagation which is correlated to activation by tyrosine phosphorylation. Furthermore, since STAT3 is critical factor for DV-2 propagation, its modulation can facilitate targeted development of antivirals against Dengue.
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| http://dx.doi.org/10.1016/j.virusres.2021.198436 | DOI Listing |
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