Author: Yang, Xiaoyun; Zhao, Chunling; Bamunuarachchi, Gayan; Wang, Yang; Liang, Yurong; Huang, Chaoqun; Zhu, Zhengyu; Xu, Dao; Lin, Kong; Senavirathna, Lakmini Kumari; Xu, Lan; Liu, Lin
Title: miRâ€193b represses influenza A virus infection by inhibiting Wnt/βâ€catenin signalling Cord-id: 1o4fb3na Document date: 2019_1_25
ID: 1o4fb3na
Snippet: Due to an increasing emergence of new and drugâ€resistant strains of the influenza A virus (IAV), developing novel measures to combat influenza is necessary. We have previously shown that inhibiting Wnt/βâ€catenin pathway reduces IAV infection. In this study, we aimed to identify antiviral human microRNAs (miRNAs) that target the Wnt/βâ€catenin signalling pathway. Using a miRNA expression library, we identified 85 miRNAs that upâ€regulated and 20 miRNAs that downâ€regulated the Wnt/βâ€c
Document: Due to an increasing emergence of new and drugâ€resistant strains of the influenza A virus (IAV), developing novel measures to combat influenza is necessary. We have previously shown that inhibiting Wnt/βâ€catenin pathway reduces IAV infection. In this study, we aimed to identify antiviral human microRNAs (miRNAs) that target the Wnt/βâ€catenin signalling pathway. Using a miRNA expression library, we identified 85 miRNAs that upâ€regulated and 20 miRNAs that downâ€regulated the Wnt/βâ€catenin signalling pathway. Fifteen miRNAs were validated to upâ€regulate and five miRNAs to downâ€regulate the pathway. Overexpression of four selected miRNAs (miRâ€193b, miRâ€548fâ€1, miRâ€1â€1, and miRâ€509â€1) that downâ€regulated the Wnt/βâ€catenin signalling pathway reduced viral mRNA, protein levels in A/PR/8/34â€infected HEK293 cells, and progeny virus production. Overexpression of miRâ€193b in lung epithelial A549 cells also resulted in decreases of A/PR/8/34 infection. Furthermore, miRâ€193b inhibited the replication of various strains, including H1N1 (A/PR/8/34, A/WSN/33, A/Oklahoma/3052/09) and H3N2 (A/Oklahoma/309/2006), as determined by a viral reporter luciferase assay. Further studies revealed that βâ€catenin was a target of miRâ€193b, and βâ€catenin rescued miRâ€193bâ€mediated suppression of IAV infection. miRâ€193b induced G0/G1 cell cycle arrest and delayed vRNP nuclear import. Finally, adenovirusâ€mediated gene transfer of miRâ€193b to the lung reduced viral load in mice challenged by a sublethal dose of A/PR/8/34. Collectively, our findings suggest that miRâ€193b represses IAV infection by inhibiting Wnt/βâ€catenin signalling.
Search related documents:
Co phrase search for related documents- low transfection and luciferase reporter: 1
Co phrase search for related documents, hyperlinks ordered by date