Expression of plasmid-based shRNA against the E1 and nsP1 genes effectively silenced Chikungunya virus replication.

BACKGROUND: Chikungunya virus (CHIKV) is a re-emerging alphavirus that causes chikungunya fever and persistent arthralgia in humans. Currently, there is no effective vaccine or antiviral against CHIKV infection. Therefore, this study evaluates whether RNA interference which targets at viral genomic...

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Main Authors: Shirley Lam, Karen Caiyun Chen, Mary Mah-Lee Ng, Justin Jang Hann Chu
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2012-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3466284?pdf=render
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spelling doaj-10c4dcd47d154a709b16aa804ecf68912020-11-25T02:13:07ZengPublic Library of Science (PLoS)PLoS ONE1932-62032012-01-01710e4639610.1371/journal.pone.0046396Expression of plasmid-based shRNA against the E1 and nsP1 genes effectively silenced Chikungunya virus replication.Shirley LamKaren Caiyun ChenMary Mah-Lee NgJustin Jang Hann ChuBACKGROUND: Chikungunya virus (CHIKV) is a re-emerging alphavirus that causes chikungunya fever and persistent arthralgia in humans. Currently, there is no effective vaccine or antiviral against CHIKV infection. Therefore, this study evaluates whether RNA interference which targets at viral genomic level may be a novel antiviral strategy to inhibit the medically important CHIKV infection. METHODS: Plasmid-based small hairpin RNA (shRNA) was investigated for its efficacy in inhibiting CHIKV replication. Three shRNAs designed against CHIKV Capsid, E1 and nsP1 genes were transfected to establish stable shRNA-expressing cell clones. Following infection of stable shRNA cells clones with CHIKV at M.O.I. 1, viral plaque assay, Western blotting and transmission electron microscopy were performed. The in vivo efficacy of shRNA against CHIKV replication was also evaluated in a suckling murine model of CHIKV infection. RESULTS: Cell clones expressing shRNAs against CHIKV E1 and nsP1 genes displayed significant inhibition of infectious CHIKV production, while shRNA Capsid demonstrated a modest inhibitory effect as compared to scrambled shRNA cell clones and non-transfected cell controls. Western blot analysis of CHIKV E2 protein expression and transmission electron microscopy of shRNA E1 and nsP1 cell clones collectively demonstrated similar inhibitory trends against CHIKV replication. shRNA E1 showed non cell-type specific anti-CHIKV effects and broad-spectrum silencing against different geographical strains of CHIKV. Furthermore, shRNA E1 clones did not exert any inhibition against Dengue virus and Sindbis virus replication, thus indicating the high specificity of shRNA against CHIKV replication. Moreover, no shRNA-resistant CHIKV mutant was generated after 50 passages of CHIKV in the stable cell clones. More importantly, strong and sustained anti-CHIKV protection was conferred in suckling mice pre-treated with shRNA E1. CONCLUSION: Taken together, these data suggest the promising efficacy of anti-CHIKV shRNAs, in particular, plasmid-shRNA E1, as a novel antiviral strategy against CHIKV infection.http://europepmc.org/articles/PMC3466284?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Shirley Lam
Karen Caiyun Chen
Mary Mah-Lee Ng
Justin Jang Hann Chu
spellingShingle Shirley Lam
Karen Caiyun Chen
Mary Mah-Lee Ng
Justin Jang Hann Chu
Expression of plasmid-based shRNA against the E1 and nsP1 genes effectively silenced Chikungunya virus replication.
PLoS ONE
author_facet Shirley Lam
Karen Caiyun Chen
Mary Mah-Lee Ng
Justin Jang Hann Chu
author_sort Shirley Lam
title Expression of plasmid-based shRNA against the E1 and nsP1 genes effectively silenced Chikungunya virus replication.
title_short Expression of plasmid-based shRNA against the E1 and nsP1 genes effectively silenced Chikungunya virus replication.
title_full Expression of plasmid-based shRNA against the E1 and nsP1 genes effectively silenced Chikungunya virus replication.
title_fullStr Expression of plasmid-based shRNA against the E1 and nsP1 genes effectively silenced Chikungunya virus replication.
title_full_unstemmed Expression of plasmid-based shRNA against the E1 and nsP1 genes effectively silenced Chikungunya virus replication.
title_sort expression of plasmid-based shrna against the e1 and nsp1 genes effectively silenced chikungunya virus replication.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2012-01-01
description BACKGROUND: Chikungunya virus (CHIKV) is a re-emerging alphavirus that causes chikungunya fever and persistent arthralgia in humans. Currently, there is no effective vaccine or antiviral against CHIKV infection. Therefore, this study evaluates whether RNA interference which targets at viral genomic level may be a novel antiviral strategy to inhibit the medically important CHIKV infection. METHODS: Plasmid-based small hairpin RNA (shRNA) was investigated for its efficacy in inhibiting CHIKV replication. Three shRNAs designed against CHIKV Capsid, E1 and nsP1 genes were transfected to establish stable shRNA-expressing cell clones. Following infection of stable shRNA cells clones with CHIKV at M.O.I. 1, viral plaque assay, Western blotting and transmission electron microscopy were performed. The in vivo efficacy of shRNA against CHIKV replication was also evaluated in a suckling murine model of CHIKV infection. RESULTS: Cell clones expressing shRNAs against CHIKV E1 and nsP1 genes displayed significant inhibition of infectious CHIKV production, while shRNA Capsid demonstrated a modest inhibitory effect as compared to scrambled shRNA cell clones and non-transfected cell controls. Western blot analysis of CHIKV E2 protein expression and transmission electron microscopy of shRNA E1 and nsP1 cell clones collectively demonstrated similar inhibitory trends against CHIKV replication. shRNA E1 showed non cell-type specific anti-CHIKV effects and broad-spectrum silencing against different geographical strains of CHIKV. Furthermore, shRNA E1 clones did not exert any inhibition against Dengue virus and Sindbis virus replication, thus indicating the high specificity of shRNA against CHIKV replication. Moreover, no shRNA-resistant CHIKV mutant was generated after 50 passages of CHIKV in the stable cell clones. More importantly, strong and sustained anti-CHIKV protection was conferred in suckling mice pre-treated with shRNA E1. CONCLUSION: Taken together, these data suggest the promising efficacy of anti-CHIKV shRNAs, in particular, plasmid-shRNA E1, as a novel antiviral strategy against CHIKV infection.
url http://europepmc.org/articles/PMC3466284?pdf=render
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