Screening efficient siRNAs in vitro as the candidate genes for chicken anti-avian influenza virus H5N1 breeding.

The frequent disease outbreaks caused by avian influenza virus (AIV) not only affect the poultry industry but also pose a threat to human safety. To address the problem, RNA interference (RNAi) has recently been widely used as a potential antiviral approach. Transgenesis, in combination with RNAi to specifically inhibit AIV gene expression, has been proposed to make chickens resistant to avian influenza. For the transgenic breeding, screening the efficient siRNAs in vitro as the candidate genes is one of the most important tasks. Here, we combined an online search tool and a series of bioinformatics programs with a set of rules for designing the siRNAs targeting different mRNA regions of AIV H5N1 subtype. By this method we chose five rational siRNAs, constructed five U6 promoter-driven shRNA expression plasmids contained the siRNA genes, and used these to produce stably transfected Madin-Darby canine kidney (MDCK) cells. Data from virus titration, IFA, PUI-stained flow cytometry, real-time quantitative RT-PCR and DAS-ELISA analyses showed that all five stably transfected cell lines were effectively resistant to viral replication when exposed to 100 CCID50 of AIV, and we finally chose the most effective plasmids (pSi-604i and pSi-1597i) as the candidates for making the transgenic chickens. These findings provide baseline information for breeding transgenic chickens resistant to AIV in combination with RNAi.