Abstract
BackgroundEnvelope protein 53R was identified from frog Rana grylio virus (RGV), a member of the family Iridoviridae, and it plays an important role in the virus assembly. Although inhibition of iridovirus major capsid protein (MCP) by small hairpin RNAs (shRNAs) has been shown to cause resistance to viral infection in vitro, RNA interference (RNAi) to inhibit aquatic animal virus envelope protein gene product has not been reported.MethodologyWe devised artificial microRNAs (amiRNAs) that target a viral envelope protein gene RGV 53R. By incorporating sequences encoding amiRNAs specific to 53R of RGV into pre-miRNA155 (pSM155) vectors, which use the backbone of natural miR-155 sequence and could intracellularly express 53R-targeted pre-amiRNAs. The pre-amiRNAs could be processed by the RNase III-like enzyme Dicer into 21–25 nt amiRNAs (amiR-53Rs) in fish cell lines. The levels of 53R expression were analyzed through real-time PCR and RGV virions assembly were observed by electronic microscopy in fish cells transfected with or without amiR-53Rs at 72 h of RGV infection.Conclusion/SignificanceThe results argue that viral envelope protein RGV 53R can be silenced and the virions assembly was deficient by amiR-53R-1, and further identified the first amiRNA of envelope protein gene from iridovirus that was able to cause resistance to virus infection in fish cells. The data demonstrate that the viral infection is efficiently suppressed (58%) by amiR-53R-1 targeting positon 36–57 of RGV 53R. Moreover, electron microscopic observations revealed virion assembly defect or reduced virions assembly capacity was closely correlated to expression of amiR-53R-1. Based on real time PCR of the Mx gene, we found no evidence of activation of IFN by amiR-53R-1.
Highlights
Iridoviruses are one of the significant viral pathogens for aquatic animals that have caused great economic losses in the aquaculture industry worldwide [1]
Conclusion/Significance: The results argue that viral envelope protein Rana grylio virus (RGV) 53R can be silenced and the virions assembly was deficient by amiR-53R-1, and further identified the first artificial microRNAs (amiRNAs) of envelope protein gene from iridovirus that was able to cause resistance to virus infection in fish cells
Expression of pSM155-amiR-53Rs Three pairs of oligonucleotides encoding 53R-specific amiRNAs of RGV (Table 1), and a pairs of oligonucleotides corresponding to PB2 gene of avian influenza virus, AIV, were annealed and ligated into the pre-miRNA155 vector to create plasmids capable of producing 53R or PB2 gene encoded pre-amiRNAs in plasmidtransfected cells
Summary
Iridoviruses are one of the significant viral pathogens for aquatic animals that have caused great economic losses in the aquaculture industry worldwide [1]. Rana grylio virus (RGV), a member of iridoviruses, causes systemic infectious iridoviral disease in cultured pig frog (Rana grylio) [2]. An envelope protein that may play an important role in virus assembly, RGV 53R, was identified and characterized from RGV. The structural conserved features shared by iridovirus envelope proteins were found in RGV 53R. Envelope protein 53R was identified from frog Rana grylio virus (RGV), a member of the family Iridoviridae, and it plays an important role in the virus assembly. Inhibition of iridovirus major capsid protein (MCP) by small hairpin RNAs (shRNAs) has been shown to cause resistance to viral infection in vitro, RNA interference (RNAi) to inhibit aquatic animal virus envelope protein gene product has not been reported
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