Duck IFIT5 differentially regulates Tembusu virus replication and inhibits virus-triggered innate immune response

Abstract

Mammalian interferon-induced protein with tetratricopeptide repeats family proteins (IFITs) play important roles in host innate immune response to viruses. Recently, studies have shown that IFIT from poultry also plays a crucial part in antiviral function. This study first reports the regulation of duck Tembusu virus (DTMUV) replication by IFIT5 and the effect of duck IFIT5 (duIFIT5) on the innate immune response after DTMUV infection. Firstly, duIFIT5 was obviously increased in duck embryo fibroblast cells (DEFs) infected with DTMUV. Compared to the negative control, we found that in the duIFIT5-overexpressing group, the DTMUV titer at 24 h post infection (hpi) was significantly reduced, but the viral titer was strikingly increased at 48 hpi. Moreover, overexpression of duIFIT5 could significantly inhibit IFN-β transcription and IFN-β promoter activation at indicated time points after DTMUV infection. Further, in DTMUV-infected or poly(I:C)-stimulated DEFs, overexpression of duIFIT5 also significantly inhibited the activation of NF-κB and IRF7 promoters, as well as the activation of downstream IFN induced the interferon-stimulated response element (ISRE) promoter. Meanwhile, the transcription level of antiviral protein Mx, but not OASL, was obviously decreased at various time points. The opposite results were obtained by knockdown of duIFIT5 in DTMUV-infected or poly(I:C)-stimulated DEFs. Compared to the negative control, knockdown of duIFIT5 promoted DTMUV titer and DTMUV envelope (E) protein expression at 24 hpi, but DTMUV titer and E protein expression was markedly decreased at 48 hpi. Additionally, the promoters of IFN-β, NF-κB, IRF7 and ISRE were significantly activated in the duIFIT5 knockdown group. Collectively, duIFIT5 differentially regulates DTMUV replication and inhibits virus-triggered innate immune response.