AbstractPenaeidins are members of a family of key effectors with broad anti-bacterial activities in penaeid shrimp. However, the function of penaeidins in antiviral immunity is rarely reported and remains largely unknown. Herein, we uncovered that penaeidins are a novel family of antiviral effectors against white spot syndrome virus (WSSV). Firstly, RNAi in vivo mediated knockdown of each penaeidin from four identified penaeidins from Litopenaeus vannamei resulted in elevated viral loads and rendered shrimp more susceptible to WSSV, whilst the phenotype of survival rate in penaeidin-silenced shrimp can be rescued via the injection of recombinant penaeidin proteins. Moreover, pull-down assays demonstrated the conserved PEN domain of penaeidin was able to interact with WSSV structural proteins. Furthermore, we observed that colloidal gold-labeled penaeidins were located on the outer surface of the WSSV virion. By infection-blocking assay, we observed that hemocytes had lower viral infection rates in the group of WSSV preincubated with penaeidins than those of control group. Phagocytic activity analysis further showed that penaeidins were able to inhibit phagocytic activity of hemocytes against WSSV Taken together, these results suggest that penaeidins specifically binds to WSSV virion by interacting with its structural proteins, thus preventing viral infection that confers host against WSSV. In addition, dual-luciferase assay and EMSA assay demonstrated that penaeidins were regulated by Dorsal and Relish, two transcription factors of the canonical Toll and IMD pathway, respectively. To our best knowledge, this is the first report on uncovering the antiviral function of penaeidins in the innate immune system of shrimp.ImportancesWhite spot syndrome, caused by white spot syndrome virus (WSSV), is the most serious disease in shrimp aquaculture, which has long been a scourge of cultured shrimp industry. Herein, we provided some substantial evidences to indicate that penaeidins are a novel family of effectors with antiviral activity against WSSV in shrimp. Penaeidins such as BigPEN, PEN2 and PEN3 were able to interact with the outer surface of WSSV virion via binding to viral structural proteins, and thus preventing viral entry host cells. In addition, we demonstrated that the Toll and IMD signaling pathways can regulate the transcriptional expression of penaeidins, which may suggest an important role of the conserved innate signaling pathways in antiviral immunity. This is the first report of the antiviral mechanism of penaeidins in shrimp, which may provide some new insights into strategies to control WSSV infection in shrimp farms.
CCL19 and CCR7 Expression, Signaling Pathways, and Adjuvant Functions in Viral Infection and Prevention
