Abstract

There is a debate on whether invertebrates possess an antiviral immunity similar to the interferon (IFN) system of vertebrates. The Vago gene from arthropods encodes a viral-activated secreted peptide that restricts virus infection through activating the JAK-STAT pathway and is considered to be a cytokine functionally similar to IFN. In this study, the first crustacean IFN regulatory factor (IRF)-like gene was identified in Pacific white shrimp, Litopenaeus vannamei. The L. vannamei IRF showed similar protein nature to mammalian IRFs and could be activated during virus infection. As a transcriptional regulatory factor, L. vannamei IRF could activate the IFN-stimulated response element (ISRE)-containing promoter to regulate the expression of mammalian type I IFNs and initiate an antiviral state in mammalian cells. More importantly, IRF could bind the 5′-untranslated region of L. vannamei Vago4 gene and activate its transcription, suggesting that shrimp Vago may be induced in a similar manner to that of IFNs and supporting the opinion that Vago might function as an IFN-like molecule in invertebrates. These suggested that shrimp might possess an IRF-Vago-JAK/STAT regulatory axis, which is similar to the IRF-IFN-JAK/STAT axis of vertebrates, indicating that invertebrates might possess an IFN system-like antiviral mechanism.

Highlights

  • Among the IFN regulatory factor (IRF) family, IRF-3 and IRF-7 are essential for the regulated expression of IFNs8,9

  • We demonstrated that the L. vannamei IRF plays a role in the context of host defense against white spot syndrome virus (WSSV) infection and can activate the IFN response to induce an antiviral state in mammalian cells

  • Such specific tissue distributions suggest that signaling of the shrimp IRF pathway may occur in certain cells that were present in these tissues

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Summary

Introduction

Among the IRF family, IRF-3 and IRF-7 are essential for the regulated expression of IFNs8,9. The novel identified Vago gene from arthropods, encoding a viral-activated secreted peptide that restricts virus infection in infected and neighboring cells by activating the JAK-STAT pathway, is considered to be an arthropod cytokine similar to vertebrate IFN in function (not in sequence)[43,44]. These offer a new insight into the invertebrate antiviral immunity and lead us reconsider the question whether invertebrates have the IFN system. These exhibited that the crustacean immunity could have an IRF-Vago-JAK/STAT pathway regulatory axis that shows similarity to the IRF-IFN-JAK/STAT pathway axis of vertebrates, suggesting that invertebrates might possess an IFN system-like antiviral mechanism

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