Recent progress in interferon induced protein GBP1 research / 病毒学报

Guanylate-binding protein 1 (GBP1) is an interferon induced protein, that belongs to the guany late-binding protein family. GBP1 is widely involved in anti-infection immune responses, anti-tumor activity and various biological reactions. Recent studies have proved that IFN-alpha, IFN-beta, IFN-gamma, IL1alpha, IL1beta, TNF-alpha and LPS can induce GBP1 expression; hence, the diverse biological functions of GBP1 have been gradually deduced and exploited. Many studies have been performed over recent years to understand the exact mechanisms that underlie the anti-infection and anti-tumor properties of GBP1. This review describes the molecular structure, biological activity, anti-infective properties and other functions of GBP1, in order to provide insights into the divergent roles of GBP1 in the regulation of various biological processes.

Recent progress of the mechanisms for RNA viruses to block the recognition of dsRNA with RIG-I-like receptors / 病毒学报

RIG-I-like receptors (RLRs) belong to pattern recognition receptors, which perform significant roles in antiviral responses. RLRs can initiate a cascade of signaling transduction that induces the production of type I interferon and activates the interferon signaling pathway, ultimately resulting in antiviral responses. In the course of evolution, viruses have been constantly counteracting host immune systems to facilitate their own survival and replication, and have developed a set of antagonistic strategies. These mainly comprise elusion, disguise and attack strategies to eliminate the activation of RLRs. In virus-infected cells, RLRs recognize viral RNA and then induce antiviral responses. A better understanding of viral antagonistic strategies against RLRs will provide insights into the development of new antiviral medicines. This mini-review concludes that there are three main antagonistic strategies by which RNA viruses can counteract the activation of the RLRs pathway. It aims to provide references and insights for similar studies on viral antagonism in an array of RNA viruses.

Advances in ubiquitin-like protein ISG15-mediated anti-viral response / 病毒学报

ISG15 is a 15kD ubiquitin-like protein (UBL) induced by interferon (IFN). ISG15 can be covalently attached to proteins, which is called ISGylation process. ISGylation system contains ISG15, UBE1L, UBCH8 and HERC5 proteins, which are all essential for ISGylation. ISG15 and ISGylation system have been found to have anti-viral effects. A better understanding of how ISG15 mediates the anti-viral activity will provide insights for new anti-viral drugs development and new therapeutic strategies. The mechanisms underlying the ISG15 mediated anti-viral response have been explored extensively in recent years. This minireview summarized the research advances of how ISG15 mediated the anti-viral effects against different kinds of viruses.