Duox2 is required for the transcription of pattern recognition receptors in acute viral lung infection: An interferon-independent regulatory mechanism.

The innate immune response, which constitutes the first line of defense against influenza A virus (IAV) infection, is activated by pattern recognition receptors (PRRs) that recognize viral structures. We found that the PRRs, retinoic acid-inducible gene 1 (RIG-I) and melanoma differentiation-associated protein 5 (MDA5), which have been implicated as interferon (IFN)-stimulated genes, were dominantly responsible for the recognition of IAV in lungs of mice at 3 and 7 days post infection (dpi). Intranasal administration of IFNs enhanced RIG-I and MDA5 gene expression after IAV infection and mRNA levels of RIG-I and MDA5 were significantly reduced at 7 dpi in mice with neutralization of secreted IFNs. However, blockade of IFNs did not alter the transcription of RIG-I and MDA5 at 3 dpi. We studied the antiviral effect of Duox2 in vivo lung to elucidate the role of Duox2 in respiratory mucosa. RIG-I and MDA5 mRNA levels were induced to a lower extent in lungs of mice that were inoculated with Duox2 small hairpin RNA regardless of secreted IFNs at 3 dpi. We propose that Duox2 is responsible for IFN-independent signaling for induction of PRRs transcription and can control acute IAV lung infection at the beginning of infection.

Hong SN ，Kim JY ，Kim H ，Kim DY ，Won TB ，Han DH ，Rhee CS ，Kim HJ ... -  《-》

Intranasal delivery of Duox2 DNA using cationic polymer can prevent acute influenza A viral infection in vivo lung.

Kim BJ ，Cho SW ，Jeon YJ ，An S ，Jo A ，Lim JH ，Kim DY ，Won TB ，Han DH ，Rhee CS ，Kim HJ ... -  《-》

The Induction of Pattern-Recognition Receptor Expression against Influenza A Virus through Duox2-Derived Reactive Oxygen Species in Nasal Mucosa.

Kim HJ ，Kim CH ，Kim MJ ，Ryu JH ，Seong SY ，Kim S ，Lim SJ ，Holtzman MJ ，Yoon JH ... -  《-》

Duox2-induced innate immune responses in the respiratory epithelium and intranasal delivery of Duox2 DNA using polymer that mediates immunization.

Jeon YJ ，Kim HJ 《-》

Long Noncoding RNA ITPRIP-1 Positively Regulates the Innate Immune Response through Promotion of Oligomerization and Activation of MDA5.

Emerging evidence indicates that long noncoding RNAs (lncRNAs) regulate various biological processes, especially innate and adaptive immunity. However, the relationship between lncRNAs and the interferon (IFN) pathway remains largely unknown. Here, we report that lncRNA ITPRIP-1 (lncITPRIP-1) is involved in viral infection and plays a crucial role in the virus-triggered IFN signaling pathway through the targeting of melanoma differentiation-associated gene 5 (MDA5). LncITPRIP-1 can be induced by viral infection, which is not entirely dependent on the IFN signal. Besides, there is no coding potential found in the lncITPRIP-1 transcript. LncITPRIP-1 binds to the C terminus of MDA5, and it possesses the ability to boost the oligomerization of both the full length and the 2 caspase activation and recruitment domains of MDA5 in a K63-linked polyubiquitination-independent manner. Amazingly, we also found that MDA5 can suppress hepatitis C virus (HCV) replication independently of IFN signaling through its C-terminal-deficient domain bound to viral RNA, in which lncITPRIP-1 plays a role as an assistant. In addition, the expression of lncITPRIP-1 is highly consistent with MDA5 expression, indicating that lncITPRIP-1 may function as a cofactor of MDA5. All the data suggest that lncITPRIP-1 enhances the innate immune response to viral infection through the promotion of oligomerization and activation of MDA5. Our study discovers the first lncRNA ITPRIP-1 involved in MDA5 activation.IMPORTANCE Hepatitis C virus infection is a global health issue, and there is still no available vaccine, which makes it urgent to reveal the underlying mechanisms of HCV and host factors. Although RIG-I has been recognized as the leading cytoplasmic sensor against HCV for a long time, recent findings that MDA5 regulates the IFN response to HCV have emerged. Our work validates the significant role of MDA5 in IFN signaling and HCV infection and proposes the first lncRNA inhibiting HCV replication by promoting the activation of MDA5 and mediating the association between MDA5 and HCV RNA, the study of which may shed light on the MDA5 function and treatment for hepatitis C patients. Our suggested model of how lncITPRIP-1 orchestrates signal transduction for IFN production illustrates the essential role of lncRNAs in virus elimination.

Xie Q ，Chen S ，Tian R ，Huang X ，Deng R ，Xue B ，Qin Y ，Xu Y ，Wang J ，Guo M ，Chen J ，Tang S ，Li G ，Zhu H ... -  《-》