Suppression of Interferon Lambda Signaling by SOCS-1 Results in Their Excessive Production during Influenza Virus Infection

Innate cytokine response provides the first line of defense against influenza virus infection. However, excessive production of cytokines appears to be critical in the pathogenesis of influenza virus. Interferon lambdas (IFN-) have been shown to be overproduced during influenza virus infection, but the precise pathogenic processes of IFN- production have yet to be characterized. In this report, we observed that influenza virus induced robust expression of IFN- in alveolar epithelial cells (A549) mainly through a RIG-I-dependent pathway, but IFN--induced phosphorylation of the signal transducer and activator of transcription protein 1 (STAT1) was dramatically inhibited in the infected cells. Remarkably, influenza virus infection induced robust expression of suppressor of cytokine signaling-1 (SOCS-1), leading to inhibition of STAT1 activation. Interestingly, the virus-induced SOCS-1 expression was cytokine-independent at early stage of infection both in vitro and in vivo. Using transgenic mouse model and distinct approaches altering the expression of SOCS-1 or activation of STAT signaling, we demonstrated that disruption of the SOCS-1 expression or expression of constitutively active STAT1 significantly reduced the production of IFN- during influenza virus infection. Furthermore, we revealed that disruption of IFN- signaling pathway by increased SOCS-1 protein resulted in the activation of NF-B and thereby enhanced the IFN- expression. Together, these data imply that suppression of IFN- signaling by virus-induced SOCS-1 causes an adaptive increase in IFN- expression by host to protect cells against the viral infection, as a consequence, leading to excessive production of IFN- with impaired antiviral response. Author Summary Influenza virus infection triggers innate immune responses. However, aberrant host immune responses such as excessive production of cytokines contribute to the pathogenesis of influenza virus. Type III interferons (IFN-) constitute the major innate immune response to influenza virus infection, but the precise pathogenic processes of IFN- production and mechanistic underpinnings are not well understood. In this study, we report that influenza virus induces robust IFN- expression mainly through a RIG-I-dependent pathway, but signaling activated by IFN- was dramatically inhibited by virus-induced SOCS-1. Importantly, we found that disruption of the SOCS-1 expression or forced activation of STAT1 significantly reduced the expression of IFN- in vitro and in vivo, suggesting that suppression of IFN- signaling by SOCS-1 results in their excessive production during influenza virus infection. Furthermore, our experiments revealed that disruption of IFN- signaling pathway resulted in the activation of NF-B that governs the IFN- expression. Together these findings, we propose that impaired antiviral response of IFN- due to the inhibitory effect of SOCS-1 causes an adaptive increase in IFN- expression by host to protect cells against the viral infection. This is a novel mechanism that may be critical in the pathogenesis of the influenza virus strains that induce hypercytokinemia.