Hepatitis C virus triggers Golgi fragmentation and autophagy through the immunity-related GTPase M.

Positive-stranded RNA viruses, such as hepatitis C virus (HCV), assemble their viral replication complexes by remodeling host intracellular membranes to a membranous web. The precise composition of these replication complexes and the detailed mechanisms by which they are formed are incompletely understood. Here we show that the human immunity-related GTPase M (IRGM), known to contribute to autophagy, plays a previously unrecognized role in this process. We show that IRGM is localized at the Golgi apparatus and regulates the fragmentation of Golgi membranes in response to HCV infection, leading to colocalization of Golgi vesicles with replicating HCV. Our results show that IRGM controls phosphorylation of GBF1, a guanine nucleotide exchange factor for Arf-GTPases, which normally operates in Golgi membrane dynamics and vesicle coating in resting cells. We also find that HCV triggers IRGM-mediated phosphorylation of the early autophagy initiator ULK1, thereby providing mechanistic insight into the role of IRGM in HCV-mediated autophagy. Collectively, our results identify IRGM as a key Golgi-situated regulator that links intracellular membrane remodeling by autophagy and Golgi fragmentation with viral replication.

Inducible cAMP early repressor (ICER) is a novel regulator of RIG-I mediated IFN-ß production.

Antiviral responses can be triggered by the cytoplasmic RNA helicase RIG-I that binds to viral RNA. RIG-I-mediated signaling stimulates the transcription factors IRF3 and NF-κB and their activation mechanisms have been intensively studied. Here we examined Sendai virus (SV)-mediated activation of the transcription factor CREB and the role of its feedback repressor ICER in production of endogenous antiviral proteins. We show that SV infection and the mitochondrial adapter protein MAVS promote CREB phosphorylation that is dependent upon p38 MAPK and MK2. ICER is induced by CREB and acts as a feedback repressor of CRE-dependent transcription. We found that SV infection stimulated induction of ICER mRNA and protein expression. Surprisingly, ectopic expression and siRNA-mediated knockdown of ICER revealed that ICER is a positive regulator of the production of antiviral IFN-ß and IP10 during SV infection. In contrast, ICER did not affect SV-elicited phosphorylation of IRF3, NF-κB or ATF2/c-Jun, transcription factors governing IFN-ß and IP10 synthesis. However, expression of ICER increased total IRF3 protein levels during SV infection. These results point to a novel role of ICER in antiviral immune signaling acting to increase levels of antiviral effectors.