Abstract

Rhinovirus (RV), a virus responsible for a majority of common colds, disrupts the barrier function of the airway epithelium by increasing reactive oxygen species (ROS). Poly(I·C), a double-stranded RNA (dsRNA) mimetic, also causes ROS-dependent barrier disruption, implying that the dsRNA intermediate generated during RV replication is sufficient for this process. Here, we demonstrate that both RV RNA and poly(I·C) interact with NLRX-1 (a newly discovered dsRNA receptor) and stimulate mitochondrial ROS. We show for the first time that NLRX-1 is primarily expressed in the cytoplasm and at the apical surface rather than in the mitochondria and that NLRX-1 translocates to mitochondria following RV infection. Together, our results suggest a novel mechanism for RV-induced barrier disruption involving NLRX-1 and mitochondrial ROS. Although ROS is necessary for optimal viral clearance, if not neutralized efficiently, it may increase susceptibility to secondary infections and alter innate immune responses to subsequently inhaled pathogens, allergens, and other environmental factors.