NLRP11 disrupts MAVS signalosome to inhibit type I interferon signaling and virus-induced apoptosis.

MAVS signalosome plays an important role in RIG-I-like receptor (RLR)-induced antiviral signaling. Upon the recognition of viral RNAs, RLRs activate MAVS, which further recruits TRAF6 and other signaling proteins to initiate type I interferon (IFN) activation. MAVS signalosome also regulates virus-induced apoptosis to limit viral replication. However, the mechanisms that control the activity of MAVS signalosome are still poorly defined. Here, we report NLRP11, a Nod-like receptor, is induced by type I IFN and translocates to mitochondria to interact with MAVS upon viral infection. Using MAVS as a platform, NLRP11 degrades TRAF6 to attenuate the production of type I IFNs as well as virus-induced apoptosis. Our findings reveal the regulatory role of NLRP11 in antiviral immunity by disrupting MAVS signalosome.