Mechanisms of length-dependent recognition of viral double-stranded RNA by RIG-I

Abstract Retinoic acid-inducible gene I (RIG-I) is the most front-line cytoplasmic viral RNA sensor and induces antiviral immune responses. RIG-I recognizes short double-stranded (dsRNA) ( 500 bp) to trigger antiviral signaling. Since RIG-I is capable of binding with dsRNA irrespective of size, length-dependent RIG-I signaling remains elusive. Here, we demonstrated that RIG-I bound to long dsRNA with slow kinetics. Remarkably, RIG-I/short dsRNA complex efficiently dissociated in an ATP hydrolysis-dependent manner, whereas RIG-I/long dsRNA was stable and did not dissociate. Our study suggests that the dissociation of RIG-I from RIG-I/dsRNA complex could be a step for efficient antiviral signaling. Dissociated RIG-I exhibited homo-oligomerization, acquiring ability to physically associate with MAVS, and biological activity upon introduction into living cells. We herein discuss common and unique mechanisms of viral dsRNA recognition by RIG-I and MDA5.