Non-canonical role of E3 ligase RIPLET in innate immunity as a co-receptor for RIG-I

Ubiquitin (Ub) and its E3 ligases play diverse biological roles, from proteasomal degradation to innate immune signaling. The conventional view posits that E3 ligases function primarily through conjugating Ub to their substrate molecules. We report here that RIPLET, an essential E3 ligase in antiviral immunity, promotes the antiviral signaling activity of the viral RNA receptor RIG-I through both Ub-dependent and -independent manners. RIPLET utilizes its dimeric structure and the bivalent binding mode to preferentially recognize RIG-I preoligomerized on dsRNA. RIPLET can also adopt an alternative binding mode for filamentous oligomers of RIG-I assembled on longer dsRNAs, cross-bridging RIG-I filaments in both ubiquitin-dependent and -independent manners. The resultant receptor clustering leads to the formation of aggregate-like cytosolic granules and the stimulation of RIG-I-mediated antiviral signaling in a RNA-length dependent manner. These observations show the unexpected role of an E3 ligase as a co-receptor that directly participates in receptor oligomerization and ligand discrimination. This study also highlights previously unrecognized mechanisms by which an E3 ligase induces receptor clustering and signal amplification, and offers insights into the unique cellular function of membrane-less granule assembly.