Unanchored ubiquitin chains promote the non-canonical inflammasome via UBXN1

Ubiquitination is a major posttranslational covalent modification that regulates numerous cellular processes including inflammasome signaling. Cells also contain unanchored ubiquitin chains (polyUb) that bind protein targets non-covalently, but their physiological functions in immunity have been appreciated only recently. Here, we report that ubiquitin regulatory x domain-containing protein 1 (UBXN1) activates the noncanonical inflammasome via unanchored Lysin (K) 48- or 63-linked polyUb. UBXN1 deficiency impairs the activation of caspase-4/11, secretion of inflammasome-dependent cytokines and pyroptosis in response to intracellular lipopolysaccharide (LPS). UBXN1-deficient mice are protected from LPS- and cecal-ligation-and-puncture-induced sepsis, evidenced by reduced mortality and systemic inflammation, compared to UBXN1-sufficient littermates. Mechanistically, UBXN1 together with unanchored K48/63-linked polyUb bind caspase-4/11, the intracellular sensors of LPS, and promote their assembly and activation. Depleting cellular unanchored polyUb with recombinant ubiquitin-specific proteinase 5 (USP5) reduces UBXN1 binding to caspase-4/11 and inflammasome signaling, while USP5 inhibitors enhance pyroptosis in an UBXN1-dependent manner. Thus, this study identifies a critical UBXN1-dependent posttranslational mechanism involved in noncanonical inflammasome activation and UBXN1 as a potential therapeutic target for sepsis and advances a fundamental understanding of unanchored polyUb biology.