Broad-spectrum inflammasome inhibition by thiomuscimol.

Inflammasome formation, arising from pathogen or internal activating signals, is a key step in canonical pyroptosis, a gasdermin-mediated inflammatory cell death. Inhibition of pyroptosis has great clinical relevance due to its involvement in many different disease states. Current inhibitors of pyroptosis either only inhibit the final lytic step, which still allows inflammatory signal release, or only inhibit a single inflammasome, which does not account for inherent redundancy in activation of other inflammatory pathways. Here, we show that thiomuscimol, a structural analog of the lysis inhibitor muscimol, exhibits unique inhibitory activity upstream of plasma membrane rupture. We find that thiomuscimol inhibits inflammasome formation, as well as downstream caspase-1 activation, initiated by multiple pyroptotic signals, regardless of whether NLR recruitment of caspase-1 to the inflammasome relies on the ASC adapter protein. The ability of thiomuscimol to block multiple different inflammasomes opens the door for development of therapeutics with increased applications to broadly inhibit pyroptosis in multiple pathological settings.