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Extended subsite profiling of the pyroptosis effector protein gasdermin D reveals a region recognized by inflammatory caspase-11.

Betsaida Bibo-VerdugoScott J SnipasSonia KoltMarcin PorebaGuy S Salvesen
Published in: The Journal of biological chemistry (2020)
Pyroptosis is the caspase-dependent inflammatory cell death mechanism that underpins the innate immune response against pathogens and is dysregulated in inflammatory disorders. Pyroptosis occurs via two pathways: the canonical pathway, signaled by caspase-1, and the noncanonical pathway, regulated by mouse caspase-11 and human caspase-4/5. All inflammatory caspases activate the pyroptosis effector protein gasdermin D, but caspase-1 mostly activates the inflammatory cytokine precursors prointerleukin-18 and prointerleukin-1β (pro-IL18/pro-IL1β). Here, in vitro cleavage assays with recombinant proteins confirmed that caspase-11 prefers cleaving gasdermin D over the pro-ILs. However, we found that caspase-11 recognizes protein substrates through a mechanism that is different from that of most caspases. Results of kinetics analysis with synthetic fluorogenic peptides indicated that P1'-P4', the C-terminal gasdermin D region adjacent to the cleavage site, influences gasdermin D recognition by caspase-11. Furthermore, introducing the gasdermin D P1'-P4' region into pro-IL18 enhanced catalysis by caspase-11 to levels comparable with that of gasdermin D cleavage. Pro-IL1β cleavage was only moderately enhanced by similar substitutions. We conclude that caspase-11 specificity is mediated by the P1'-P4' region in its substrate gasdermin D, and similar experiments confirmed that the substrate specificities of the human orthologs of caspase-11, i.e. caspase-4 and caspase-5, are ruled by the same mechanism. We propose that P1'-P4'-based inhibitors could be exploited to specifically target inflammatory caspases.
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