Diverse autoinhibitory mechanisms of FIIND-containing proteins: Insight into regulation of NLRP1 and CARD8 inflammasome.

Function-to-find domain (FIIND)-containing proteins, including NLRP1 and CARD8, are vital components of the inflammasome signaling pathway, critical for the innate immune response. These proteins exist in various forms due to autoproteolysis within the FIIND domain, resulting in full-length (FL), cleaved N-terminal (NT), and cleaved C-terminal (CT) peptides, which form autoinhibitory complexes in the steady state. However, the detailed mechanism remains elusive. Here, we found that both NLRP1 paralogs and CARD8 form two conserved autoinhibitory complexes involving NT-CT interactions and FL-CT interactions, but with distinct mechanisms. Specifically, the Linker3 region located between LRR and FIIND in murine NLRP1b (mNLRP1b) plays an essential role in forming the NT-CT autoinhibitory complexes, while the ZU5 of rat NLRP1 (rNLRP1) and CARD8 mediates their NT-CT interaction. In addition, we explored the involvement of the cellular protease dipeptidyl peptidases 9 (DPP9) in these complexes, revealing differential interactions and the significance of domain structure. Besides the FL-DPP9-CT complex, DPP9 interacts with NTs of mNLRP1b, rNLRP1, and CARD8 through their ZU5 subdomains, forming NT-DPP9-CT complex; however, DPP9 cannot bind to NTs of hNLRP1. Further functional assay indicated that although DPP9 is involved in the NT-CT complex of rodent NLRP1 and CARD8, it does not influence the inhibitory activity of NT on CT. Our study enhanced the understanding of the regulatory functions of FIIND-containing proteins in inflammasome autoinhibition and activation and underscored the complexity of their interactions within the immune response.