Gasdermin D (GSDMD) serves as a key executor to trigger pyroptosis and is emerging as an attractive checkpoint in host defense, inflammatory, autoimmune diseases, and many other systemic diseases. Although canonical and non-canonical inflammasome-mediated classic GSDMD cleavage, GSDMD-NT migration to cell membrane, GSDMD-NT oligomerization, and pore forming have been well recognized, a few unique features of GSDMD in specific condition beyond its classic function, including non-lytic function of GSDMD, the modification and regulating mechanism of GSDMD signaling have also come to great attention and played a crucial role in biological processes and diseases. In the current review, we emphasized the GSDMD protein expression, stabilization, modification, activation, pore formation, and repair during pyroptosis, especially the regulation and modification of GSDMD signaling, such as GSDMD complex in polyubiquitination and non-pyroptosis release of IL-1β, ADP-riboxanation, NINJ1 in pore forming, GSDMD binding protein TRIM21, GSDMD succination, and Regulator-Rag-mTOR-ROS regulation of GSDMD. We also discussed the novel therapeutic strategies of targeting GSDMD and summarized recently identified inhibitors with great prospect.
Pyroptosis is a key inflammatory form of cell death participating in the progression of many inflammatory diseases, such as experimental autoimmune encephalomyelitis (EAE) and sepsis. Identification of small molecules to inhibit pyroptosis is emerging as an attractive strategy. In this study, we performed a screening based on in silico docking of compounds on the reported Gasdermin D (GSDMD) three-dimensional structure and found C202-2729 demonstrated strong anti-inflammatory effects in both endotoxin shock and EAE mouse models. Oral administration of C202-2729 was capable of attenuating EAE disease severity significantly and has the comparable effects to teriflunomide, the first-line clinical drug of multiple sclerosis. We found C202-2729 remarkably suppressed macrophage and T cell–associated immune inflammation. Mechanistically, C202-2729 neither impact GSDMD cleavage nor the upstream inflammasome activation in mouse immortalized bone marrow–derived macrophages. However, C202-2729 exposure significantly repressed the IL-1β secretion and cell pyroptosis. We found C202-2729 directly bonds to the N terminus of GSDMD and blocks the migration of the N-terminal GSDMD fragment to cell membrane, restraining the pore-forming and mature IL-1β release. Collectively, our findings provide a new molecule with the potential for translational application in GSDMD-associated inflammatory diseases.
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