Regulation of NETosis and Inflammation by Cyclophilin D in Myeloperoxidase‐Positive Antineutrophil Cytoplasmic Antibody–Associated Vasculitis

Objective Antineutrophil cytoplasmic antibody (ANCA)–associated vasculitis (AAV) is pathologically characterized by focal fibrinoid necrosis, in which ANCA‐mediated neutrophil extracellular trap (NET) formation and subsequent endothelial cell necrosis occur. Cyclophilin D (CypD) plays an important role in mediation of cell necrosis and inflammation via the opening of mitochondrial permeability transition pores. This study was undertaken to examine the role of CypD in AAV pathogenesis. Methods We assessed the role and mechanism of CypD in ANCA‐stimulated neutrophils in vitro by immunostaining and electron microscopy observation. We performed a comprehensive RNA‐sequencing analysis on ANCA‐treated murine neutrophils. To investigate the role of CypD in vivo, we assessed disease features in CypD‐knockout mice and wild‐type mice using 2 different murine AAV models: anti‐myeloperoxidase IgG transfer–induced AAV and spontaneous AAV. Results In vitro experiments showed that pharmacologic and genetic inhibition of CypD suppressed ANCA‐induced NET formation via the suppression of reactive oxygen species and cytochrome c release from the mitochondria. RNA‐sequencing analyses in ANCA‐treated murine neutrophils revealed the involvement of inflammatory responses, with CypD deficiency reducing ANCA‐induced alterations in gene expression. Furthermore, analyses of upstream regulators revealed the relevance of intracellular calcium (CypD activator) and cyclosporin (CypD inhibitor) in ANCA stimulation, indicating that the CypD‐dependent opening of mitochondrial permeability transition pores is associated with ANCA‐induced neutrophil activation and NETosis. In both AAV mouse models, the genetic deletion of CypD ameliorated crescentic glomerulonephritis via the inhibition of CypD‐dependent neutrophil and endothelial necrosis. Conclusion CypD targeting is a novel and specific therapeutic strategy for AAV via the resolution of necrotizing vasculitis.