Abstract
BACKGROUND: Lupus nephritis (LN) is driven by podocyte pyroptosis triggered by NLRP3 inflammasome activation, yet the dual regulatory mechanisms—transcriptional control by the AP-1 complex (c-JUN/c-FOS heterodimer) and post-translational modulation via lactate-induced NEDD4 lactoylation mediated by the c-JUN/c-JUN homodimer—remain poorly understood. We hypothesized that AP-1 promotes LN progression by (1) directly activating NLRP3 transcription and (2) indirectly inhibiting NLRP3 ubiquitination through c-JUN-driven glycolytic lactate production. METHODS: Renal tissues from LN patients and MRL/lpr mice were analyzed for c-JUN/c-FOS expression. Podocytes stimulated with LN serum were used to evaluate (1) transcriptional regulation of NLRP3 and key glycolytic enzymes via AP-1 inhibition and (2) the role of lactate in NEDD4 lactoylation and NLRP3 protein degradation. RESULTS: Elevated c-JUN and c-FOS levels were observed in renal tissues of both LN patients and MRL/lpr mice. In vitro, lactate suppressed NEDD4-mediated ubiquitination of the NLRP3 inflammasome through NEDD4 lactoylation, explaining why lactate inhibitors attenuated LN serum-induced podocyte pyroptosis. Knockdown of either c-JUN or c-FOS reduced NLRP3 transcription and podocyte pyroptosis, but only c-JUN upregulated glycolytic enzymes to produce lactate and promote NEDD4 lactoylation, highlighting its unique role. CONCLUSIONS: AP-1 drives LN pathogenesis through a dual mechanism: the c-JUN/c-FOS heterodimer directly activates NLRP3 transcription, while the c-JUN homodimer indirectly stabilizes NLRP3 by enhancing lactate-dependent NEDD4 lactoylation. These findings reveal subunit-specific roles of AP-1 in transcriptional and post-translational regulation, providing novel therapeutic targets for LN. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s12964-026-02822-2.