医学
免疫学
狼疮性肾炎
肾炎
红斑狼疮
肾小球肾炎
结缔组织病
自身抗体
关节炎
类风湿性关节炎
抗体
自身免疫性疾病
自身免疫
免疫病理学
全身性疾病
系统性红斑狼疮
发病机制
炎症
作者
Abhimanyu Amarnani,Cristobal Rivera,MacIntosh Cornwell,Tyler Weinstein,Zakia Azad,Susan R.S. Gottesman,Cynthia Loomis,Andy Lee,Nimat Ullah,Joshua J. Prasad,Mingyang Yi,Laura Cooney,Betsy Barnes,Nicolas Gisch,Kelly V. Ruggles,Bhama Ramkhelawon,Gregg J. Silverman
标识
DOI:10.1016/j.ard.2026.03.002
摘要
OBJECTIVES: The gut microbiome plays a crucial role in regulating systemic immunity and has been implicated in several chronic inflammatory diseases. Intestinal expansions of Ruminococcus gnavus (RG), a dominant gut commensal, correlate with disease flares in lupus nephritis (LN), but the underlying mechanism remains unknown. METHODS: In a Pilot cohort of patients with biopsy-proven LN, subsetted by gut microbiota community, immune status was characterised using bulk-blood RNA sequencing libraries, serum levels of representative host proteins, and levels of immunoglobulin (Ig)G antibodies to the novel lipoglycan (LG) produced by pathogenic RG strains. A Validation LN cohort was evaluated for blood transcriptomic profiles and levels of anti-LG antibodies. In murine models, mechanistic hypotheses were tested after RG gut colonisation or after intraperitoneal injection with an LG preparation, with outcomes determined by transcriptomic analyses, platelet functional readouts, and tissue histology. RESULTS: In a Pilot cohort of patients with LN, RG gut expansions were associated with high-level platelet, neutrophil, and monocyte activation. Serum levels of platelet factor 4 and release of neutrophil extracellular traps (NETs) were significantly higher in patients with high serum IgG antibody against the novel RG-specific LG, a marker of in vivo immune exposure. An LN Validation cohort confirmed these correlates and showed that anti-LG antibodies serve as a surrogate for thromboinflammatory profile in this LN-associated endotype. In mice, gut colonisation with LG-producing RG strains or a single LG injection caused megakaryocytosis and platelet activation; RG colonisation with LG-producing strains induced tubulointerstitial injury with NETosis. In vivo responses to LG toxin were Toll-like receptor 2-dependent. CONCLUSIONS: Gut expansions of the RG pathobiont may contribute to autoimmune pathogenesis through the LG toxin and cause LN flares through thromboinflammatory mechanisms in this previously unrecognised LN endotype.
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