Gut Expansion of a Human Lupus Pathobiont is Associated With Autoantibody Production and T Cell Dysregulation.

IF 2.8 Q2 RHEUMATOLOGY

ACR open rheumatology Pub Date : 2025-05-01 DOI:10.1002/acr2.70033

Longhuan Ma, Yong Ge, Natalie Six, Seung-Chul Choi, Josephine Brown, Abigail Castellanos Garcia, Mansour Mohamadzadeh, Gregg J Silverman, Laurence Morel

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Abstract

Objective: The mechanisms by which the gut microbiome contributes to lupus pathogenesis remain poorly understood. The anaerobe Ruminococcus gnavus (RG) expands in patients with lupus in association with flares. The goal of this study was to determine the mechanisms by which candidate pathobiont lipoglycan-producing RG2 may contribute to autoimmunity and to identify factors promoting its expansion.

Methods: The consequences of RG colonization or depletion were evaluated in the B6.Sle1.Sle2.Sle3 triple congenic (TC) lupus model by flow cytometry and enzyme-linked immunosorbent assay. RG lysates were tested on Treg cells in vitro. Fecal microbiota transfers evaluated the contribution of the microbiome origin from lupus or control donors and dietary tryptophan. RG1 and RG2 growth and metabolome were evaluated in response to tryptophan in vitro.

Results: Only RG2 stably colonized TC mice, in which it induced autoantibody production and T cell activation. Depletion of anaerobes had the opposite effect, with an increased Treg frequency. RG2 induced Treg apoptosis in cocultures with dendritic cells. RG is present in TC microbiota, from which it is amplified by tryptophan. The combination of TC microbiota and high dietary tryptophan induced autoimmune activation and intestinal inflammation in healthy control mice. Finally, tryptophan enhanced RG2 growth and production of immunomodulatory metabolites.

Conclusion: RG2 contributes to autoimmune activation, at least by inducing Treg apoptosis. The expansion of this pathobiont is promoted by host genetic factors and tryptophan metabolism. Thus, targeted RG2 depletion may improve disease outcomes in patients with lupus.

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人类狼疮病原体的肠道扩张与自身抗体产生和T细胞失调有关。

目的：肠道微生物在狼疮发病机制中的作用机制尚不清楚。厌氧菌gnavus瘤胃球菌（RG）扩大狼疮患者与耀斑。本研究的目的是确定候选病原体脂聚糖生成RG2可能促进自身免疫的机制，并确定促进其扩展的因素。方法：在B6.Sle1.Sle2中评估RG定殖或耗尽的后果。用流式细胞术和酶联免疫吸附法建立Sle3型三基因狼疮模型。RG裂解物在体外对Treg细胞进行检测。粪便微生物群转移评估了来自狼疮或对照供体和膳食色氨酸的微生物群来源的贡献。体外观察RG1和RG2对色氨酸的生长和代谢组的反应。结果：只有RG2稳定定植在TC小鼠体内，诱导自身抗体产生和T细胞活化。厌氧菌的消耗有相反的效果，随着Treg频率的增加。RG2诱导树突状细胞共培养Treg细胞凋亡。RG存在于TC菌群中，由色氨酸扩增而来。TC菌群与高膳食色氨酸的结合可诱导健康对照小鼠自身免疫激活和肠道炎症。最后，色氨酸促进了RG2的生长和免疫调节代谢产物的产生。结论：RG2至少通过诱导Treg细胞凋亡参与自身免疫激活。宿主遗传因素和色氨酸代谢促进了这种病原体的扩展。因此，靶向RG2消耗可能改善狼疮患者的疾病结局。

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