B7共刺激拮抗r γ T +调节性T细胞和肠道免疫耐受。

IF 10.6 1区医学 Q1 IMMUNOLOGY

Journal of Experimental Medicine Pub Date : 2026-06-01 Epub Date: 2026-04-24 DOI:10.1084/jem.20251094

Mengze Lyu, Gregory F Sonnenberg

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引用次数: 0

摘要

调节性T （Treg）细胞识别饮食或微生物来源的抗原，表达RORγt，对肠道免疫耐受至关重要。最近的一项范式转变发现，这些细胞需要RORγt+抗原呈递细胞（APCs）上的主要组织相容性复合体II类（MHCII），而不是传统的树突状细胞（cdc）作为信号1。在这里，我们评估了信号2，出乎意料地发现共刺激分子B7-1 （CD80）和B7-2 （CD86）拮抗微生物特异性RORγt+ Treg细胞的产生。通过CTLA-4靶向B7的功能获得或功能丧失治疗对微生物群特异性RORγt+ Treg细胞的产生产生相互作用。该轴在rorγ - t+ APCs上与B7无关，但在该细胞类型上需要MHCII。最后，CTLA4-Ig处理恢复了微生物特异性的RORγt+ Treg细胞的生成，并保护了IL-10R信号阻断剂介导的病原体定殖诱导的实验性肠道炎症。这些结果表明，RORγt+ Treg细胞受到B7共刺激的独特抑制，而CTLA4-Ig与RORγt+ apc协同作用时，可增强肠道免疫耐受。

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B7 costimulation antagonizes RORγt+ regulatory T cells and immune tolerance in the intestine.

Regulatory T (Treg) cells that recognize dietary- or microbiota-derived antigens express RORγt and are essential for immune tolerance in the intestine. A recent paradigm shift found these cells require major histocompatibility complex class II (MHCII) on RORγt+ antigen-presenting cells (APCs) rather than conventional dendritic cells (cDCs) for signal one. Here, we evaluate signal two and unexpectedly find that costimulatory molecules B7-1 (CD80) and B7-2 (CD86) antagonize the generation of microbiota-specific RORγt+ Treg cells. Gain-of-function or loss-of-function therapeutics targeting B7 via CTLA-4 exert reciprocal effects on the generation of microbiota-specific RORγt+ Treg cells. This axis was independent of B7 on RORγt+ APCs but required MHCII on this cell type. Finally, CTLA4-Ig treatment restores microbiota-specific RORγt+ Treg cell generation and protects from experimental intestinal inflammation induced by pathobiont colonization with IL-10R signaling blockade. These results define that RORγt+ Treg cells are uniquely restrained by B7 costimulation, while CTLA4-Ig enhances immune tolerance in the intestine when acting cooperatively with RORγt+ APCs.

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来源期刊

Journal of Experimental Medicine 医学-免疫学

CiteScore

26.60

自引率

1.30%

发文量

189

审稿时长

3-8 weeks

期刊介绍： Since its establishment in 1896, the Journal of Experimental Medicine (JEM) has steadfastly pursued the publication of enduring and exceptional studies in medical biology. In an era where numerous publishing groups are introducing specialized journals, we recognize the importance of offering a distinguished platform for studies that seamlessly integrate various disciplines within the pathogenesis field. Our unique editorial system, driven by a commitment to exceptional author service, involves two collaborative groups of editors: professional editors with robust scientific backgrounds and full-time practicing scientists. Each paper undergoes evaluation by at least one editor from both groups before external review. Weekly editorial meetings facilitate comprehensive discussions on papers, incorporating external referee comments, and ensure swift decisions without unnecessary demands for extensive revisions. Encompassing human studies and diverse in vivo experimental models of human disease, our focus within medical biology spans genetics, inflammation, immunity, infectious disease, cancer, vascular biology, metabolic disorders, neuroscience, and stem cell biology. We eagerly welcome reports ranging from atomic-level analyses to clinical interventions that unveil new mechanistic insights.