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选择性消融胸腺和外周 Foxp3 调节性 T 细胞发育。

Selective ablation of thymic and peripheral Foxp3 regulatory T cell development.

机构信息

Molecular and Cellular Immunology/Immune Regulation, Center for Regenerative Therapies Dresden (CRTD), Center for Molecular and Cellular Bioengineering (CMCB), Technische Universität Dresden, Dresden, Germany.

Department of Infection Biology, Universitätsklinikum Erlangen and Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU), Erlangen, Germany.

出版信息

Front Immunol. 2023 Dec 18;14:1298938. doi: 10.3389/fimmu.2023.1298938. eCollection 2023.

DOI:10.3389/fimmu.2023.1298938
PMID:38164128
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10757929/
Abstract

Foxp3 regulatory T (Treg) cells of thymic (tTreg) and peripheral (pTreg) developmental origin are thought to synergistically act to ensure immune homeostasis, with self-reactive tTreg cells primarily constraining autoimmune responses. Here we exploited a Foxp3-dependent reporter with thymus-specific GFP/Cre activity to selectively ablate either tTreg (ΔtTreg) or pTreg (ΔpTreg) cell development, while sparing the respective sister populations. We found that, in contrast to the tTreg cell behavior in ΔpTreg mice, pTreg cells acquired a highly activated suppressor phenotype and replenished the Treg cell pool of ΔtTreg mice on a non-autoimmune C57BL/6 background. Despite the absence of tTreg cells, pTreg cells prevented early mortality and fatal autoimmunity commonly observed in Foxp3-deficient models of complete Treg cell deficiency, and largely maintained immune tolerance even as the ΔtTreg mice aged. However, only two generations of backcrossing to the autoimmune-prone non-obese diabetic (NOD) background were sufficient to cause severe disease lethality associated with different, partially overlapping patterns of organ-specific autoimmunity. This included a particularly severe form of autoimmune diabetes characterized by an early onset and abrogation of the sex bias usually observed in the NOD mouse model of human type 1 diabetes. Genetic association studies further allowed us to define a small set of autoimmune risk loci sufficient to promote β cell autoimmunity, including genes known to impinge on Treg cell biology. Overall, these studies show an unexpectedly high functional adaptability of pTreg cells, emphasizing their important role as mediators of bystander effects to ensure self-tolerance.

摘要

Foxp3 调节性 T(Treg)细胞具有胸腺(tTreg)和外周(pTreg)发育起源,被认为协同作用以确保免疫稳态,自身反应性 tTreg 细胞主要限制自身免疫反应。在这里,我们利用具有胸腺特异性 GFP/Cre 活性的 Foxp3 依赖性报告基因来选择性地消除 tTreg(ΔtTreg)或 pTreg(ΔpTreg)细胞的发育,同时保留各自的姐妹群体。我们发现,与 ΔpTreg 小鼠中的 tTreg 细胞行为相反,pTreg 细胞获得了高度激活的抑制表型,并在非自身免疫性 C57BL/6 背景下补充了 ΔtTreg 小鼠的 Treg 细胞池。尽管缺乏 tTreg 细胞,但 pTreg 细胞在 Foxp3 缺陷型完全 Treg 细胞缺陷模型中预防了常见的早期死亡和致命自身免疫,并且即使在 ΔtTreg 小鼠衰老时,也在很大程度上维持了免疫耐受。然而,仅将它们回交至自身免疫倾向的非肥胖型糖尿病(NOD)背景两代,就足以导致与器官特异性自身免疫的不同、部分重叠模式相关的严重疾病致死率。这包括一种特别严重的自身免疫性糖尿病,其特征为发病早且消除了在人类 1 型糖尿病的 NOD 小鼠模型中通常观察到的性别偏倚。遗传关联研究进一步使我们能够确定一小部分足以促进β细胞自身免疫的自身免疫风险基因座,包括已知影响 Treg 细胞生物学的基因。总体而言,这些研究表明 pTreg 细胞具有出乎意料的高功能适应性,强调了它们作为确保自身耐受性的旁观者效应介导物的重要作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/82e6/10757929/171173a3dc4b/fimmu-14-1298938-g009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/82e6/10757929/dfc633aecff5/fimmu-14-1298938-g008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/82e6/10757929/b646bfb5193f/fimmu-14-1298938-g007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/82e6/10757929/171173a3dc4b/fimmu-14-1298938-g009.jpg

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