单一自身配体选择的改变促进了器官特异性 T 细胞浸润的易感性。

Altered selection on a single self-ligand promotes susceptibility to organ-specific T cell infiltration.

机构信息

Department of Pathology, University of Chicago, Chicago, IL.

Department of Biochemistry and Molecular Biology, University of Chicago, Chicago, IL.

出版信息

J Exp Med. 2021 Jun 7;218(6). doi: 10.1084/jem.20200701.

DOI:10.1084/jem.20200701

PMID:33914024

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8091134/

Abstract

For the large array of self-peptide/MHC class II (pMHC-II) complexes displayed in the body, it is unclear whether CD4+ T cell tolerance must be imparted for each individual complex or whether pMHC-II-nonspecific bystander mechanisms are sufficient to confer tolerance by acting broadly on T cells reactive to multiple self-pMHC-II ligands. Here, via reconstitution of T cell-deficient mice, we demonstrate that altered T cell selection on a single prostate-specific self-pMHC-II ligand renders recipient mice susceptible to prostate-specific T cell infiltration. Mechanistically, this self-pMHC-II complex is required for directing antigen-specific cells into the Foxp3+ regulatory T cell lineage but does not induce clonal deletion to a measurable extent. Thus, our data demonstrate that polyclonal T reg cells are unable to functionally compensate for a breach in tolerance to a single self-pMHC-II complex in this setting, revealing vulnerabilities in antigen-nonspecific bystander mechanisms of immune tolerance.

摘要

对于体内大量展示的自身肽/MHC 类 II 复合物（pMHC-II），尚不清楚 CD4+T 细胞耐受是否必须针对每个单独的复合物赋予，或者 pMHC-II 非特异性旁观者机制是否足以通过广泛作用于对多种自身 pMHC-II 配体反应的 T 细胞来赋予耐受。在这里，通过重建 T 细胞缺陷型小鼠，我们证明了对单个前列腺特异性自身 pMHC-II 配体的改变 T 细胞选择使受体小鼠易受前列腺特异性 T 细胞浸润。从机制上讲，这种自身 pMHC-II 复合物对于指导抗原特异性细胞进入 Foxp3+调节性 T 细胞谱系是必需的，但不会在可测量的程度上诱导克隆删除。因此，我们的数据表明，多克隆 Treg 细胞无法在这种情况下针对单个自身 pMHC-II 复合物的耐受破裂在功能上进行补偿，揭示了免疫耐受中抗原非特异性旁观者机制的脆弱性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/757e/8091134/db3e374970d3/JEM_20200701_FigS1.jpg

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单一自身配体选择的改变促进了器官特异性 T 细胞浸润的易感性。

Altered selection on a single self-ligand promotes susceptibility to organ-specific T cell infiltration.

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