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本文引用的文献

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Roles for Selenoprotein I and Ethanolamine Phospholipid Synthesis in T Cell Activation.硒蛋白 I 和乙醇胺磷脂合成在 T 细胞激活中的作用。
Int J Mol Sci. 2021 Oct 16;22(20):11174. doi: 10.3390/ijms222011174.
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Metabolic control of T cells and humoral immunity by phosphatidylethanolamine.磷脂酰乙醇胺对 T 细胞和体液免疫的代谢控制。
Nature. 2021 Jul;595(7869):724-729. doi: 10.1038/s41586-021-03692-z. Epub 2021 Jul 7.
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A distal Foxp3 enhancer enables interleukin-2 dependent thymic Treg cell lineage commitment for robust immune tolerance.一个远端的 Foxp3 增强子使依赖白细胞介素 2 的胸腺 Treg 细胞谱系承诺产生强大的免疫耐受。
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Upregulated ethanolamine phospholipid synthesis via selenoprotein I is required for effective metabolic reprogramming during T cell activation.硒蛋白 I 通过上调乙醇胺磷脂合成来促进 T 细胞激活过程中的代谢重编程。
Mol Metab. 2021 May;47:101170. doi: 10.1016/j.molmet.2021.101170. Epub 2021 Jan 20.
5
SOX-5 activates a novel RORγt enhancer to facilitate experimental autoimmune encephalomyelitis by promoting Th17 cell differentiation.SOX-5 通过促进 Th17 细胞分化来激活新型 RORγt 增强子,从而促进实验性自身免疫性脑脊髓炎。
Nat Commun. 2021 Jan 20;12(1):481. doi: 10.1038/s41467-020-20786-w.
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Cytokines and transcription factors in the differentiation of CD4 T helper cell subsets and induction of tissue inflammation and autoimmunity.细胞因子和转录因子在 CD4 T 辅助细胞亚群的分化以及诱导组织炎症和自身免疫中的作用。
Curr Opin Immunol. 2020 Dec;67:57-67. doi: 10.1016/j.coi.2020.09.001. Epub 2020 Oct 8.
7
T Cell Metabolism: A New Perspective on Th17/Treg Cell Imbalance in Systemic Lupus Erythematosus.T 细胞代谢:系统性红斑狼疮中 Th17/Treg 细胞失衡的新视角。
Front Immunol. 2020 May 22;11:1027. doi: 10.3389/fimmu.2020.01027. eCollection 2020.
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The multiple roles of Thy-1 in cell differentiation and regeneration.Thy-1在细胞分化和再生中的多重作用。
Differentiation. 2020 May-Jun;113:38-48. doi: 10.1016/j.diff.2020.03.003. Epub 2020 Apr 8.
9
Histone H3K27me3 demethylases regulate human Th17 cell development and effector functions by impacting on metabolism.组蛋白 H3K27me3 去甲基酶通过影响代谢来调节人类 Th17 细胞的发育和效应功能。
Proc Natl Acad Sci U S A. 2020 Mar 17;117(11):6056-6066. doi: 10.1073/pnas.1919893117. Epub 2020 Mar 2.
10
Mitochondrial Oxidative Phosphorylation Regulates the Fate Decision between Pathogenic Th17 and Regulatory T Cells.线粒体氧化磷酸化调节致病性 Th17 细胞和调节性 T 细胞之间的命运决定。
Cell Rep. 2020 Feb 11;30(6):1898-1909.e4. doi: 10.1016/j.celrep.2020.01.022.

T 细胞中硒蛋白 I 缺乏促进向耐受表型分化,同时减少 Th17 病理学。

Selenoprotein I deficiency in T cells promotes differentiation into tolerant phenotypes while decreasing Th17 pathology.

机构信息

Department of Cell and Molecular Bi ology, Department of Anatomy, Biochemistry, and Physiology, John A. Burns School of Medicine, University of Hawaii, Honolulu, USA.

Department of Anatomy, Biochemistry, and Physiology, John A. Burns School of Medicine, University of Hawaii, Honolulu, USA.

出版信息

J Leukoc Biol. 2022 Dec;112(6):1387-1397. doi: 10.1002/JLB.1A0122-080R. Epub 2022 Aug 2.

DOI:10.1002/JLB.1A0122-080R
PMID:35916034
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9701159/
Abstract

Selenoprotein I (SELENOI) is an ethanolamine phospholipid transferase contributing to cellular metabolism and the synthesis of glycosylphosphatidylinositol (GPI) anchors. SELENOI knockout (KO) in T cells has been shown to impair metabolic reprogramming during T cell activation and reduce GPI-anchored Thy-1 levels, which are both crucial for Th17 differentiation. This suggests SELENOI may be important for Th17 differentiation, and we found that SELENOI was indeed up-regulated early during the activation of naïve CD4 T cells in Th17 conditions. SELENOI KO reduced RORγt mRNA levels by decreasing SOX5 and STAT3 binding to promoter and enhancer regions in the RORC gene encoding this master regulator of Th17 cell differentiation. Differentiation of naïve CD4 T cells into inflammatory versus tolerogenic Th cell subsets was analyzed and results showed that SELENOI deficiency skewed differentiation away from pathogenic Th17 cells (RORγt and IL-17A ) while promoting tolerogenic phenotypes (Foxp3 and IL-10 ). Wild-type and T cell-specific SELENOI KO mice were subjected to experimental autoimmune encephalitis (EAE), with KO mice exhibiting diminished clinical symptoms, reduced CNS pathology and decreased T cell infiltration. Flow cytometry showed that SELENOI T cell KO mice exhibited lower CD4 RORγt and CD4 IL-17A T cells and higher CD4 CD25 FoxP3 T cells in CNS tissues of mice subjected to EAE. Thus, the metabolic enzyme SELENOI is up-regulated to promote RORγt transcription that drives Th17 differentiation, and SELENOI deficiency shifts differentiation toward tolerogenic phenotypes while protecting against pathogenic Th17 responses.

摘要

硒蛋白 I(SELENOI)是一种乙醇胺磷脂转移酶,有助于细胞代谢和糖基磷脂酰肌醇(GPI)锚的合成。在 T 细胞中敲除 SELENOI 已被证明会损害 T 细胞激活期间的代谢重编程,并降低 GPI 锚定的 Thy-1 水平,这对于 Th17 分化都是至关重要的。这表明 SELENOI 可能对 Th17 分化很重要,我们发现 SELENOI 在 Th17 条件下幼稚 CD4 T 细胞的激活早期确实上调。SELENOI KO 通过减少 SOX5 和 STAT3 与编码 Th17 细胞分化主调控因子的 RORC 基因启动子和增强子区域的结合,降低了 RORγt mRNA 水平。分析了幼稚 CD4 T 细胞向炎症性和耐受性 Th 细胞亚群的分化,结果表明 SELENOI 缺乏使分化偏离致病性 Th17 细胞(RORγt 和 IL-17A),同时促进耐受性表型(Foxp3 和 IL-10)。野生型和 T 细胞特异性 SELENOI KO 小鼠被用于实验性自身免疫性脑脊髓炎(EAE),KO 小鼠表现出临床症状减轻、中枢神经系统病理学减轻和 T 细胞浸润减少。流式细胞术显示,SELENOI T 细胞 KO 小鼠在 EAE 小鼠的中枢神经系统组织中表现出较低的 CD4 RORγt 和 CD4 IL-17A T 细胞和较高的 CD4 CD25 FoxP3 T 细胞。因此,代谢酶 SELENOI 上调以促进驱动 Th17 分化的 RORγt 转录,SELENOI 缺乏使分化向耐受性表型转移,同时防止致病性 Th17 反应。