钠扰乱线粒体呼吸并诱导功能失调的 Tregs。

Sodium perturbs mitochondrial respiration and induces dysfunctional Tregs.

机构信息

VIB Laboratory of Translational Immunomodulation, VIB Center for Inflammation Research (IRC), Hasselt University, 3590 Diepenbeek, Belgium; Department of Immunology, Biomedical Research Institute, Hasselt University, 3590 Diepenbeek, Belgium.

Experimental and Clinical Research Center, a joint cooperation of Max Delbrück Center for Molecular Medicine and Charité-Universitätsmedizin Berlin, 13125 Berlin, Germany; Max-Delbrück-Center for Molecular Medicine in the Helmholtz Association (MDC), Berlin Institute for Medical Systems Biology (BIMSB), Integrative Proteomics and Metabolomics, 13125 Berlin, Germany; DZHK (German Centre for Cardiovascular Research), partner site Berlin, 10785 Berlin, Germany; Charité - Universitätsmedizin Berlin, Corporate Member of Freie Universität Berlin, Humboldt Universität zu Berlin, and Berlin Institute of Health, 10117 Berlin, Germany.

出版信息

Cell Metab. 2023 Feb 7;35(2):299-315.e8. doi: 10.1016/j.cmet.2023.01.009.

DOI:10.1016/j.cmet.2023.01.009

PMID:36754020

Abstract

FOXP3 regulatory T cells (Tregs) are central for peripheral tolerance, and their deregulation is associated with autoimmunity. Dysfunctional autoimmune Tregs display pro-inflammatory features and altered mitochondrial metabolism, but contributing factors remain elusive. High salt (HS) has been identified to alter immune function and to promote autoimmunity. By investigating longitudinal transcriptional changes of human Tregs, we identified that HS induces metabolic reprogramming, recapitulating features of autoimmune Tregs. Mechanistically, extracellular HS raises intracellular Na, perturbing mitochondrial respiration by interfering with the electron transport chain (ETC). Metabolic disturbance by a temporary HS encounter or complex III blockade rapidly induces a pro-inflammatory signature and FOXP3 downregulation, leading to long-term dysfunction in vitro and in vivo. The HS-induced effect could be reversed by inhibition of mitochondrial Na/Ca exchanger (NCLX). Our results indicate that salt could contribute to metabolic reprogramming and that short-term HS encounter perturb metabolic fitness and long-term function of human Tregs with important implications for autoimmunity.

摘要

叉头框蛋白 3（Foxp3）调节性 T 细胞（Tregs）是外周耐受的核心，其功能失调与自身免疫有关。功能失调的自身免疫性 Tregs 表现出促炎特征和改变的线粒体代谢，但仍不清楚其促成因素。高盐（HS）已被确定会改变免疫功能并促进自身免疫。通过研究人类 Tregs 的纵向转录变化，我们发现 HS 诱导代谢重编程，再现自身免疫性 Tregs 的特征。从机制上讲，细胞外 HS 增加细胞内 Na+，通过干扰电子传递链（ETC）扰乱线粒体呼吸。短暂的 HS 遭遇或复合物 III 阻断引起的代谢紊乱会迅速诱导促炎特征和 FOXP3 下调，导致体外和体内的长期功能障碍。通过抑制线粒体 Na+/Ca2+交换器（NCLX）可以逆转 HS 诱导的作用。我们的结果表明，盐可能有助于代谢重编程，短期 HS 遭遇会扰乱人类 Tregs 的代谢适应性和长期功能，这对自身免疫有重要意义。

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钠扰乱线粒体呼吸并诱导功能失调的 Tregs。

Sodium perturbs mitochondrial respiration and induces dysfunctional Tregs.

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