Institute of Virology, Technical University of Munich, Munich, Germany.
German Center for Infection Research, Partner Site Munich, Munich, Germany.
J Clin Invest. 2020 Sep 1;130(9):4587-4600. doi: 10.1172/JCI137786.
Th cells integrate signals from their microenvironment to acquire distinct specialization programs for efficient clearance of diverse pathogens or for immunotolerance. Ionic signals have recently been demonstrated to affect T cell polarization and function. Sodium chloride (NaCl) was proposed to accumulate in peripheral tissues upon dietary intake and to promote autoimmunity via the Th17 cell axis. Here, we demonstrate that high-NaCl conditions induced a stable, pathogen-specific, antiinflammatory Th17 cell fate in human T cells in vitro. The p38/MAPK pathway, involving NFAT5 and SGK1, regulated FoxP3 and IL-17A expression in high-NaCl conditions. The NaCl-induced acquisition of an antiinflammatory Th17 cell fate was confirmed in vivo in an experimental autoimmune encephalomyelitis (EAE) mouse model, which demonstrated strongly reduced disease symptoms upon transfer of T cells polarized in high-NaCl conditions. However, NaCl was coopted to promote murine and human Th17 cell pathogenicity, if T cell stimulation occurred in a proinflammatory and TGF-β-low cytokine microenvironment. Taken together, our findings reveal a context-dependent, dichotomous role for NaCl in shaping Th17 cell pathogenicity. NaCl might therefore prove beneficial for the treatment of chronic inflammatory diseases in combination with cytokine-blocking drugs.
T 细胞整合来自其微环境的信号,以获得针对不同病原体的有效清除或免疫耐受的独特特化程序。最近已经证明离子信号会影响 T 细胞的极化和功能。氯化钠(NaCl)被提出在饮食摄入后在周围组织中积累,并通过 Th17 细胞轴促进自身免疫。在这里,我们证明高盐条件可在体外诱导人 T 细胞中稳定的、针对病原体的抗炎性 Th17 细胞命运。涉及 NFAT5 和 SGK1 的 p38/MAPK 途径调节高盐条件下 FoxP3 和 IL-17A 的表达。在实验性自身免疫性脑脊髓炎(EAE)小鼠模型中,体内证实了 NaCl 诱导的抗炎性 Th17 细胞命运的获得,该模型在转移在高盐条件下极化的 T 细胞后,疾病症状明显减轻。然而,如果 T 细胞刺激发生在促炎和 TGF-β 低细胞因子微环境中,NaCl 会被选择来促进鼠和人 Th17 细胞的致病性。总之,我们的发现揭示了 NaCl 在塑造 Th17 细胞致病性方面的一种具有上下文依赖性的二分角色。因此,NaCl 可能与细胞因子阻断药物联合用于治疗慢性炎症性疾病。
