Eline C Brombacher, Thiago A Patente, Alwin J van der Ham, Tijmen J A Moll, Frank Otto, Fenne W M Verheijen, Esther A Zaal, Arnoud H de Ru, Rayman T N Tjokrodirijo, Celia R Berkers, Peter A van Veelen, Bruno Guigas, Bart Everts
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引用次数: 0
摘要
树突状细胞(DC)的活化和功能是由细胞代谢的深刻变化支撑的。一些研究表明,树突状细胞促进耐受的能力取决于分解代谢。然而,促进新陈代谢的中心能量传感器 AMPK 对 DC 耐受性的贡献仍然未知。在这里,我们发现 AMPK 激活可使人类单核细胞衍生的 DC 产生耐受性,这表现在驱动调节性 T 细胞分化的能力增强,而这一过程依赖于 RALDH 活性的增加。与此同时,新陈代谢也发生了一些变化,包括甘油磷脂分解增加、线粒体裂变依赖性脂肪酸氧化增强以及葡萄糖分解代谢上调。这种代谢重构在功能上非常重要,因为我们发现干扰这些代谢过程会在不同程度上降低 AMPK 诱导的 RALDH 活性以及 moDCs 的耐受能力。总之,我们的研究结果揭示了 AMPK 信号在形成直流耐受性中的关键作用,并建议将 AMPK 作为治疗环境中指导直流驱动的耐受性反应的靶点。
AMPK activation induces RALDH+ tolerogenic dendritic cells by rewiring glucose and lipid metabolism.
Dendritic cell (DC) activation and function are underpinned by profound changes in cellular metabolism. Several studies indicate that the ability of DCs to promote tolerance is dependent on catabolic metabolism. Yet the contribution of AMP-activated kinase (AMPK), a central energy sensor promoting catabolism, to DC tolerogenicity remains unknown. Here, we show that AMPK activation renders human monocyte-derived DCs tolerogenic as evidenced by an enhanced ability to drive differentiation of regulatory T cells, a process dependent on increased RALDH activity. This is accompanied by several metabolic changes, including increased breakdown of glycerophospholipids, enhanced mitochondrial fission-dependent fatty acid oxidation, and upregulated glucose catabolism. This metabolic rewiring is functionally important as we found interference with these metabolic processes to reduce to various degrees AMPK-induced RALDH activity as well as the tolerogenic capacity of moDCs. Altogether, our findings reveal a key role for AMPK signaling in shaping DC tolerogenicity and suggest AMPK as a target to direct DC-driven tolerogenic responses in therapeutic settings.
期刊介绍:
The Journal of Cell Biology (JCB) is a comprehensive journal dedicated to publishing original discoveries across all realms of cell biology. We invite papers presenting novel cellular or molecular advancements in various domains of basic cell biology, along with applied cell biology research in diverse systems such as immunology, neurobiology, metabolism, virology, developmental biology, and plant biology. We enthusiastically welcome submissions showcasing significant findings of interest to cell biologists, irrespective of the experimental approach.
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