人源胸腺来源的效应性 Treg 通过葡萄糖/乳酸供能的脂肪酸合成来实现免疫抑制。

Immune suppression by human thymus-derived effector Tregs relies on glucose/lactate-fueled fatty acid synthesis.

机构信息

Department of Immunology, Leiden University Medical Center, 2300 RC Leiden, the Netherlands; Oncode Institute, Leiden University Medical Center, 2300 RC Leiden, the Netherlands.

出版信息

Cell Rep. 2024 Sep 24;43(9):114681. doi: 10.1016/j.celrep.2024.114681. Epub 2024 Aug 23.

DOI:10.1016/j.celrep.2024.114681

PMID:39180751

Abstract

Regulatory T cells (Tregs) suppress pro-inflammatory conventional T cell (Tconv) responses. As lipids impact cell signaling and function, we compare the lipid composition of CD4 thymus-derived (t)Tregs and Tconvs. Lipidomics reveal constitutive enrichment of neutral lipids in Tconvs and phospholipids in tTregs. TNFR2-co-stimulated effector tTregs and Tconvs are both glycolytic, but only in tTregs are glycolysis and the tricarboxylic acid (TCA) cycle linked to a boost in fatty acid (FA) synthesis (FAS), supported by relevant gene expression. FA chains in tTregs are longer and more unsaturated than in Tconvs. In contrast to Tconvs, tTregs effectively use either lactate or glucose for FAS and rely on this process for proliferation. FASN and SCD1, enzymes responsible for FAS and FA desaturation, prove essential for the ability of tTregs to suppress Tconvs. These data illuminate how effector tTregs can thrive in inflamed or cancerous tissues with limiting glucose but abundant lactate levels.

摘要

调节性 T 细胞 (Tregs) 抑制促炎常规 T 细胞 (Tconv) 反应。由于脂质影响细胞信号转导和功能，我们比较了 CD4 胸腺衍生 (t)Tregs 和 Tconvs 的脂质组成。脂质组学揭示了 Tconvs 中中性脂质的组成性富集和 tTregs 中磷脂的组成性富集。TNFR2 共刺激效应 tTregs 和 Tconvs 都是糖酵解的，但只有在 tTregs 中，糖酵解和三羧酸 (TCA) 循环与脂肪酸 (FA) 合成 (FAS) 的增加相关联，这得到了相关基因表达的支持。tTregs 中的 FA 链比 Tconvs 更长且更不饱和。与 Tconvs 相反，tTregs 可以有效地将乳酸或葡萄糖用于 FAS，并依赖该过程进行增殖。FASN 和 SCD1，负责 FAS 和 FA 去饱和的酶，对于 tTregs 抑制 Tconvs 的能力证明是必不可少的。这些数据阐明了效应 tTregs 如何在炎症或癌症组织中茁壮成长，这些组织中葡萄糖有限，但乳酸水平丰富。

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人源胸腺来源的效应性 Treg 通过葡萄糖/乳酸供能的脂肪酸合成来实现免疫抑制。

Immune suppression by human thymus-derived effector Tregs relies on glucose/lactate-fueled fatty acid synthesis.

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