巨噬细胞感知氧化的 DAMPs，通过 TLR2-Syk-神经酰胺依赖的机制重新编程其代谢以支持氧化还原稳态和炎症。

Macrophages sensing oxidized DAMPs reprogram their metabolism to support redox homeostasis and inflammation through a TLR2-Syk-ceramide dependent mechanism.

机构信息

Department of Pharmacology, University of Virginia, Charlottesville, VA 22903, USA.

Department of Pharmacology, University of Virginia, Charlottesville, VA 22903, USA; Robert M. Berne Cardiovascular Research Center, University of Virginia, Charlottesville, VA 22903, USA.

出版信息

Mol Metab. 2018 Jan;7:23-34. doi: 10.1016/j.molmet.2017.11.002. Epub 2017 Nov 7.

DOI:10.1016/j.molmet.2017.11.002

PMID:29153923

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5784323/

Abstract

OBJECTIVE

Macrophages control tissue homeostasis and inflammation by sensing and responding to environmental cues. However, the metabolic adaptation of macrophages to oxidative tissue damage and its translation into inflammatory mechanisms remains enigmatic.

METHODS

Here we identify the critical regulatory pathways that are induced by endogenous oxidation-derived DAMPs (oxidized phospholipids, OxPL) in vitro, leading to formation of a unique redox-regulatory metabolic phenotype (Mox), which is strikingly different from conventional classical or alternative macrophage activation.

RESULTS

Unexpectedly, metabolomic analyses demonstrated that Mox heavily rely on glucose metabolism and the pentose phosphate pathway (PPP) to support GSH production and Nrf2-dependent antioxidant gene expression. While the metabolic adaptation of macrophages to OxPL involved transient suppression of aerobic glycolysis, it also led to upregulation of inflammatory gene expression. In contrast to classically activated (M1) macrophages, Hif1α mediated expression of OxPL-induced Glut1 and VEGF but was dispensable for Il1β expression. Mechanistically, we show that OxPL suppress mitochondrial respiration via TLR2-dependent ceramide production, redirecting TCA metabolites to GSH synthesis. Finally, we identify spleen tyrosine kinase (Syk) as a critical downstream signaling mediator that translates OxPL-induced effects into ceramide production and inflammatory gene regulation.

CONCLUSIONS

Together, these data demonstrate the metabolic and bioenergetic requirements that enable macrophages to translate tissue oxidation status into either antioxidant or inflammatory responses via sensing OxPL. Targeting dysregulated redox homeostasis in macrophages could therefore lead to novel therapies to treat chronic inflammation.

摘要

目的

巨噬细胞通过感知和响应环境线索来控制组织稳态和炎症。然而，巨噬细胞对氧化组织损伤的代谢适应及其转化为炎症机制仍然是一个谜。

方法

在这里，我们确定了内源性氧化衍生 DAMPs（氧化磷脂，OxPL）在体外诱导的关键调节途径，导致形成独特的氧化还原调节代谢表型（Mox），这与传统的经典或替代巨噬细胞激活明显不同。

结果

出乎意料的是，代谢组学分析表明，Mox 严重依赖葡萄糖代谢和戊糖磷酸途径（PPP）来支持 GSH 产生和 Nrf2 依赖性抗氧化基因表达。虽然巨噬细胞对 OxPL 的代谢适应涉及有氧糖酵解的短暂抑制，但它也导致炎症基因表达的上调。与经典激活的（M1）巨噬细胞不同，Hif1α介导 OxPL 诱导的 Glut1 和 VEGF 的表达，但对于 Il1β 的表达是可有可无的。在机制上，我们表明 OxPL 通过 TLR2 依赖性神经酰胺产生来抑制线粒体呼吸，将 TCA 代谢物重新导向 GSH 合成。最后，我们确定脾酪氨酸激酶（Syk）作为一个关键的下游信号转导介质，将 OxPL 诱导的作用转化为神经酰胺产生和炎症基因调节。

结论

总之，这些数据表明代谢和生物能量需求使巨噬细胞能够通过感知 OxPL 将组织氧化状态转化为抗氧化或炎症反应。靶向巨噬细胞中失调的氧化还原稳态可能会导致治疗慢性炎症的新疗法。

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巨噬细胞感知氧化的 DAMPs，通过 TLR2-Syk-神经酰胺依赖的机制重新编程其代谢以支持氧化还原稳态和炎症。

Macrophages sensing oxidized DAMPs reprogram their metabolism to support redox homeostasis and inflammation through a TLR2-Syk-ceramide dependent mechanism.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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