缺氧诱导的脑内 O-GlcNAc 修饰促进谷氨酸-谷氨酰胺循环，并降低小鼠对七氟醚的敏感性。

Hypoxia-triggered O-GlcNAcylation in the brain drives the glutamate-glutamine cycle and reduces sensitivity to sevoflurane in mice.

机构信息

Department of Anaesthesiology, Laboratory of Mitochondria and Metabolism, National Clinical Research Center for Geriatrics, West China Hospital of Sichuan University, Chengdu, China.

Department of Anaesthesiology, The General Hospital of Western Theater Command, Chengdu, China; Department of Anaesthesia Operation, The First People's Hospital of Shuangliu District, Chengdu, China.

出版信息

Br J Anaesth. 2022 Nov;129(5):703-715. doi: 10.1016/j.bja.2022.06.041. Epub 2022 Aug 26.

DOI:10.1016/j.bja.2022.06.041

PMID:36031420

Abstract

BACKGROUND

Hypersensitivity to general anaesthetics predicts adverse postoperative outcomes in patients. Hypoxia exerts extensive pathophysiological effects on the brain; however, whether hypoxia influences sevoflurane sensitivity and its underlying mechanisms remain poorly understood.

METHODS

Mice were acclimated to hypoxia (oxygen 10% for 8 h day) for 28 days and anaesthetised with sevoflurane; the effective concentrations for 50% of the animals (EC) showing loss of righting reflex (LORR) and loss of tail-pinch withdrawal response (LTWR) were determined. Positron emission tomography-computed tomography, O-glycoproteomics, seahorse analysis, carbon-13 tracing, site-specific mutagenesis, and electrophysiological techniques were performed to explore the underlying mechanisms.

RESULTS

Compared with the control group, the hypoxia-acclimated mice required higher concentrations of sevoflurane to present LORR and LTWR (EC50: 1.61 [0.03]% vs 1.46 [0.04]%, P<0.01; EC50: 2.46 [0.14]% vs 2.22 [0.06]%, P<0.01). Hypoxia-induced reduction in sevoflurane sensitivity was correlated with elevation of protein O-linked N-acetylglucosamine (O-GlcNAc) modification in brain, especially in the thalamus, and could be abolished by 6-diazo-5-oxo-l-norleucine, a glutamine fructose-6-phosphate amidotransferase inhibitor, and mimicked by thiamet-G, a selective O-GlcNAcase inhibitor. Mechanistically, O-GlcNAcylation drives de novo synthesis of glutamine from glucose in astrocytes and promotes the glutamate-glutamine cycle, partially via glycolytic flux and activation of glutamine synthetase.

CONCLUSIONS

Intermittent hypoxia exposure decreased mouse sensitivity to sevoflurane anaesthesia through enhanced O-GlcNAc-dependent modulation of the glutamate-glutamine cycle in the brain.

摘要

背景

全麻过敏预测患者术后不良结局。缺氧对大脑产生广泛的病理生理影响；然而，缺氧是否影响七氟醚的敏感性及其潜在机制仍知之甚少。

方法

小鼠适应缺氧（8 h 天，氧气 10%）28 天，并用七氟醚麻醉；确定半数动物（LORR）失去翻正反射和尾巴夹撤出反应（LTWR）的有效浓度（EC）。进行正电子发射断层扫描-计算机断层扫描、O-糖蛋白组学、 Seahorse 分析、碳-13 示踪、定点突变和电生理技术，以探讨潜在机制。

结果

与对照组相比，缺氧适应小鼠需要更高浓度的七氟醚才能出现 LORR 和 LTWR（EC50：1.61 [0.03]% vs 1.46 [0.04]%，P<0.01；EC50：2.46 [0.14]% vs 2.22 [0.06]%，P<0.01）。缺氧诱导的七氟醚敏感性降低与脑内 O-连接 N-乙酰氨基葡萄糖（O-GlcNAc）修饰增加相关，特别是在丘脑，可被谷氨酰胺果糖-6-磷酸酰胺转移酶抑制剂 6-二氮-5-氧代-L-正亮氨酸和 O-GlcNAcase 抑制剂噻唑-G 所消除。机制上，O-GlcNAcylation 驱动从葡萄糖在星形胶质细胞中从头合成谷氨酰胺，并促进谷氨酸-谷氨酰胺循环，部分通过糖酵解通量和谷氨酰胺合成酶的激活。

结论

间歇性缺氧暴露通过增强大脑中谷氨酸-谷氨酰胺循环的 O-GlcNAc 依赖性调节，降低了小鼠对七氟醚麻醉的敏感性。

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缺氧诱导的脑内 O-GlcNAc 修饰促进谷氨酸-谷氨酰胺循环，并降低小鼠对七氟醚的敏感性。

Hypoxia-triggered O-GlcNAcylation in the brain drives the glutamate-glutamine cycle and reduces sensitivity to sevoflurane in mice.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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