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芒柄花苷通过丙酮酸激酶M2去乙酰化作用调节脂多糖激活的小胶质细胞中SIRT2介导的糖酵解和炎症反应。

Ononin modulates SIRT2-mediated glycolysis and inflammation in LPS-activated microglia via PKM2 deacetylation.

作者信息

Chen Qunshan, Xu Weixian, Tong Xiaofang, Cheng Mei

机构信息

Pain Management Centre, Department of Anesthesiology, The Second Affiliated Hospital of Zhejiang University School of Medicine, HangZhou, China.

Operating Room, Hangzhou Women's Hospital, HangZhou, China.

出版信息

Brain Res. 2025 Sep 15;1863:149763. doi: 10.1016/j.brainres.2025.149763. Epub 2025 Jun 6.

DOI:10.1016/j.brainres.2025.149763
PMID:40484108
Abstract

BACKGROUND

Inhibition of inflammation and glycolysis of microglia contributes to neuropathic pain treatment. Ononin, a compound isolated from various plants, has been found to have various anti-inflammatory and anti-tumor effects.

AIM

To investigate the therapeutic potential and mechanism of Ononin on microglial activation.

METHODS

BV2 microglial cells were treated with LPS to mimic microenvironment of neuropathic pain in vitro, and gene expression was analyzed by qPCR array analysis after Ononin treatment. The effects of Ononin and SIRT2 gene on inflammation and glycolysis were then investigated. PKM2 acetylation sites were predicted using the GPS-PAL database. The interaction between PKM2 and SIRT2 protein was also studied.

RESULTS

Ononin at 40 μM significantly inhibited inflammation and glycolysis in LPS-treated BV2 microglial cells, and this was related to the upregulation of SIRT2 levels. Inhibition of SIRT2 weakened the regulatory effects of Ononin, and induced PKM2 acetylation to enhance glycolysis in BV2 cells. SIRT2 exerts deacetylation modification at K207 site of PKM2 protein to reduce the stability of PKM2 protein.

CONCLUSIONS

SIRT2-mediated metabolic reprogramming and inflammation are critical for neuropathic pain, and Ononin shows therapeutic potential by modulating SIRT2 to suppress PKM2 protein stability in the deacetylation way, suggesting it as a promising treatment option.

摘要

背景

抑制小胶质细胞的炎症和糖酵解有助于治疗神经性疼痛。芒柄花黄素是从多种植物中分离出的一种化合物,已被发现具有多种抗炎和抗肿瘤作用。

目的

研究芒柄花黄素对小胶质细胞活化的治疗潜力及其机制。

方法

用脂多糖处理BV2小胶质细胞以在体外模拟神经性疼痛的微环境,芒柄花黄素处理后通过qPCR阵列分析来分析基因表达。然后研究芒柄花黄素和SIRT2基因对炎症和糖酵解的影响。使用GPS-PAL数据库预测丙酮酸激酶M2(PKM2)的乙酰化位点。还研究了PKM2与SIRT2蛋白之间的相互作用。

结果

40 μM的芒柄花黄素显著抑制了脂多糖处理的BV2小胶质细胞中的炎症和糖酵解,这与SIRT2水平的上调有关。抑制SIRT2会削弱芒柄花黄素的调节作用,并诱导PKM2乙酰化以增强BV2细胞中的糖酵解。SIRT2在PKM2蛋白的K207位点进行去乙酰化修饰,以降低PKM2蛋白的稳定性。

结论

SIRT2介导的代谢重编程和炎症对神经性疼痛至关重要,芒柄花黄素通过调节SIRT2以去乙酰化方式抑制PKM2蛋白稳定性而显示出治疗潜力,表明它是一种有前景的治疗选择。

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