黄芩苷通过保护谷氨酰胺合成酶免受 ROS 诱导的 20S 蛋白酶体降解来对抗谷氨酸兴奋性毒性。

Baicalin combats glutamate excitotoxicity via protecting glutamine synthetase from ROS-induced 20S proteasomal degradation.

机构信息

Department of Pharmacology of Chinese Materia Medica, School of Traditional Chinese Pharmacy, China Pharmaceutical University, 639 Longmian Road, Nanjing, 211198, China.

Department of Pharmacology of Chinese Materia Medica, School of Traditional Chinese Pharmacy, China Pharmaceutical University, 639 Longmian Road, Nanjing, 211198, China; Jiangsu Key Laboratory of TCM Evaluation and Translational Research, School of Traditional Chinese Pharmacy, China Pharmaceutical University, 639 Longmian Road, Nanjing, 211198, China.

出版信息

Redox Biol. 2020 Jul;34:101559. doi: 10.1016/j.redox.2020.101559. Epub 2020 May 16.

DOI:10.1016/j.redox.2020.101559

PMID:32473460

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7260594/

Abstract

BACKGROUND

Many neuroprotective approaches targeting neurons in animal models fail to provide benefits for the treatment of ischemic stroke in clinic and glial cells have become the targets in some basic studies. Baicalin has neuroprotective effects but the mechanisms related to glial cells are not revealed. This study investigated whether and how baicalin can combat excitotoxicity via protecting the functions of astrocytes in early stage of ischemia/reperfusion (I/R) insult by focusing on glutamine synthetase (GS).

EXPERIMENTAL APPROACH

The role of baicalin was explored in primary astrocytes exposed to oxygen-glucose deprivation/reperfusion (OGD/R) and rats subjected to middle cerebral artery occlusion/reperfusion (MCAO/R).

KEY RESULTS

Mitochondrial succinate dehydrogenase (SDH) activation led to an excessive production of reactive oxygen species (ROS) via reverse electron transport (RET) under conditions of OGD/R or I/R, which increased the carbonylation and proteasomal degradation of GS in astrocytes. Treatment of baicalin decreased the oxidative stress mediated by SDH and reduced the subsequent loss of GS. This effect increased the glutamate disposal by astrocytes and protected neurons from excitotoxicity in response to I/R insults.

CONCLUSIONS AND IMPLICATIONS

Baicalin inactivated SDH to suppress ROS production and protected GS protein stability against oxidative stress, contributing to the improvement of the glutamate disposal and decrease in excitotoxicity. These results suggest that protection of GS stability in astrocytes might be an effective strategy to prevent neuronal injury in acute ischemic stroke.

摘要

背景

许多针对动物模型中神经元的神经保护方法未能为缺血性中风的临床治疗提供益处，而神经胶质细胞已成为一些基础研究的靶点。黄芩苷具有神经保护作用，但与神经胶质细胞相关的机制尚未阐明。本研究通过关注谷氨酰胺合成酶（GS），研究了黄芩苷是否以及如何通过保护星形胶质细胞在缺血/再灌注（I/R）损伤的早期阶段的功能来对抗兴奋性毒性。

实验方法

研究了黄芩苷在暴露于氧葡萄糖剥夺/再灌注（OGD/R）的原代星形胶质细胞和大脑中动脉闭塞/再灌注（MCAO/R）大鼠中的作用。

主要结果

在 OGD/R 或 I/R 条件下，线粒体琥珀酸脱氢酶（SDH）的激活通过逆向电子传递（RET）导致活性氧（ROS）的过度产生，这增加了星形胶质细胞中 GS 的羰基化和蛋白酶体降解。黄芩苷处理可降低 SDH 介导的氧化应激，并减少随后的 GS 丢失。这种作用增加了星形胶质细胞对谷氨酸的处理能力，并保护神经元免受 I/R 损伤的兴奋性毒性。

结论和意义

黄芩苷失活 SDH 以抑制 ROS 的产生，并保护 GS 蛋白稳定性免受氧化应激，有助于改善谷氨酸的处理和减少兴奋性毒性。这些结果表明，保护星形胶质细胞中 GS 的稳定性可能是预防急性缺血性中风神经元损伤的有效策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c548/7260594/53be46264548/fx1.jpg

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黄芩苷通过保护谷氨酰胺合成酶免受 ROS 诱导的 20S 蛋白酶体降解来对抗谷氨酸兴奋性毒性。

Baicalin combats glutamate excitotoxicity via protecting glutamine synthetase from ROS-induced 20S proteasomal degradation.

机构信息

Department of Pharmacology of Chinese Materia Medica, School of Traditional Chinese Pharmacy, China Pharmaceutical University, 639 Longmian Road, Nanjing, 211198, China.