Aconitum carmichaelii triggers neurotoxicity and Parkinson-like symptoms through initiation of ROS-mitochondrial apoptosis and the Nox5/DJ-1 signaling pathway

BMEMat Pub Date : 2023-05-06 DOI:10.1002/bmm2.12019

Meijun Pang, Xin Song, Yaodong Miao, Yiwen Wang, Chang Zhou, Zihan Geng, Jiayin Du, Bernard Moussian, Yanfang Su, Xiuyun Liu, Dong Ming

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引用次数: 1

Abstract

Background

Aconitum carmichaelii, the mother root of Aconitum, has a long-applied history for treating many diseases in China. Increased use of it has prompted significant concerns regarding its extensive cardiotoxicity and neurotoxicity. The molecular mechanisms underlying A. carmichaelii-induced neurotoxicity are poorly understood.

Methods

We took advantage of the zebrafish model to investigate the neurotoxic mechanism of A. carmichaelii. In addition to the behavior and neuronal activity testing, gene expression of neuronal oxidative stress, and apoptosis levels were also analyzed.

Results

In contrast to the excitatory effect of low-dose A. carmichaelii decoction, hypoactivity of locomotor behavior, and neural activity, especially telencephalon, were detected in the 20 mg/mL group. High doses of A. carmichaelii induced excessive ROS by downregulating DJ-1 and activating Nox5, and further triggered cell apoptosis through the bax/bcl2a-caspase-9 pathway in zebrafish larva. Mitochondrial protection-related genes PinK1 and Parkin were upregulated to protect against mitochondrial dysfunction during cellular stress. The ROS scavenger-NAC significantly alleviated neurotoxicity in the 20 mg/mL group.

Conclusion

The study reveals the potential mechanism of A. carmichaelii-induced neurotoxicity and provides new insights into a significant risk marker of A. carmichaelii poisoning.

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乌头通过启动ROS线粒体凋亡和Nox5/DJ-1信号通路引发神经毒性和帕金森样症状

背景山乌头是乌头的母根，在我国治疗多种疾病有着悠久的应用历史。它的使用增加引起了人们对其广泛的心脏毒性和神经毒性的严重关注。A.carmichaelii诱导的神经毒性的分子机制尚不清楚。方法利用斑马鱼模型研究卡氏A.carmichaelii的神经毒性机制。除了行为和神经元活性测试外，还分析了神经元氧化应激的基因表达和细胞凋亡水平。结果20mg/mL组大鼠的运动行为和神经活动，特别是端脑活动均较低，与小剂量卡麦汤的兴奋作用相反。高剂量的A.carmichaelii通过下调DJ-1和激活Nox5诱导过量的ROS，并通过bax/bcl2a-caspase-9途径进一步触发斑马鱼幼虫的细胞凋亡。线粒体保护相关基因PinK1和Parkin在细胞应激期间被上调以保护线粒体免受功能障碍。ROS清除剂NAC显著减轻了20mg/mL组的神经毒性。结论本研究揭示了A.carmichaelii引起神经毒性的潜在机制，为A.carmicheii中毒的重要危险标志物提供了新的见解。

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