Ershiwuwei Shanhu pills alleviates cerebral ischemia injury in rats by regulating endoplasmic reticulum stress through GRP78/XBP1/CHOP pathway

IF 6.7 1区医学 Q1 CHEMISTRY, MEDICINAL

Phytomedicine Pub Date : 2025-06-10 DOI:10.1016/j.phymed.2025.156969

Mengtian Han , Jiaqing Fu , Zhuoma Suonan , Zhongyuan Wang , Bai Bai , Yan Liang , Yinglian Song , Jingwen Zhang , Ce Tang , Tingting Kuang , Gang Fan , Yuqi Cui , Huanzhe Du , Xiaoxu Li , Suxing Tuo , Kejun Zhong , Bo Kong , Wencan He , Tsedien Nhamdriel , Zhang Wang

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引用次数: 0

Abstract

Background

Ershiwuwei Shanhu pills (ESWWSHW, Tibetan name is བྱུ་དམར་ཉེར་ལྔ།) is a traditional Tibetan medicinal formulation utilized for the management of cerebral ischemia, which mainly includes 25 medicinal materials, including 14 plant medicines and 11 mineral medicines. In the eighth century AD, ESWWSHW was created by Yutuo Yuandan Gongbu and later included in the classic Tibetan medical work Four Medical Classics. At present, it was included in the Ch.P (2020 edition, volume 1). ESWWSHW can open up orifices, unblock meridians, and relieve pain. It is primarily utilized for treating white nerve disease (Tibetan medicine disease name, including cerebral ischemia), confusion, brain pain, epilepsy, and various neuropathic pains. At present, the mechanism underlying ESWWSHW resistance to cerebral ischemic injury remains unknown.

Study design and methods

In this research, the chemical constituents present in ESWWSHW and blood-infiltrated tissues were subjected to qualitative analysis using UPLC-Q-TOF-MS, while the chemical constituents within the preparations were quantitatively assessed. 27 chemical constituents from 12 batches of ESWWSHW were subjected to content determination by HPLC-QqQ-MS. Sprague-Dawley (SD) rats were randomly divided into the sham group; model group; nimodipine group; and ESWWSHW low-dose, ESWWSHW medium-dose, and ESWWSHW high-dose groups. The rat model of cerebral ischemia reperfusion was established by utilizing a suture technique. The pharmacodynamic indices employed in this study included the cerebral infarction ratio and neurobehavioral ratings. Using metabolomics and protein chip technology, a amount of 14 differential metabolites were identified, predominantly associated with the sphingolipid and glycerophospholipid metabolic pathways, which exhibit properties related to antioxidative stress and the inhibition of apoptosis. In addition, the pathological examinations of the diencephalon, cortex, and hippocampus; TUNEL staining; and molecular biology (PCR, WB, and IF) were used to verify the mechanism by which ESWWSHW regulates endoplasmic reticulum stress-mediated apoptosis to resist cerebral ischemic injury.

Results

In the prescription of ESWWSHW, a amount of 76 chemical constituents were identified, with nine of which were compared with reference standards. Following a 24-hour period of cerebral ischemia in rat subjects, seven medicinal herb prototype components were qualitatively identified as entering the bloodstream, and 49 medicinal herb prototype components were identified as entering tissues. Metabolomic analysis revealed 14 metabolites that exhibit differential expression, which are implicated in the metabolic pathways of sphingolipids and glycerophospholipids. Additionally, protein chip technology identified 18 proteins with differential expression. Notably, inflammatory cytokines such as IL-10, IL-3, and IL-7 may serve as critical targets for interventions aimed at mitigating cerebral ischemic injury. ESWWSHW show to ameliorate neurobehavioral abnormalities in rats subjected to the MCAO model, reduce the incidence of cerebral infarction, mitigates pathological changes associated with neuronal necrosis in the cortical regions of brain tissue, enhances the quantity of Nissl bodies in these areas, and suppresses the expression of apoptotic cells within the cortical regions. ESWWSHW significantly elevates the mRNA expression level of ATF6, XBP1, and BCL2 in ischemic brain tissue, while concurrently decreasing the protein expression levels of CHOP, GRP78, BAX, and NLRP3, and increasing the protein expression of XBP1.

Conclusion

The protective mechanism of ESWWSHW against cerebral ischemic injury may be associated with the modulate cellular apoptosis induced by ERS-induced, particularly via the regulation of the GRP78/XBP1/CHOP signaling pathway. This suggests significant potential for its application as a therapeutic strategy in the management of cerebral ischemic injury.

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二十五味山虎丸通过GRP78/XBP1/CHOP通路调节内质网应激，减轻大鼠脑缺血损伤

十无味山虎丸（藏文：ESWWSHW）是一种治疗脑缺血的传统藏药配方，主要包括25种药材，其中植物药14种，矿物药11种。公元8世纪，由玉陀袁丹公布创制，后被纳入藏医经典《四经》。目前已被纳入《中华人民共和国药典》（2020年版第1卷）。ESWWSHW可通窍、通经络、止痛。主要用于治疗白神经病（藏医学病名，含脑缺血）、神志不清、脑痛、癫痫及各种神经性疼痛。目前，ESWWSHW抗脑缺血损伤的机制尚不清楚。研究设计与方法本研究采用UPLC-Q-TOF-MS对ESWWSHW和血侵组织中的化学成分进行定性分析，同时对制剂中的化学成分进行定量评价。采用高效液相色谱-质谱联用法对12批ESWWSHW中27种化学成分进行含量测定。SD大鼠随机分为假手术组；模型组;nimodipine组;ESWWSHW低剂量、ESWWSHW中剂量、ESWWSHW高剂量组。采用缝合法建立大鼠脑缺血再灌注模型。本研究采用的药效学指标包括脑梗死率和神经行为评分。利用代谢组学和蛋白质芯片技术，鉴定出14种差异代谢物，主要与鞘脂和甘油磷脂代谢途径相关，表现出与抗氧化应激和细胞凋亡抑制相关的特性。间脑、皮质、海马的病理检查；TUNEL染色;通过分子生物学（PCR、WB和IF）验证ESWWSHW调控内质网应激介导的凋亡抵抗脑缺血损伤的机制。结果复方ESWWSHW共检出76种化学成分，其中9种与参比标准品对照。大鼠脑缺血24小时后，定性鉴定有7种药材原型成分进入血流，49种药材原型成分进入组织。代谢组学分析显示14种代谢物表现出差异表达，这些代谢物与鞘脂和甘油磷脂的代谢途径有关。此外，蛋白质芯片技术鉴定出18种差异表达蛋白。值得注意的是，炎症细胞因子如IL-10、IL-3和IL-7可能是缓解脑缺血损伤干预的关键靶点。ESWWSHW可改善MCAO模型大鼠神经行为异常，降低脑梗死发生率，减轻脑组织皮质区神经元坏死相关病理改变，增加皮质区尼氏小体的数量，抑制皮质区凋亡细胞的表达。ESWWSHW显著提高缺血脑组织中ATF6、XBP1、BCL2 mRNA表达水平，同时降低CHOP、GRP78、BAX、NLRP3蛋白表达水平，提高XBP1蛋白表达水平。结论ESWWSHW对脑缺血损伤的保护机制可能与ers诱导的细胞凋亡调控有关，特别是通过调控GRP78/XBP1/CHOP信号通路。这表明其作为一种治疗策略在脑缺血损伤管理的显著潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Phytomedicine 医学-药学

CiteScore

10.30

自引率

5.10%

发文量

670

审稿时长

91 days

期刊介绍： Phytomedicine is a therapy-oriented journal that publishes innovative studies on the efficacy, safety, quality, and mechanisms of action of specified plant extracts, phytopharmaceuticals, and their isolated constituents. This includes clinical, pharmacological, pharmacokinetic, and toxicological studies of herbal medicinal products, preparations, and purified compounds with defined and consistent quality, ensuring reproducible pharmacological activity. Founded in 1994, Phytomedicine aims to focus and stimulate research in this field and establish internationally accepted scientific standards for pharmacological studies, proof of clinical efficacy, and safety of phytomedicines.