[槲皮素对敌草快中毒小鼠急性肝损伤的保护作用及机制]

Shan Huang, Jianhong Wang, Renyang Ou, Guosheng Rao, Zhijie Zhao, Nana Xu, Manhong Zhou
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引用次数: 0

摘要

目的研究槲皮素(QR)对敌草快(DQ)中毒小鼠急性肝损伤的保护作用及其机制:将80只SPF级健康雄性C57BL/6小鼠随机分为对照组、DQ模型组、QR治疗组和QR对照组,每组20只。一次性腹腔注射DQ溶液(40 mg/kg)建立DQ中毒模型;对照组和QR对照组腹腔注射等量的蒸馏水。建模 4 小时后,QR 治疗组和 QR 对照组通过灌胃接受 0.5 mL QR 溶液(50 mg/kg)。同时,给对照组和 DQ 模型组口服等量的蒸馏水。上述治疗每天一次,连续七天。之后,对小鼠进行麻醉,采集血液和肝组织进行以下检测:使用透射电子显微镜观察小鼠肝组织结构的变化;使用酶联免疫吸附试验(ELISA)检测血清丙氨酸氨基转移酶(ALT)和天冬氨酸氨基转移酶(AST)的水平;分别用水溶性四氮唑-1(WST-1)法、硫代巴比妥酸(TBA)法和酶法检测肝组织中谷胱甘肽(GSH)、超氧化物歧化酶(SOD)和丙二醛(MDA)的含量;采用Western印迹法检测肝组织中核因子红细胞2相关因子2(Nrf2)、血红素加氧酶1(HO-1)、Kelch样ECH相关蛋白1(Keap1)和活化的caspase-9的蛋白表达。结果显示透射电镜观察发现,DQ模型组小鼠肝组织线粒体损伤严重,而QR治疗组线粒体损伤明显减轻。与对照组相比,DQ 模型组肝脏组织中的 MDA、血清 AST 和 ALT 水平明显升高,而肝脏组织中的 GSH 和 SOD 水平则明显下降。与 DQ 模型组相比,QR 治疗组的血清 ALT 和 AST 水平以及肝组织中的 MDA 水平明显降低[ALT(U/L):52.60±6.44 vs. 95.70±8.00,AST(U/L):170.45±19.33 vs. 251.10±13.09,MDA(nmol/mg):12.63±3.41 vs. 251.10±13.09,GSH(nmol/mg):12.63±3.41 vs. 251.10±13.09]:12.63±3.41 vs. 18.04±3.72],肝组织中的 GSH 和 SOD 水平显著增加[GSH(μmol/mg):39.49±6.33 vs. 20.26±3.96,SOD (U/mg):121.40±11.75 vs. 81.67±10.01],所有差异均有统计学意义(均 P < 0.01)。Western blotting结果显示,与对照组相比,DQ模型组肝脏组织中Nrf2和HO-1的蛋白表达量明显下降。另一方面,与对照组相比,Keap1和活化的caspase-9的蛋白表达明显升高。与 DQ 模型组相比,QR 治疗组肝脏组织中 Nrf2 和 HO-1 蛋白表达量明显增加(Nrf2/β-肌动蛋白:1.17±0.08 vs. 0.92±0.45,HO-1/β-肌动蛋白:1.53±0.17 vs. 0.84±0.09)。相比之下,Keap1和活化的caspase-9的蛋白表达量明显下降(Keap1/β-actin:0.48±0.06 vs. 1.22±0.09,活化的caspase-9/β-actin:1.17±0.12 vs. 1.59±0.30),差异有统计学意义(均P<0.01):结论:QR可通过激活Keap1/Nrf2信号通路减轻DQ中毒引起的小鼠急性肝损伤。
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[Protective effect and mechanism of quercetin on acute liver injury induced by diquat poisoning in mice].

Objective: To investigate the protective effect of quercetin (QR) on acute liver injury induced by diquat (DQ) poisoning in mice and its mechanism.

Methods: Eighty healthy male C57BL/6 mice with SPF grade were randomly divided into control group, DQ model group, QR treatment group, and QR control group, with 20 mice in each group. The DQ poisoning model was established by a one-time intraperitoneal injection of DQ solution (40 mg/kg); the control and QR control groups received equivalent amounts of distilled water through intraperitoneal injection. Four hours after modeling, the QR treatment group and the QR control group received 0.5 mL QR solution (50 mg/kg) through gavage. Meanwhile, an equivalent amount of distilled water was given orally to the control group and the DQ model group. The treatments above were administered once daily for seven consecutive days. Afterwards, the mice were anesthetized, blood and liver tissues were collected for following tests: changes in the structure of mice liver tissue were observed using transmission electron microscopy; the levels of serum alanine aminotransferase (ALT) and aspartate aminotransferase (AST) were detected using enzyme linked immunosorbent assay (ELISA); the levels of glutathione (GSH), superoxide dismutase (SOD), and malondialdehyde (MDA) in liver tissues were measured using the water-soluble tetrazolium-1 (WST-1) method, the thiobarbituric acid (TBA) method, and enzymatic methods, respectively; the protein expressions of nuclear factor erythroid 2-related factor 2 (Nrf2), heme oxygenase-1 (HO-1), Kelch-like ECH-associated protein 1 (Keap1), and activated caspase-9 in liver tissues were detected using Western blotting.

Results: Severe mitochondrial damage was observed in the liver tissues of mice in the DQ model group using transmission electron microscopy, yet mitochondrial damage in the QR treatment group showed significant alleviation. Compared to the control group, the DQ model group had significantly increased levels of MDA in liver tissue, serum AST, and ALT, yet had significantly decreased levels of GSH and SOD in liver tissue. In comparison to the DQ model group, the QR treatment group exhibited significant reductions in serum levels of ALT and AST, as well as MDA levels in liver tissue [ALT (U/L): 52.60±6.44 vs. 95.70±8.00, AST (U/L): 170.45±19.33 vs. 251.10±13.09, MDA (nmol/mg): 12.63±3.41 vs. 18.04±3.72], and notable increases in GSH and SOD levels in liver tissue [GSH (μmol/mg): 39.49±6.33 vs. 20.26±3.96, SOD (U/mg): 121.40±11.75 vs. 81.67±10.01], all the differences were statistically significant (all P < 0.01). Western blotting results indicated that the protein expressions of Nrf2 and HO-1 in liver tissues of the DQ model group were significantly decreased compared to the control group. On the other hand, the protein expressions of Keap1 and activated caspase-9 were conspicuously higher when compared to the control group. In comparison to the DQ model group, the QR treatment group showed a significant increase in the protein expressions of Nrf2 and HO-1 in liver tissues (Nrf2/β-actin: 1.17±0.08 vs. 0.92±0.45, HO-1/β-actin: 1.53±0.17 vs. 0.84±0.09). By contrast, there was a notable decrease in the protein expressions of Keap1 and activated caspase-9 (Keap1/β-actin: 0.48±0.06 vs. 1.22±0.09, activated caspase-9/β-actin: 1.17±0.12 vs. 1.59±0.30), the differences were statistically significant (all P < 0.01).

Conclusions: QR may reduce acute liver injury induced by DQ poisoning in mice via activating Keap1/Nrf2 signaling pathway.

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Zhonghua wei zhong bing ji jiu yi xue
Zhonghua wei zhong bing ji jiu yi xue Medicine-Critical Care and Intensive Care Medicine
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