Aqueous Extract of Rhubarb Promotes Hepatotoxicity via Facilitating PKM2-Mediated Aerobic Glycolysis in a Rat Model of Diethylnitrosamine-Induced Liver Cancer.

IF 4.7 2区 医学 Q1 CHEMISTRY, MEDICINAL
Drug Design, Development and Therapy Pub Date : 2024-10-09 eCollection Date: 2024-01-01 DOI:10.2147/DDDT.S476273
Anni Zhao, Xiaomei Liu, Xiping Chen, Sha Na, Hui Wang, Xuan Peng, Peizhong Kong, Lu Li
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引用次数: 0

Abstract

Objective: To identify the polar parts in Rhubarb that cause hepatotoxicity and explore the underlying mechanisms.

Methods: The rat model of liver cancer was established by gavage of diethylnitrosamine (DEN; 0.002 g/rat) for 14 weeks. Starting from the 11th week, Rhubarb granule (4 g/kg), aqueous, ethyl acetate and n-butanol extract of Rhubarb or Rhein equivalent to a dose of 4 g/kg Rhubarb granule were administered intragastrically for 4 consecutive weeks. Liver tissues from rats treated with DEN and Rhubarb granules were used for non-targeted metabolomics analysis. The correlation between pyruvate kinase isozyme type M2 (PKM2) expression level and the progress and prognosis of hepatocellular carcinoma (HCC) was evaluated through bioinformatics analysis based on TCGA database. Liver tissues and blood samples from rats treated with DEN and aqueous, ethyl acetate and n-butanol extract of Rhubarb were used for the screening of hepatotoxic polar parts of Rhubarb. The liver injuries were evaluated by the changes in pathology, liver function, and the expression levels of proliferating cell nuclear antigen (PCNA) and transforming growth factor beta1 (TGF-β1). The mechanism studies focus on PKM2 expression, and the metabolic reprogramming via detecting the activities of lactate dehydrogenase A (LDHA) and isocitrate dehydrogenase (ICDH). Furthermore, molecular docking analysis was performed to validate the target interaction between Rhein and PKM2, and the hepatotoxicity of Rhein was evaluated by testing liver function in the DEN-induced liver cancer model.

Results: The non-targeted metabolomics analysis revealed that Rhubarb promoted aerobic glycolysis in the rat model of DEN-induced liver cancer. And bioinformatics analysis revealed that high PKM2 expression was closely related to the progression and poor prognosis of HCC. In vivo studies indicated that the aqueous extract of Rhubarb, but not ethyl acetate and n-butanol extract, promoted the liver injuries induced by DEN. The mechanism study showed that the aqueous extract of Rhubarb increased the expression of PKM2 and promoted aerobic glycolysis. Moreover, Rhein had a strong binding affinity for PKM2 and aggravated liver injury in the DEN-induced liver cancer model.

Conclusion: Aqueous extract of Rhubarb promoted hepatotoxicity via facilitating PKM2-mediated aerobic glycolysis in the rat model of DEN-induced liver cancer.

在二乙基亚硝胺诱发肝癌的大鼠模型中,大黄水提取物通过促进 PKM2 介导的有氧糖酵解来增强肝毒性
目的确定大黄中导致肝毒性的极性成分,并探索其潜在机制:大鼠肝癌模型通过灌胃二乙基亚硝胺(DEN;0.002 克/只)建立,为期 14 周。从第 11 周开始,大黄颗粒(4 克/千克)、大黄水提取物、乙酸乙酯提取物和正丁醇提取物或大黄素(相当于 4 克/千克大黄颗粒的剂量)被连续灌胃 4 周。用 DEN 和大黄颗粒处理的大鼠肝组织用于非靶向代谢组学分析。通过基于TCGA数据库的生物信息学分析,评估了丙酮酸激酶同工酶M2型(PKM2)表达水平与肝细胞癌(HCC)的进展和预后之间的相关性。大黄水提取物、乙酸乙酯提取物和正丁醇提取物用于筛选大黄的肝毒性极性部位。肝损伤通过病理变化、肝功能、增殖细胞核抗原(PCNA)和转化生长因子β1(TGF-β1)的表达水平进行评估。机理研究的重点是 PKM2 的表达,以及通过检测乳酸脱氢酶 A(LDHA)和异柠檬酸脱氢酶(ICDH)的活性实现代谢重编程。此外,还进行了分子对接分析以验证Rhein与PKM2之间的靶向相互作用,并在DEN诱导的肝癌模型中通过检测肝功能评估了Rhein的肝毒性:结果:非靶向代谢组学分析表明,大黄能促进DEN诱导肝癌大鼠模型的有氧糖酵解。生物信息学分析表明,PKM2 的高表达与 HCC 的进展和预后不良密切相关。体内研究表明,大黄水提取物能促进DEN诱导的肝损伤,而乙酸乙酯和正丁醇提取物不能。机理研究表明,大黄水提取物能增加 PKM2 的表达,促进有氧糖酵解。此外,大黄苷与PKM2有很强的结合亲和力,能加重DEN诱导的肝癌模型的肝损伤:结论:大黄水提取物通过促进PKM2介导的有氧糖酵解,在大鼠DEN诱导的肝癌模型中促进肝毒性。
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来源期刊
Drug Design, Development and Therapy
Drug Design, Development and Therapy CHEMISTRY, MEDICINAL-PHARMACOLOGY & PHARMACY
CiteScore
9.00
自引率
0.00%
发文量
382
审稿时长
>12 weeks
期刊介绍: Drug Design, Development and Therapy is an international, peer-reviewed, open access journal that spans the spectrum of drug design, discovery and development through to clinical applications. The journal is characterized by the rapid reporting of high-quality original research, reviews, expert opinions, commentary and clinical studies in all therapeutic areas. Specific topics covered by the journal include: Drug target identification and validation Phenotypic screening and target deconvolution Biochemical analyses of drug targets and their pathways New methods or relevant applications in molecular/drug design and computer-aided drug discovery* Design, synthesis, and biological evaluation of novel biologically active compounds (including diagnostics or chemical probes) Structural or molecular biological studies elucidating molecular recognition processes Fragment-based drug discovery Pharmaceutical/red biotechnology Isolation, structural characterization, (bio)synthesis, bioengineering and pharmacological evaluation of natural products** Distribution, pharmacokinetics and metabolic transformations of drugs or biologically active compounds in drug development Drug delivery and formulation (design and characterization of dosage forms, release mechanisms and in vivo testing) Preclinical development studies Translational animal models Mechanisms of action and signalling pathways Toxicology Gene therapy, cell therapy and immunotherapy Personalized medicine and pharmacogenomics Clinical drug evaluation Patient safety and sustained use of medicines.
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