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中國精品科技期刊2020
劉致遠,曾瑾子,鄭桐煜,等. 葫蘆素B誘導人結直腸癌細胞鐵死亡的分子機制研究[J]. 食品工業科技,2024,45(8):325?335. doi: 10.13386/j.issn1002-0306.2023060234.
引用本文: 劉致遠,曾瑾子,鄭桐煜,等. 葫蘆素B誘導人結直腸癌細胞鐵死亡的分子機制研究[J]. 食品工業科技,2024,45(8):325?335. doi: 10.13386/j.issn1002-0306.2023060234.
LIU Zhiyuan, ZENG Jinzi, ZHENG Tongyu, et al. Molecular Mechanisms of Cucurbitacin B-induced Ferroptosis in Human Colorectal Cancer Cells[J]. Science and Technology of Food Industry, 2024, 45(8): 325?335. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023060234.
Citation: LIU Zhiyuan, ZENG Jinzi, ZHENG Tongyu, et al. Molecular Mechanisms of Cucurbitacin B-induced Ferroptosis in Human Colorectal Cancer Cells[J]. Science and Technology of Food Industry, 2024, 45(8): 325?335. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023060234.

葫蘆素B誘導人結直腸癌細胞鐵死亡的分子機制研究

Molecular Mechanisms of Cucurbitacin B-induced Ferroptosis in Human Colorectal Cancer Cells

  • 摘要: 為了探究葫蘆素B(Cucurbitacin B,CuB)的抗結腸癌活性,并明確鐵死亡在CuB發揮抗癌作用中的關鍵作用及其分子機制。本文將人結腸癌細胞HCT-116作為研究對象,評價了CuB的抗結腸癌活性,檢測了鐵死亡相關指標如細胞內鐵離子濃度、谷胱甘肽(Glutathione,GSH)含量和乳酸脫氫酶(Lactatedehydrogenase,LDH)水平,并采用網絡藥理學分析、代謝組學分析、分子對接及分子動力學模擬,探究了CuB抑制結腸癌的作用機制。結果表明,CuB能顯著(P<0.05)抑制人結腸癌細胞HCT-116增殖,半數抑制濃度(IC50)為64.48 nmol/L。此外,CuB可以降低細胞內GSH含量、促進總鐵離子的積累和LDH的釋放,并且鐵死亡抑制劑Fer-1能夠逆轉CuB誘導的LDH釋放。網絡藥理學分析和代謝組學分析結果表明,CuB抑制結腸癌的作用機制與鐵死亡密切相關的谷胱甘肽代謝途徑有關。隨后,分子對接結果提示CuB能與谷胱甘肽代謝通路中的關鍵蛋白SLC7A11和GPX4分別以?4.819和?3.833的得分結合,分子動力學模擬結果表明CuB與SLC7A11的結合具有較好的結構穩定性、波動性以及能量穩定性。由此,本研究發現CuB可以通過誘導人結腸癌細胞HCT-116中鐵死亡的發生來發揮抗癌作用。

     

    Abstract: In order to investigate the anti-colon cancer activity of cucurbitacin B (CuB) and clarify the key role and molecular mechanism of ferroptosis in the anticancer effect of CuB. This study used human colon cancer cells HCT-116 as the model to evaluate the anti-colon cancer activity of CuB, detected ferroptosis-related indicators, and investigated the mechanism of CuB in inhibiting colon cancer through network pharmacology analysis, metabolomics analysis, molecular docking, and molecular dynamics simulation. The results showed that CuB significantly (P<0.05) inhibited the proliferation of HCT-116 cells with an IC50 of 64.48 nmol/L. Additionally, CuB decreased the intracellular content of glutathione (GSH), promoted the accumulation of total iron ions, and enhanced the release of lactate dehydrogenase (LDH), all of which could be reversed by the ferroptosis inhibitor Fer-1. Results from network pharmacology and metabolomics analysed suggest that the mechanism of CuB's inhibition of colon cancer was linked to the GSH metabolic pathway closely related to ferroptosis. Furthermore, molecular docking revealed that CuB could bind to key proteins in the GSH metabolic pathway, SLC7A11 and GPX4, with scores of ?4.819 and ?3.833, respectively. Molecular dynamics simulations demonstrated that CuB had good structural stability, fluctuation, and energy stability when bound to SLC7A11. Consequently, this study uncovered that CuB exerted its anti-cancer effect by inducing ferroptosis in HCT-116 cells.

     

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