通过影响 xCT 和 TFRC 蛋白,重新确定氟苯咪唑治疗胶质母细胞瘤铁变态反应的用途。

IF 5.3
Wei Teng, Yuanguo Ling, Niya Long, Wu Cen, Hongzhi Zhang, Lishi Jiang, Jian Liu, Xingwang Zhou, Liangzhao Chu
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引用次数: 0

摘要

老药新用为临床转化带来了巨大希望。氟苯咪唑(FDA 批准的一种抗寄生虫药物)已被证明能靶向 p53 并促进胶质母细胞瘤(GBM)细胞凋亡。然而,它在 GBM 中的破坏机制仍不明确。在此,我们探讨了氟苯咪唑诱导 GBM 细胞铁凋亡的能力。用氟苯咪唑处理胶质瘤细胞株 U251 和 LN229(LN229 的 DMSO 50 = 0.5331 μM,U251 的 IC50 = 0.6809 μM)后,诱导了铁变态反应,表现为 MDA 水平升高、ROS 和脂质过氧化物积累、线粒体膜电位和结构改变。与铁变态反应有关的蛋白质分析表明,TFRC、DMT1 和 p53 上调,而 xCT、FHC 和 GPX4 下调(p<0.05)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Repurposing flubendazole for glioblastoma ferroptosis by affecting xCT and TFRC proteins

New uses of old drugs hold great promise for clinical translation. Flubendazole, an FDA-approved antiparasitic drug, has been shown to target p53 and promote apoptosis in glioblastoma (GBM) cells. However, its damaging mechanism in GBM remains elusive. Herein, we explored the ferroptosis-inducing ability of flubendazole on GBM cells. After treating glioma cell lines U251 and LN229 with the flubendazole (DMSO <1‰), cell viability was inhibited in a concentration-dependent manner (IC50 for LN229 = 0.5331 μM, IC50 for U251 = 0.6809 μM), attributed to the induction of ferroptosis, as evidenced by increased MDA levels, accumulation of ROS and lipid peroxides, change in mitochondrial membrane potential and structure. Protein analysis related to ferroptosis showed upregulation of TFRC, DMT1 and p53, alongside downregulation of xCT, FHC and GPX4 (p < 0.05). All-atom docking studies demonstrated that flubendazole bound closely with xCT, and TFRC, validating its role in inducing glioma ferroptosis via modulation of these proteins. Notably, flubendazole could damage the glioblastoma stem cells (GSC) that are typically resistant to other therapies, thereby possessing advantages in stopping glioma recurrence. This study delved into the mechanisms of flubendazole-induced ferroptosis in glioma, broadening its application and providing new ideas for new uses of other old drugs.

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来源期刊
CiteScore
11.50
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0.00%
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期刊介绍: The Journal of Cellular and Molecular Medicine serves as a bridge between physiology and cellular medicine, as well as molecular biology and molecular therapeutics. With a 20-year history, the journal adopts an interdisciplinary approach to showcase innovative discoveries. It publishes research aimed at advancing the collective understanding of the cellular and molecular mechanisms underlying diseases. The journal emphasizes translational studies that translate this knowledge into therapeutic strategies. Being fully open access, the journal is accessible to all readers.
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