Apigenin Inhibits Triple‐Negative Breast Cancer Growth by Dual Targeting GPX4 / SLC7A11 ‐Mediated Ferroptosis and PKM2 / GLUT1 ‐Mediated Aerobic Glycolysis

芹菜素 糖酵解 厌氧糖酵解 癌症研究 化学 下调和上调 细胞内 乳酸 药理学 对接(动物) 类黄酮 毒性 肿瘤微环境 PI3K/AKT/mTOR通路 生物化学 三阴性乳腺癌 谷胱甘肽 转录因子 血管生成 转录组 癌症 活性氧 肿瘤进展 癌细胞 免疫印迹 乳腺癌
作者
Mingmei Zhu,Danping Peng,Zichao Yu,Meng Zhao,Jiajia Liu,Wanlu Yu,Hongyue Xu,Baochun Lu,Ning Liao,Sijia Niu,Ziyan LIU,Xinhua Cui,Lu Yu,Yang Wang
出处
期刊:Phytotherapy Research [Wiley]
标识
DOI:10.1002/ptr.70337
摘要

ABSTRACT Triple‐negative breast cancer (TNBC) is aggressive with limited treatments. Although the natural flavonoid Apigenin (API) shows anti‐tumor potential, its mechanism in TNBC remains unclear. This study investigated API's role in inducing ferroptosis and inhibiting glycolysis to suppress TNBC. Molecular docking predicted API's binding to ferroptosis‐ and glycolysis‐related proteins. In vitro, 4T1 and MDA‐MB‐231 TNBC cells were used to assess API's effects on viability, migration, invasion, and key metabolic markers (Fe 2+ , MDA, ROS, GSH, lactic acid, glucose, ATP, OCR, ECAR), and protein expression (GPX4, SLC7A11, TFR, FPN1, FTH1, FTL, FSP1, PKM2, GLUT1, GLUT4, HK2, LDHA) using RT‐qPCR and Western blotting. In vivo, a 4T1 tumor xenograft model evaluated API's impact on tumor growth, protein expression, and toxicity (H&E staining). Molecular docking indicated good binding affinity of API with ferroptosis‐ and glycolysis‐related proteins. In vitro, API inhibited the viability, migration, and invasion of TNBC cells. API significantly increased Fe 2+ , MDA, and ROS levels while decreasing reduced GSH levels, downregulated GPX4, SLC7A11, FPN1, FTH1, FTL, and FSP1 expression, and upregulated TFR expression, indicating ferroptosis induction. API also decreased lactic acid, ATP, and ECAR levels while increasing intracellular glucose and OCR levels, downregulating PKM2, GLUT1, GLUT4, HK2, and LDHA expression, demonstrating glycolysis inhibition. In vivo, API significantly inhibited tumor growth in the 4T1 xenograft model without obvious toxicity and regulated the expression of ferroptosis and glycolysis‐related proteins. These findings establish API as a promising natural anti‐TNBC drug by simultaneously targeting ferroptosis and aerobic glycolysis.
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