Morin overcomes doxorubicin resistance in human breast cancer by inducing DNA damage and modulating the LKB1/AMPK/mTORC1 signaling pathway.

IF 5 3区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY BioFactors Pub Date : 2024-08-08 DOI:10.1002/biof.2112
Sushma Maharjan, Min-Gu Lee, Kyu-Shik Lee, Kyung-Soo Nam
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Abstract

Breast cancer chemoresistance hampers chemotherapy efficacy; researchers investigate the pharmacological activities of natural products for potential solutions. This study aimed to determine the effect of morin, a bioflavonoid isolated from Maclura pomifera, on two Dox-resistant human breast cancer cell lines MDA-MB-231 (MDA-DR) and MCF-7 (MCF-DR). Sulforhodamine B and colony-forming assays demonstrated the cytotoxic effect of morin on both cell lines. Morin induced DNA damage and reduced the DNA repair mechanism, a feature of chemoresistance. In addition, morin reduced the protein expressions of cell cycle regulators, such as cyclin D1, CDK4, cyclin E1, cyclin B1, and p-Rb, thereby halting cell cycle progression. Moreover, morin slightly reduced PARP and Bcl-xL expressions but left LC3-II and RIPK3 expressions unchanged. Annexin-V/7-AAD analysis showed morin increased 7-AAD positive cells and annexin-V positive cells among MDA-DR and MCF-DR cells, respectively. In addition, morin increased p-AMPK and p-LKB1 levels; and, thus, inhibited phosphorylation of the mTOR pathway, but decreased t-AMPK levels by inducing lysosomal degradation, and AICAR, an AMPK activator, reduced Raptor, cyclin D1, CDK4, cyclin E1 and phosphorylated, and total mTOR levels, indicating AMPK is a key player in inducing cell death. Also, morin modulated MAPK phosphorylation and attenuated p-Akt and p-GSK3αβ levels; and thus, inhibited cell survival. In addition, morin suppressed tumor growth in our MDA-DR xenografted mouse model. These findings indicate that morin is a potential treatment for Dox-resistant breast cancer and that it does so by inducing DNA damage and modulating the LKB1/AMPK/mTORC1 pathway, along with regulating the MAPK, and Akt/GSK3αβ signaling pathways.

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莫林通过诱导 DNA 损伤和调节 LKB1/AMPK/mTORC1 信号通路,克服了人类乳腺癌对多柔比星的耐药性。
乳腺癌的化疗耐药性阻碍了化疗的疗效;研究人员对天然产品的药理活性进行了研究,以寻找潜在的解决方案。本研究旨在确定从马陆拉绒毛植物中分离出来的生物类黄酮--吗啉对两种对多克斯耐药的人类乳腺癌细胞株 MDA-MB-231 (MDA-DR) 和 MCF-7 (MCF-DR) 的影响。磺基罗丹明 B 和集落形成试验证明了吗啉对这两种细胞株的细胞毒性作用。吗啉会诱导 DNA 损伤并降低 DNA 修复机制,这是化疗抗性的一个特征。此外,吗啉还降低了细胞周期调节因子的蛋白表达,如细胞周期蛋白 D1、CDK4、细胞周期蛋白 E1、细胞周期蛋白 B1 和 p-Rb,从而阻止了细胞周期的进展。此外,吗啉还能轻微降低 PARP 和 Bcl-xL 的表达,但 LC3-II 和 RIPK3 的表达则保持不变。Annexin-V/7-AAD分析显示,MDA-DR细胞和MCF-DR细胞中的7-AAD阳性细胞和Annexin-V阳性细胞分别有所增加。AMPK激活剂AICAR可降低Raptor、细胞周期蛋白D1、CDK4、细胞周期蛋白E1、磷酸化和总的mTOR水平,表明AMPK是诱导细胞死亡的关键因素。此外,吗啉还能调节 MAPK 磷酸化,降低 p-Akt 和 p-GSK3αβ 水平,从而抑制细胞存活。此外,吗啉还能抑制 MDA-DR 异种移植小鼠模型的肿瘤生长。这些研究结果表明,吗啉是一种潜在的治疗多克斯耐药乳腺癌的药物,它通过诱导DNA损伤和调节LKB1/AMPK/mTORC1通路,以及调节MAPK和Akt/GSK3αβ信号通路来实现这一目的。
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来源期刊
BioFactors
BioFactors 生物-内分泌学与代谢
CiteScore
11.50
自引率
3.30%
发文量
96
审稿时长
6-12 weeks
期刊介绍: BioFactors, a journal of the International Union of Biochemistry and Molecular Biology, is devoted to the rapid publication of highly significant original research articles and reviews in experimental biology in health and disease. The word “biofactors” refers to the many compounds that regulate biological functions. Biological factors comprise many molecules produced or modified by living organisms, and present in many essential systems like the blood, the nervous or immunological systems. A non-exhaustive list of biological factors includes neurotransmitters, cytokines, chemokines, hormones, coagulation factors, transcription factors, signaling molecules, receptor ligands and many more. In the group of biofactors we can accommodate several classical molecules not synthetized in the body such as vitamins, micronutrients or essential trace elements. In keeping with this unified view of biochemistry, BioFactors publishes research dealing with the identification of new substances and the elucidation of their functions at the biophysical, biochemical, cellular and human level as well as studies revealing novel functions of already known biofactors. The journal encourages the submission of studies that use biochemistry, biophysics, cell and molecular biology and/or cell signaling approaches.
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