苦瓜5β,19-环氧葫芦-6,23(E)-二烯-3β,19(R),25-三醇对肝癌细胞的细胞毒活性及分子机制研究。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Mei-Kang Yuan, Ju-Wen Kao, Wen-Tung Wu, Chiy-Rong Chen, Chi-I Chang, Yu-Jen Wu
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引用次数: 1

摘要

背景:苦瓜(葫芦科),俗称苦瓜,是热带地区种植的一种可食用水果。本研究研究了从M. charantia中分离的活性化合物5β,19-环氧葫芦-6,23(E)-二烯-3β,19(R),25-三醇(ECDT)对人肝细胞癌(HCC)细胞的毒性作用。目的:探讨ecdt诱导肝癌细胞凋亡的机制。材料与方法:采用MTT法、菌落形成法、创面愈合法、TUNEL/DAPI染色法、膜联蛋白v -异硫氰酸荧光素/碘化丙啶(PI)染色法和JC-1染色法检测ECDT对HA22T肝癌细胞的抑制作用。采用5、10、15、20、25 μM ECDT处理HA22T细胞24 h, Western blot检测细胞凋亡的分子机制。用DMSO处理的细胞作为阴性对照。结果:ECDT抑制HA22T细胞增殖呈剂量依赖性。流式细胞术显示,10 ~ 20 μM ECDT处理可使细胞早期凋亡增加10 ~ 14%,晚期凋亡增加2 ~ 5%。Western blot结果显示,ECDT处理激活了线粒体依赖性凋亡通路,ECDT诱导的凋亡是通过caspase信号通路和JNK、p38MAPK的激活介导的。用MAPK抑制剂(SB203580或SP600125)预处理细胞逆转了ecdt诱导的细胞死亡,这进一步支持了p38MAPK和JNK通路的参与。讨论与结论:我们的研究结果表明,ECDT可以通过p38MAPK和JNK途径诱导HA22T细胞凋亡。研究结果表明,ECDT具有宝贵的抗癌特性,有可能成为治疗HCC的一种新的化疗药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Investigation of cell cytotoxic activity and molecular mechanism of 5β,19-epoxycucurbita-6,23(<i>E</i>)-diene-3β,19(<i>R</i>),25-triol isolated from <i>Momordica charantia</i> on hepatoma cells.

Investigation of cell cytotoxic activity and molecular mechanism of 5β,19-epoxycucurbita-6,23(<i>E</i>)-diene-3β,19(<i>R</i>),25-triol isolated from <i>Momordica charantia</i> on hepatoma cells.

Investigation of cell cytotoxic activity and molecular mechanism of 5β,19-epoxycucurbita-6,23(<i>E</i>)-diene-3β,19(<i>R</i>),25-triol isolated from <i>Momordica charantia</i> on hepatoma cells.

Investigation of cell cytotoxic activity and molecular mechanism of 5β,19-epoxycucurbita-6,23(E)-diene-3β,19(R),25-triol isolated from Momordica charantia on hepatoma cells.

Context: Momordica charantia L. (Cucurbitaceae), known as bitter melon, is an edible fruit cultivated in the tropics. In this study, an active compound, 5β,19-epoxycucurbita-6,23(E)-diene-3β,19(R),25-triol (ECDT), isolated from M. charantia was investigated in regard to its cytotoxic effect on human hepatocellular carcinoma (HCC) cells.

Objective: To examine the mechanisms of ECDT-induced apoptosis in HCC cells.

Materials and methods: The inhibitive activity of ECDT on HA22T HCC cells was examined by MTT assay, colony formation assay, wound healing assay, TUNEL/DAPI staining, annexin V-fluorescein isothiocyanate/propidium iodide (PI) staining and JC-1 dye. HA22T cells were treated with ECDT (5, 10, 15, 20 and 25 μM) for 24 h, and the molecular mechanism of cells apoptosis was examined by Western blot. Cells treated with vehicle DMSO were used as the negative control.

Results: ECDT inhibited the cell proliferation of HA22T cells in a dose-dependent manner. Flow cytometry showed that ECDT treatment at 10-20 μM increased early apoptosis by 10-14% and late apoptosis by 2-5%. Western blot revealed that ECDT treatment activated the mitochondrial-dependent apoptotic pathway, and ECDT-induced apoptosis was mediated by the caspase signalling pathway and activation of JNK and p38MAPK. Pre-treatment of cells with MAPK inhibitors (SB203580 or SP600125) reversed the ECDT-induced cell death, which further supported the involvement of the p38MAPK and JNK pathways.

Discussion and conclusions: Our results indicated that ECDT can induce apoptosis through the p38MAPK and JNK pathways in HA22T cells. The findings suggested that ECDT has a valuable anticancer property with the potential to be developed as a new chemotherapeutic agent for the treatment of HCC.

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