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首页> 美国卫生研究院文献>Oncotarget >A new semisynthetic cardenolide analog 3β-2-(1-amantadine)- 1-on-ethylamine-digitoxigenin (AMANTADIG) affects G2/M cell cycle arrest and miRNA expression profiles and enhances proapoptotic survivin-2B expression in renal cell carcinoma cell lines
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A new semisynthetic cardenolide analog 3β-2-(1-amantadine)- 1-on-ethylamine-digitoxigenin (AMANTADIG) affects G2/M cell cycle arrest and miRNA expression profiles and enhances proapoptotic survivin-2B expression in renal cell carcinoma cell lines

机译:一种新的半合成心烯内酯类似物3β-2-(1-(1-金刚烷胺)-1-乙胺 -digitoxigenin(AMANTADIG)影响G2 / M细胞周期阻滞和miRNA表达谱并增强肾癌细胞中促凋亡survivin-2B的表达线

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Cardiac glycosides are well known in the treatment of cardiovascular diseases; however, their application as treatment option for cancer patients is under discussion. We showed that the cardiac glycoside digitoxin and its analog AMANTADIG can inhibit the growth of renal cell carcinoma (RCC) cell lines and increase G2/M cell cycle arrest. To identify the signaling pathways and molecular basis of this G2/M arrest, microRNAs were profiled using microRNA arrays. Cardiac glycoside treatment significantly deregulated two microRNAs, miR-2278 and miR-670-5p. Pathway enrichment analysis showed that all cardiac glycoside treatments affected the MAPK and the axon guidance pathway. Within these pathways, three genes, MAPK1, NRAS and RAC2, were identified as in silico targets of the deregulated miRNAs. MAPK1 and NRAS are known regulators of G2/M cell cycle arrest. AMANTADIG treatment enhanced the expression of phosphorylated MAPK1 in 786-O cells. Secondly, we studied the expression of survivin known to be affected by cardiac glycosides and to regulate the G2/M cell phase. AMANTADIG treatment upregulated the expression of the pro-apoptotic survivin-2B variant in Caki-1 and 786-O cells. Moreover, treatment with AMANTADIG resulted in significantly lower survivin protein expression compared to 786-O control cells. Summarizing, treatment with all cardiac glycosides induced G2/M cell cycle arrest and downregulated the miR-2278 and miR-670-5p in microarray analysis. All cardiac glycosides affected the MAPK-pathway and survivin expression, both associated with the G2/M phase. Because cells in the G2/M phase are radio- and chemotherapy sensitive, cardiac glycosides like AMANTADIG could potentially improve the efficacy of radio- and/or chemotherapy in RCCs.
机译:心脏苷在心血管疾病的治疗中是众所周知的。然而,它们作为癌症患者的治疗选择的应用正在讨论中。我们显示强心苷洋地黄毒苷及其类似物AMANTADIG可以抑制肾细胞癌(RCC)细胞系的生长并增加G2 / M细胞周期停滞。为了确定这种G2 / M阻滞的信号传导途径和分子基础,使用microRNA阵列分析了microRNA。心脏糖苷治疗显着解除了miR-2278和miR-670-5p这两种microRNA的调控。途径富集分析表明,所有强心苷治疗均影响MAPK和轴突引导途径。在这些途径中,MAPK1,NRAS和RAC2这三个基因被鉴定为miRNA失控的计算机靶标。 MAPK1和NRAS是G2 / M细胞周期停滞的已知调节剂。 AMANTADIG处理可增强786-O细胞中磷酸化MAPK1的表达。其次,我们研究了已知受强心苷影响并调节G2 / M细胞相的survivin的表达。 AMANTADIG处理上调了Caki-1和786-O细胞中促凋亡survivin-2B变体的表达。此外,与786-O对照细胞相比,用AMANTADIG进行处理可导致Survivin蛋白表达明显降低。总之,在微阵列分析中,所有强心苷的治疗均诱导了G2 / M细胞周期停滞并下调了miR-2278和miR-670-5p。所有强心苷均影响MAPK途径和survivin表达,两者均与G2 / M期有关。由于处于G2 / M期的细胞对放射和化疗敏感,因此像AMANTADIG这样的强心苷可以潜在地提高RCC中放射和/或化疗的功效。

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