ADAPTOR PROTEIN RUK/CIN85 IS INVOLVED IN THE GLUCOSE METABOLISM REPROGRAMMING IN BREAST CANCER CELLS

M. I. Bekala
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Abstract

Aim. This study aimed to investigate the changes in glucose metabolism in mouse 4T1 breast adenocarcinoma cells with different levels of Ruk/CIN85 expression. Methods. We used 4T1 cells with stable overexpression (subline RukUp) or knockdown (subline RukDown) of Ruk/CIN85, as well as corresponding vector control sublines Mock and Scr. Cells were cultured in the complete RPMI-1640 medium under standard conditions. mRNA expression levels were estimated by RT2-PCR, enzymes activities were measured by spectrophotometric and/or fluorometric assays. Results. Analysis of mRNA expression of glucose metabolism-related genes in RukUp and RukDown cells revealed that glycolysis genes are preferentially overexpressed in RukUp cells, and downregulated in RukDown cells. Thus, RukUp cells were characterized by significantly overexpressed Slc2a1, Gck, Aldoa, and Ldha, while in RukDown cells these genes were either down regulated or not changed. However, the expression of TCA (tricarboxylic acid) cycle enzyme Mdh2 increased dramatically (by 7,8 times) in RukDown cells. In detail, we observed statistically significant changes in the activity of all studied enzymes in RukUp cells (increase by 1,5-1,9 times for glycolysis enzymes and G6PD, and decrease by 1,33-1,69 times for TCA enzymes). However, in RukDown cells we did not find any significant changes in glycolysis enzymes activities, but activities of mitochondrial IDH3 and MDH2 were elevated by 1,65 and 1,59 times, respectively. Conclusions. The results obtained indicate that adaptor protein Ruk/CIN85 is involved in the metabolic reprogramming during breast cancer progression. High level of Ruk/CIN85 expression is associated with potentiation of the Warburg effect.
衔接蛋白RUK/CIN85参与乳腺癌细胞葡萄糖代谢重编程
目标本研究旨在研究不同Ruk/CIN85表达水平的小鼠4T1乳腺腺癌细胞葡萄糖代谢的变化。方法。我们使用具有Ruk/CIN85的稳定过表达(亚系RukUp)或敲除(亚系RukDown)的4T1细胞,以及相应的载体对照亚系Mock和Scr。细胞在标准条件下在完全RPMI-1640培养基中培养。通过RT2-PCR估计mRNA表达水平,通过分光光度法和/或荧光测定法测量酶活性。后果对RukUp和RukDown细胞中葡萄糖代谢相关基因的mRNA表达的分析显示,糖酵解基因在RukUp细胞中优先过表达,而在RukDown细胞中下调。因此,RukUp细胞的特征是显著过表达的Slc2a1、Gck、Aldoa和Ldha,而在RukDown细胞中,这些基因要么被下调,要么没有改变。然而,TCA(三羧酸)循环酶Mdh2在RukDown细胞中的表达显著增加(增加了7,8倍)。详细地说,我们观察到RukUp细胞中所有研究酶的活性发生了统计学上的显著变化(糖酵解酶和G6PD增加了1,5,1.9倍,TCA酶减少了1,33-1,69倍)。然而,在RukDown细胞中,我们没有发现糖酵解酶活性有任何显著变化,但线粒体IDH3和MDH2的活性分别升高了1.65和1.59倍。结论。所获得的结果表明,衔接蛋白Ruk/CIN85参与了乳腺癌症进展过程中的代谢重编程。高水平的Ruk/CIN85表达与Warburg效应的增强有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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