Bunik Victoria I, Mkrtchyan Garik, Grabarska Aneta, Oppermann Henry, Daloso Danilo, Araujo Wagner L, Juszczak Malgorzata, Rzeski Wojciech, Bettendorff Lucien, Fernie Alisdair R, Meixensberger Jürgen, Stepulak Andrzej, Gaunitz Frank
Belozersky Institute and Bioinformatics, Lomonosov Moscow State University, Moscow, Russia.
Faculty of Bioengineering and Bioinformatics, Lomonosov Moscow State University, Moscow, Russia.
Oncotarget. 2016 May 3;7(18):26400-21. doi: 10.18632/oncotarget.8387.
2-Oxoglutarate dehydrogenase (OGDH) of the tricarboxylic acid (TCA) cycle is often implied to be inactive in cancer, but this was not experimentally tested. We addressed the question through specific inhibition of OGDH by succinyl phosphonate (SP). SP action on different cancer cells was investigated using indicators of cellular viability and reactive oxygen species (ROS), metabolic profiling and transcriptomics. Relative sensitivity of various cancer cells to SP changed with increasing SP exposure and could differ in the ATP- and NAD(P)H-based assays. Glioblastoma responses to SP revealed metabolic sub-types increasing or decreasing cellular ATP/NAD(P)H ratio under OGDH inhibition. Cancer cell homeostasis was perturbed also when viability indicators were SP-resistant, e.g. in U87 and N2A cells. The transcriptomics database analysis showed that the SP-sensitive cells, such as A549 and T98G, exhibit the lowest expression of OGDH compared to other TCA cycle enzymes, associated with higher expression of affiliated pathways utilizing 2-oxoglutarate. Metabolic profiling confirmed the dependence of cellular SP reactivity on cell-specific expression of the pathways. Thus, oxidative decarboxylation of 2-oxoglutarate is significant for the interdependent homeostasis of NAD(P)H, ATP, ROS and key metabolites in various cancer cells. Assessment of cell-specific responses to OGDH inhibition is of diagnostic value for anticancer strategies.
三羧酸(TCA)循环中的2-氧代戊二酸脱氢酶(OGDH)在癌症中常被认为是无活性的,但这一点尚未经过实验验证。我们通过琥珀酰膦酸酯(SP)对OGDH的特异性抑制来解决这个问题。使用细胞活力和活性氧(ROS)指标、代谢谱分析和转录组学研究了SP对不同癌细胞的作用。随着SP暴露量的增加,各种癌细胞对SP的相对敏感性发生变化,并且在基于ATP和NAD(P)H的检测中可能有所不同。胶质母细胞瘤对SP的反应揭示了在OGDH抑制下细胞ATP/NAD(P)H比值增加或减少的代谢亚型。当活力指标对SP耐药时,例如在U87和N2A细胞中,癌细胞的稳态也会受到干扰。转录组学数据库分析表明,与其他TCA循环酶相比,SP敏感细胞(如A549和T98G)中OGDH的表达最低,这与利用2-氧代戊二酸的相关途径的较高表达有关。代谢谱分析证实了细胞对SP反应性对途径细胞特异性表达的依赖性。因此,2-氧代戊二酸的氧化脱羧对于各种癌细胞中NAD(P)H、ATP、ROS和关键代谢物的相互依赖的稳态具有重要意义。评估细胞对OGDH抑制的特异性反应对抗癌策略具有诊断价值。