草酸对不同转移潜能LEWIS肺癌细胞乳酸脱氢酶的抑制作用。

D L Kolesnik, I V Prokhorova, O N Pyaskovskaya, G I Solyanik
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引用次数: 0

摘要

背景:如今,代谢重编程的能力被认为是具有转移活性的肿瘤细胞的显著特征之一,有氧糖酵解就是一个典型的例子。尽管在这个方向上进行了大量研究,但有氧糖酵解的强度与肿瘤细胞转移潜力之间的关系问题仍然几乎完全悬而未决。本工作旨在研究乳酸脱氢酶(LDH)抑制剂对具有不同转移潜能的Lewis肺癌细胞的生存能力和几个特征的影响。材料和方法:使用Lewis肺癌细胞的高转移(LLC)和低转移(LLC/R9)变体。在肿瘤细胞用或不用40mM草酸盐钠孵育24小时后,估计细胞活力、孵育培养基中葡萄糖和乳酸的浓度、细胞周期阶段的细胞分布以及细胞内ROS的产生。结果:研究表明,无论转移潜力如何,LLC细胞在生长和存活过程中参与有氧糖酵解以及对LDH抑制剂的细胞毒性/细胞抑制作用的敏感性方面都是异质性的。任一LLC变体的35%的细胞形成草酸盐抗性亚群,而65%是草酸盐敏感的。LLC/R9细胞在不存在草酸盐的情况下的葡萄糖消耗速率几乎是LLC的两倍,这些细胞对草酸盐的细胞毒性/细胞抑制作用的敏感性也显著更高(LLC/R9细胞的IC50比LLC细胞低35.8%,p<0.05)。当有氧糖酵解被草酸盐完全抑制时,LLC和LLC/C9变体的大约三分之一的细胞可以存活和增殖。这表明该细胞亚群的代谢重编程(预先存在的或响应糖酵解的抑制而动态产生的),其中不仅细胞的存活,而且细胞的增殖活性很可能基于谷氨酰胺代谢。结论:转移活性细胞的这种代谢异质性表明,单药抑制糖酵解不足以进行有效的抗转移治疗。据推测,更有效的方法是使用各种代谢过程抑制剂,以确保转移细胞的代谢可塑性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EFFECT OF LACTATE DEHYDROGENASE INHIBITION BY OXAMATE ON LEWIS LUNG CARCINOMA CELLS WITH DIFFERENT METASTATIC POTENTIAL.

Background: Today, the ability for metabolic reprogramming is considered one of the distinguishing features of metastatically active tumor cells, a classic example of which is aerobic glycolysis. Despite a large number of studies in this direction, the question of the relationship between the intensity of aerobic glycolysis and the metastatic potential of tumor cells remains almost completely open. The work aimed to investigate the effect of the lactate dehydrogenase (LDH) inhibitor on the viability and several characteristics of Lewis lung carcinoma cells with different metastatic potential.

Materials and methods: High-metastatic (LLC) and low-metastatic (LLC/R9) variants of Lewis lung carcinoma cells were used. After 24 h of tumor cells incubation with or without 40 mM sodium oxamate, cell viability, the concentration of glucose and lactate in the incubation medium, distribution of cells by the cell cycle phases, and intracellular ROS production were estimated.

Results: It was revealed that regardless of the metastatic potential, LLC cells are heterogeneous in terms of both the involvement of aerobic glycolysis in their growth and survival processes and the sensitivity to the cytotoxic/cytostatic action of an LDH inhibitor. 35% of cells of either LLC variant form an oxamate-resistant subpopulation while 65% are oxamate-sensitive. The rate of glucose consumption of LLC/R9 cells in the absence of oxamate is almost twice higher compared to LLC and, as a result, the sensitivity of these cells to the cytotoxic/cytostatic effect of oxamate also is significantly higher (the IC50 for LLC/R9 cells is by 35.8% lower than that for LLC cells, p < 0.05). Approximately one-third of the cells of both LLC and LLC/R9 variants can survive and proliferate when aerobic glycolysis is completely inhibited by oxamate. This indicates metabolic reprogramming (either pre-existing or dynamically arising in response to inhibition of glycolysis) of this subpopulation of cells, within which not only the survival of cells but also their proliferative activity is most likely based on glutamine metabolism.

Conclusions: Such metabolic heterogeneity of metastatically active cells indicates that inhibition of glycolysis as monotherapy is insufficient for effective antimetastatic therapy. Presumably, more effective would be to involve various inhibitors of metabolic processes that ensure the metabolic plasticity of metastatic cells.

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