Monika Kratochvilova, Petr Stepka, Martina Raudenska, Jan Balvan, Lukas Richtera, Natalia Cernei, Dagmar Sterbova Skopalova, Ondrej Zitka, Petr Filipensky, Petr Babula, Michal Masarik
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引用次数: 0
Abstract
Objectives: Cisplatin is a widely used anticancer drug for the treatment of many solid cancers. DNA damage is thought to be the key mechanism of cisplatin's anticancer activity. However, cisplatin may also affect cellular metabolism. The aim of this study was to determine the effect of cisplatin on the types of ATP production (OXPHOS versus glycolysis) and their rate in prostate cancer cells and to determine the potentially protective effect of autophagy and amino acids during cisplatin treatment. We also wanted to investigate the potential synergy between the metabolic effects of cisplatin on ATP production and the inhibition of autophagy.
Methods: Cisplatin treatment can significantly affect the metabolism of cancer cells. Important metabolic pathways can be altered, leading to changes in energy production and nutrient utilization. Autophagy and amino acid pool modulations can serve as protective mechanisms significantly affecting tumor cell survival under metabolic stress caused by anticancer treatment. By enabling the recycling of amino acids, autophagy helps cancer cells maintain cellular homeostasis and overcome nutrient limitations. Thus, inhibition of autophagy could have a supportive effect on the metabolic effects of cisplatin.
Results: After cisplatin treatment, ATP production by way of OXPHOS was significantly decreased in 22Rv1 and PC-3 cells. On the other hand, ATP production by glycolysis was not significantly affected in 22Rv1 cells. DU145 cells with dysfunctional autophagy were the most sensitive to cisplatin treatment and showed the lowest ATP production. However, short-term autophagy inhibition (24h) by autophinib or SAR405 in 22Rv1 and PC-3 cells did not alter the effect of cisplatin on ATP production. Levels of some amino acids (arginine, methionine) significantly affected the fitness of cancer cells.
Conclusion: Persistent defects of autophagy can affect the metabolic sensitivity of cancer cells due to interference with arginine metabolism. Amino acids contained in the culture medium had an impact on the overall effect of cisplatin (Fig. 3, Ref. 38).
研究目的顺铂是一种广泛用于治疗多种实体瘤的抗癌药物。DNA 损伤被认为是顺铂抗癌活性的关键机制。然而,顺铂也可能影响细胞的新陈代谢。本研究的目的是确定顺铂对前列腺癌细胞中产生 ATP 的类型(OXPHOS 与糖酵解)及其速率的影响,并确定在顺铂治疗期间自噬和氨基酸的潜在保护作用。我们还想研究顺铂对 ATP 生成的代谢影响与抑制自噬之间的潜在协同作用:方法:顺铂治疗会严重影响癌细胞的新陈代谢。方法:顺铂治疗会严重影响癌细胞的新陈代谢,改变重要的代谢途径,导致能量产生和营养物质利用发生变化。自噬和氨基酸池调节可作为一种保护机制,在抗癌治疗引起的代谢压力下显著影响肿瘤细胞的存活。通过实现氨基酸的循环利用,自噬可以帮助癌细胞维持细胞平衡并克服营养限制。因此,抑制自噬可对顺铂的代谢效应产生支持作用:结果:顺铂处理后,22Rv1 和 PC-3 细胞通过 OXPHOS 产生的 ATP 显著减少。另一方面,糖酵解产生的 ATP 在 22Rv1 细胞中没有受到明显影响。自噬功能失调的 DU145 细胞对顺铂处理最敏感,其 ATP 产量也最低。然而,在22Rv1和PC-3细胞中使用奥托菲尼或SAR405进行短期自噬抑制(24小时)并不会改变顺铂对ATP产生的影响。某些氨基酸(精氨酸、蛋氨酸)的水平会显著影响癌细胞的活力:结论:由于精氨酸代谢受到干扰,自噬的持续缺陷会影响癌细胞的代谢敏感性。培养基中的氨基酸对顺铂的整体效果有影响(图 3,参考文献 38)。
期刊介绍:
The international biomedical journal - Bratislava Medical Journal
– Bratislavske lekarske listy (Bratisl Lek Listy/Bratisl Med J) publishes
peer-reviewed articles on all aspects of biomedical sciences, including
experimental investigations with clear clinical relevance, original clinical
studies and review articles.