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Fer 缺失危及肺和乳腺癌细胞的代谢可塑性和线粒体稳态。

Loss of Fer Jeopardizes Metabolic Plasticity and Mitochondrial Homeostasis in Lung and Breast Carcinoma Cells.

机构信息

The Mina and Everard Goodman Faculty of Life-Sciences, Bar-Ilan University, Ramat-Gan 5290002, Israel.

The Azrieli Faculty of Medicine, Bar-Ilan University, Safed 1311202, Israel.

出版信息

Int J Mol Sci. 2021 Mar 25;22(7):3387. doi: 10.3390/ijms22073387.

DOI:10.3390/ijms22073387
PMID:33806191
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8037256/
Abstract

Metabolic plasticity is a hallmark of the ability of metastatic cancer cells to survive under stressful conditions. The intracellular Fer kinase is a selective constituent of the reprogramed mitochondria and metabolic system of cancer cells. In the current work, we deciphered the modulatory roles of Fer in the reprogrammed metabolic systems of metastatic, lung (H358), non-small cell lung cancer (NSCLC), and breast (MDA-MB-231), triple-negative breast cancer (TNBC), carcinoma cells. We show that H358 cells devoid of Fer (H358ΔFer), strictly depend on glucose for their proliferation and growth, and fail to compensate for glucose withdrawal by oxidizing and metabolizing glutamine. Furthermore, glucose deficiency caused increased reactive oxygen species (ROS) production and induction of a DNA damage response (DDR), accompanied by the onset of apoptosis and attenuated cell-cycle progression. Analysis of mitochondrial function revealed impaired respiratory and electron transport chain (ETC) complex 1 (comp. I) activity in the Fer-deficient H358ΔFer cells. This was manifested by decreased levels of NAD and ATP and relatively low abundance of tricarboxylic acid (TCA) cycle metabolites. Impaired electron transport chain comp. I activity and dependence on glucose were also confirmed in Fer-deficient, MDA-MB-231ΔFer cells. Although both H358ΔFer and MDA-MB-231ΔFer cells showed a decreased aspartate level, this seemed to be compensated by the predominance of pyrimidines synthesis over the urea cycle progression. Notably, absence of Fer significantly impeded the growth of H358ΔFer and MDA-MB-231ΔFer xenografts in mice provided with a carb-deficient, ketogenic diet. Thus, Fer plays a key role in the sustention of metabolic plasticity of malignant cells. In compliance with this notion, targeting Fer attenuates the progression of H358 and MDA-MB-231 tumors, an effect that is potentiated by a glucose-restrictive diet.

摘要

代谢可塑性是转移性癌细胞在应激条件下存活的能力的标志。细胞内 Fer 激酶是癌细胞重编程的线粒体和代谢系统的选择性组成部分。在目前的工作中,我们破译了 Fer 在转移性、肺(H358)、非小细胞肺癌(NSCLC)和乳腺癌(MDA-MB-231)、三阴性乳腺癌(TNBC)癌 细胞重编程代谢系统中的调节作用。我们表明,缺乏 Fer 的 H358 细胞(H358ΔFer)严格依赖葡萄糖进行增殖和生长,并且无法通过氧化和代谢谷氨酰胺来补偿葡萄糖的消耗。此外,葡萄糖缺乏会导致活性氧(ROS)产生增加和 DNA 损伤反应(DDR)的诱导,伴随着细胞凋亡的发生和细胞周期进程的减弱。线粒体功能分析显示,Fer 缺陷的 H358ΔFer 细胞的呼吸和电子传递链(ETC)复合物 1(comp. I)活性受损。这表现为 NAD 和 ATP 水平降低以及三羧酸(TCA)循环代谢物的相对低丰度。Fer 缺陷的 MDA-MB-231ΔFer 细胞也证实了电子传递链 comp. I 活性受损和对葡萄糖的依赖。尽管 H358ΔFer 和 MDA-MB-231ΔFer 细胞的天冬氨酸水平都降低了,但这似乎被嘧啶合成相对于尿素循环进展的优势所补偿。值得注意的是,Fer 的缺失显著阻碍了在提供碳缺乏、生酮饮食的小鼠中 H358ΔFer 和 MDA-MB-231ΔFer 异种移植物的生长。因此,Fer 在维持恶性细胞代谢可塑性方面发挥着关键作用。与这一观点一致,靶向 Fer 可减弱 H358 和 MDA-MB-231 肿瘤的进展,而在葡萄糖限制饮食的情况下,这种作用会增强。

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