优先转移到肺或骨的乳腺癌细胞比亲本MDA-MB-231细胞更容易糖酵解,以更高的速率合成丝氨酸,消耗更少的ATP和NADPH。

IF 6 3区 医学 Q1 CELL BIOLOGY
Mika B Jekabsons, Mollie Merrell, Anna G Skubiz, Noah Thornton, Sandra Milasta, Douglas Green, Taosheng Chen, Yan-Hong Wang, Bharathi Avula, Ikhlas A Khan, Yu-Dong Zhou
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引用次数: 4

摘要

与乳腺癌转移相关的基因表达特征表明,代谢重新布线对肺、骨骼和其他器官的转移生长很重要。然而,由于通路通量取决于其他因素,如ATP需求、变构效应和翻译后修饰,因此通量分析对于最终确定表型是必要的。在这项研究中,通过[1,2-13C]葡萄糖或[5-13C]谷氨酰胺的13C代谢物标记,以及营养、氧气消耗和乳酸生成率,评估了低(T47D)或高(MDA-MB-231)转移潜能的乳腺癌细胞系,以及MDA-MB-231细胞衍生的肺(LM)和骨(BoM)归家系的代谢表型。MDA-MB-231和T47D细胞分别通过氧化磷酸化产生55%和63%的ATP,而LM和BoM细胞更多的是糖酵解,只有20-25%的ATP来自线粒体。BoM细胞和LM细胞对ATP的需求大约是亲本细胞的一半。在所评估的合成代谢通量中,核苷酸合成是所有细胞系的主要ATP消耗者。LM细胞产生糖酵解NADH的速度超过了它被线粒体氧化的速度,这表明苹果酸-天冬氨酸穿梭不参与这些还原等量物的再氧化。MDA-MB-231细胞中检测不到丝氨酸合成,而LM和BoM细胞系将3-5%的葡萄糖分流为丝氨酸。T47D、BoM和LM细胞系的增殖率与其呼吸归一化NADPH产生率密切相关。相反,MDA-MB-231细胞产生NADPH和GSH的速率更高,表明该细胞系受到更大的氧化应激。T47D、MDA-MB-231和BoM细胞产生的NADPH大约有一半到三分之二来自于氧化PPP,而LM细胞中的大部分来自于叶酸循环。所有四种细胞系都使用非氧化性PPP产生戊糖磷酸,尽管这在LM细胞中最为突出。综上所述,LM系和BoM系的代谢表型不同于亲本系,也不同于亲本系,这支持了代谢重新布线假说是肺和骨转移的一个特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Breast cancer cells that preferentially metastasize to lung or bone are more glycolytic, synthesize serine at greater rates, and consume less ATP and NADPH than parent MDA-MB-231 cells.

Breast cancer cells that preferentially metastasize to lung or bone are more glycolytic, synthesize serine at greater rates, and consume less ATP and NADPH than parent MDA-MB-231 cells.

Breast cancer cells that preferentially metastasize to lung or bone are more glycolytic, synthesize serine at greater rates, and consume less ATP and NADPH than parent MDA-MB-231 cells.

Breast cancer cells that preferentially metastasize to lung or bone are more glycolytic, synthesize serine at greater rates, and consume less ATP and NADPH than parent MDA-MB-231 cells.

Gene expression signatures associated with breast cancer metastases suggest that metabolic re-wiring is important for metastatic growth in lungs, bones, and other organs. However, since pathway fluxes depend on additional factors such as ATP demand, allosteric effects, and post-translational modification, flux analysis is necessary to conclusively establish phenotypes. In this study, the metabolic phenotypes of breast cancer cell lines with low (T47D) or high (MDA-MB-231) metastatic potential, as well as lung (LM)- and bone (BoM)-homing lines derived from MDA-MB-231 cells, were assessed by 13C metabolite labeling from [1,2-13C] glucose or [5-13C] glutamine and the rates of nutrient and oxygen consumption and lactate production. MDA-MB-231 and T47D cells produced 55 and 63%, respectively, of ATP from oxidative phosphorylation, whereas LM and BoM cells were more glycolytic, deriving only 20-25% of their ATP from mitochondria. ATP demand by BoM and LM cells was approximately half the rate of the parent cells. Of the anabolic fluxes assessed, nucleotide synthesis was the major ATP consumer for all cell lines. Glycolytic NADH production by LM cells exceeded the rate at which it could be oxidized by mitochondria, suggesting that the malate-aspartate shuttle was not involved in re-oxidation of these reducing equivalents. Serine synthesis was undetectable in MDA-MB-231 cells, whereas 3-5% of glucose was shunted to serine by LM and BoM lines. Proliferation rates of T47D, BoM, and LM lines tightly correlated with their respiration-normalized NADPH production rates. In contrast, MDA-MB-231 cells produced NADPH and GSH at higher rates, suggesting this line is more oxidatively stressed. Approximately half to two-thirds of NADPH produced by T47D, MDA-MB-231, and BoM cells was from the oxidative PPP, whereas the majority in LM cells was from the folate cycle. All four cell lines used the non-oxidative PPP to produce pentose phosphates, although this was most prominent for LM cells. Taken together, the metabolic phenotypes of LM and BoM lines differed from the parent line and from each other, supporting the metabolic re-wiring hypothesis as a feature of metastasis to lung and bone.

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来源期刊
自引率
1.70%
发文量
17
审稿时长
14 weeks
期刊介绍: Cancer & Metabolism welcomes studies on all aspects of the relationship between cancer and metabolism, including: -Molecular biology and genetics of cancer metabolism -Whole-body metabolism, including diabetes and obesity, in relation to cancer -Metabolomics in relation to cancer; -Metabolism-based imaging -Preclinical and clinical studies of metabolism-related cancer therapies.
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