Slow TCA flux and ATP production in primary solid tumours but not metastases

柠檬酸循环 糖酵解 焊剂(冶金) 厌氧糖酵解 瓦博格效应 癌症 化学 生物化学 生物 新陈代谢 癌症研究 细胞生物学 医学 内科学 有机化学
作者
Caroline Bartman,Daniel Weilandt,Yihui Shen,Won Dong Lee,Yujiao Han,Tara TeSlaa,Connor S.R. Jankowski,Laith Z. Samarah,Noel R. Park,Victoria da Silva-Diz,Maya Aleksandrova,Yetiş Gültekin,A. Marishta,Lin Wang,Lifeng Yang,Asael Roichman,Vrushank Bhatt,Taijin Lan,Zhixian Hu,Xi Xing
出处
期刊:Nature [Nature Portfolio]
卷期号:614 (7947): 349-357 被引量:291
标识
DOI:10.1038/s41586-022-05661-6
摘要

Tissues derive ATP from two pathways—glycolysis and the tricarboxylic acid (TCA) cycle coupled to the electron transport chain. Most energy in mammals is produced via TCA metabolism1. In tumours, however, the absolute rates of these pathways remain unclear. Here we optimize tracer infusion approaches to measure the rates of glycolysis and the TCA cycle in healthy mouse tissues, Kras-mutant solid tumours, metastases and leukaemia. Then, given the rates of these two pathways, we calculate total ATP synthesis rates. We find that TCA cycle flux is suppressed in all five primary solid tumour models examined and is increased in lung metastases of breast cancer relative to primary orthotopic tumours. As expected, glycolysis flux is increased in tumours compared with healthy tissues (the Warburg effect2,3), but this increase is insufficient to compensate for low TCA flux in terms of ATP production. Thus, instead of being hypermetabolic, as commonly assumed, solid tumours generally produce ATP at a slower than normal rate. In mouse pancreatic cancer, this is accommodated by the downregulation of protein synthesis, one of this tissue’s major energy costs. We propose that, as solid tumours develop, cancer cells shed energetically expensive tissue-specific functions, enabling uncontrolled growth despite a limited ability to produce ATP. As solid tumours develop, cancer cells shed energetically expensive tissue-specific functions, enabling uncontrolled growth despite a limited ability to produce ATP.
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