In vivo isotope tracing reveals a requirement for the electron transport chain in glucose and glutamine metabolism by tumors
Menée à l'aide de lignées cellulaires et de xénogreffes de tumeurs, cette étude analyse, par traçage isotopique, la contribution du glucose et de la glutamine dans le cycle de l'acide tricarboxylique des cellules cancéreuses
In mice and humans with cancer, intravenous 13C-glucose infusion results in 13C labeling of tumor tricarboxylic acid (TCA) cycle intermediates, indicating that pyruvate oxidation in the TCA cycle occurs in tumors. The TCA cycle is usually coupled to the electron transport chain (ETC) because NADH generated by the cycle is reoxidized to NAD+ by the ETC. However, 13C labeling does not directly report ETC activity, and other pathways can oxidize NADH, so the ETC’s role in these labeling patterns is unverified. We examined the impact of the ETC complex I inhibitor IACS-010759 on tumor 13C labeling. IACS-010759 suppresses TCA cycle labeling from glucose or lactate and increases labeling from glutamine. Cancer cells expressing yeast NADH dehydrogenase-1, which recycles NADH to NAD+ independently of complex I, display normalized labeling when complex I is inhibited, indicating that cancer cell ETC activity regulates TCA cycle metabolism and 13C labeling from multiple nutrients. The electron transport chain in cancer cells contributes to 13C labeling in vivo.
Science Advances , article en libre accès, 2021