Targeting lactate-fueled respiration selectively kills hypoxic tumor cells in mice
Pierre Sonveaux, … , Olivier Feron, Mark W. Dewhirst
Pierre Sonveaux, … , Olivier Feron, Mark W. Dewhirst
Published November 20, 2008
Citation Information: J Clin Invest. 2008;118(12):3930-3942. https://doi.org/10.1172/JCI36843.
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Targeting lactate-fueled respiration selectively kills hypoxic tumor cells in mice

Abstract

Tumors contain oxygenated and hypoxic regions, so the tumor cell population is heterogeneous. Hypoxic tumor cells primarily use glucose for glycolytic energy production and release lactic acid, creating a lactate gradient that mirrors the oxygen gradient in the tumor. By contrast, oxygenated tumor cells have been thought to primarily use glucose for oxidative energy production. Although lactate is generally considered a waste product, we now show that it is a prominent substrate that fuels the oxidative metabolism of oxygenated tumor cells. There is therefore a symbiosis in which glycolytic and oxidative tumor cells mutually regulate their access to energy metabolites. We identified monocarboxylate transporter 1 (MCT1) as the prominent path for lactate uptake by a human cervix squamous carcinoma cell line that preferentially utilized lactate for oxidative metabolism. Inhibiting MCT1 with α-cyano-4-hydroxycinnamate (CHC) or siRNA in these cells induced a switch from lactate-fueled respiration to glycolysis. A similar switch from lactate-fueled respiration to glycolysis by oxygenated tumor cells in both a mouse model of lung carcinoma and xenotransplanted human colorectal adenocarcinoma cells was observed after administration of CHC. This retarded tumor growth, as the hypoxic/glycolytic tumor cells died from glucose starvation, and rendered the remaining cells sensitive to irradiation. As MCT1 was found to be expressed by an array of primary human tumors, we suggest that MCT1 inhibition has clinical antitumor potential.

Authors

Pierre Sonveaux, Frédérique Végran, Thies Schroeder, Melanie C. Wergin, Julien Verrax, Zahid N. Rabbani, Christophe J. De Saedeleer, Kelly M. Kennedy, Caroline Diepart, Bénédicte F. Jordan, Michael J. Kelley, Bernard Gallez, Miriam L. Wahl, Olivier Feron, Mark W. Dewhirst

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Figure 9

MCT1 is expressed in a variety of different human tumor cell lines and primary human tumor biopsies.

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Lactate is a substrate for oxidative tumor cell metabolism. (A and B) En...
(A and B) MCT1 was detected by western blot (A) and confocal microscopy (B) in human tumor cell lines and control tissues. Note the plasma membrane expression of the lactate transporter in WiDr, FaDu, SiHa, and PC-3 cancer cells. (C) MCT1 (red) and nuclei (blue) were detected using immunofluorescence in biopsies of primary human colon, breast, and head and neck human cancers. (D) MCT1 and hypoxia were detected in cryoslices of a primary human lung cancer. The patient had received EF5 before tumor biopsy. Representative confocal microscopy pictures revealed that the staining of MCT1 (green) and of the hypoxia marker EF5 (red) did not overlap. Scale bars: 20 μm (B); 100 μm (C and D).