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Revisiting the Warburg Effect with Focus on Lactate

Eva Kociánová, Viktoria Piatrikova, Tereza Golias

2022Cancers101 citationsDOIOpen Access PDF

Abstract

Rewired metabolism is acknowledged as one of the drivers of tumor growth. As a result, aerobic glycolysis, or the Warburg effect, is a feature of many cancers. Increased glucose uptake and glycolysis provide intermediates for anabolic reactions necessary for cancer cell proliferation while contributing sufficient energy. However, the accompanying increased lactate production, seemingly wasting glucose carbon, was originally explained only by the need to regenerate NAD+ for successive rounds of glycolysis by the lactate dehydrogenase (LDH) reaction in the cytosol. After the discovery of a mitochondrial LDH isoform, lactate oxidation entered the picture, and lactate was recognized as an important oxidative fuel. It has also been revealed that lactate serves a variety of signaling functions and helps cells adapt to the new environment. Here, we discuss recent findings on lactate metabolism and signaling in cancer while attempting to explain why the Warburg effect is adopted by cancer cells.

Topics & Concepts

Warburg effectGlycolysisAnaerobic glycolysisAnabolismLactate dehydrogenaseLactate dehydrogenase ANAD+ kinaseCytosolCancer cellOxidative phosphorylationBiochemistryChemistryMitochondrionBiologyMetabolismCell biologyCancerEnzymeGeneticsCancer, Hypoxia, and MetabolismMitochondrial Function and PathologyATP Synthase and ATPases Research
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