The tumor suppressor folliculin inhibits lactate dehydrogenase A and regulates the Warburg effect

Aerobic glycolysis in cancer cells, also known as the ‘Warburg effect’, is driven by hyperactivity of lactate dehydrogenase A (LDHA). LDHA is thought to be a substrate-regulated enzyme, but it is unclear whether a dedicated intracellular protein also regulates its activity. Here, we identify the hum...

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Veröffentlicht in:Nature structural & molecular biology 2021-08, Vol.28 (8), p.662-670
Hauptverfasser: Woodford, Mark R., Baker-Williams, Alexander J., Sager, Rebecca A., Backe, Sarah J., Blanden, Adam R., Hashmi, Fiza, Kancherla, Priyanka, Gori, Alessandro, Loiselle, David R., Castelli, Matteo, Serapian, Stefano A., Colombo, Giorgio, Haystead, Timothy A., Jensen, Sandra M., Stetler-Stevenson, William G., Loh, Stewart N., Schmidt, Laura S., Linehan, W. Marston, Bah, Alaji, Bourboulia, Dimitra, Bratslavsky, Gennady, Mollapour, Mehdi
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Sprache:eng
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Zusammenfassung:Aerobic glycolysis in cancer cells, also known as the ‘Warburg effect’, is driven by hyperactivity of lactate dehydrogenase A (LDHA). LDHA is thought to be a substrate-regulated enzyme, but it is unclear whether a dedicated intracellular protein also regulates its activity. Here, we identify the human tumor suppressor folliculin (FLCN) as a binding partner and uncompetitive inhibitor of LDHA. A flexible loop within the amino terminus of FLCN controls movement of the LDHA active-site loop, tightly regulating its enzyme activity and, consequently, metabolic homeostasis in normal cells. Cancer cells that experience the Warburg effect show FLCN dissociation from LDHA. Treatment of these cells with a decapeptide derived from the FLCN loop region causes cell death. Our data suggest that the glycolytic shift of cancer cells is the result of FLCN inactivation or dissociation from LDHA. Together, FLCN-mediated inhibition of LDHA provides a new paradigm for the regulation of glycolysis. Identification of the tumor suppressor FLCN as an intracellular inhibitor of LDHA and a regulator of the Warburg effect provides a new paradigm for the regulation of glycolysis.
ISSN:1545-9993
1545-9985
DOI:10.1038/s41594-021-00633-2